KR101873249B1 - Method for diagnosing dementia using blood-derived cellular gene expression pattern - Google Patents
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Abstract
본 발명은 혈액기반 유전자 발현패턴을 이용한 치매 진단 방법에 관한 것으로, 구체적으로는 치매 또는 경도인지장애 의심 환자로부터 채취한 소량의 혈액을 배양 세포에 처리한 다음, 배양 세포 내의 SPC25 유전자를 포함하는 특정 유전자들의 발현패턴을 측정함으로써 치매를 진단할 수 있는 혈액기반 치매진단용 유전자발현 검사법에 관한 것이다. 임상에 적용할 경우, 비교적 간편하고 적은 비용으로 치매를 진단할 수 있는 검사법의 기초원리 또는 원천기술로 활용될 수 있을 것이다. 또한 이러한 혈액기반 치매진단용 유전자발현검사법의 기초원리는 환자로부터 채취한 소량의 혈액을 이용하여 해당 질병의 유무 또는 건강상태를 검사할 수 있기 때문에, 신경퇴행성질환은 물론 암, 만성질환 등을 진단하는 데에도 활용될 수 있으므로, 다양한 임상증상의 진단에 응용이 가능할 것이다.The present invention relates to a method for diagnosing dementia using a blood-based gene expression pattern. More specifically, the present invention relates to a method for diagnosing dementia using a blood-based gene expression pattern, which comprises treating a cultured cell with a small amount of blood collected from a patient suspected of having dementia or a mild cognitive impairment, The present invention relates to a gene expression test method for diagnosing dementia by measuring an expression pattern of genes. When applied to clinical practice, it can be used as a basic principle or source technology of a test method that can diagnose dementia with relatively simple and low cost. In addition, the basic principle of the gene expression test for diagnosis of blood-based dementia is to diagnose neurodegenerative diseases as well as cancer and chronic diseases by checking the presence or the health condition of the disease using a small amount of blood collected from the patient And can be applied to the diagnosis of various clinical symptoms.
Description
본 발명은 혈액기반 유전자 발현패턴을 이용한 치매 또는 경도인지장애 진단 방법에 관한 것이다.The present invention relates to a method for diagnosing dementia or mild cognitive impairment using a blood-based gene expression pattern.
우리나라의 경우, 65세 이상 노인 인구 중 약 9.5%인 29만명 정도가 노인성 치매로 고생하고 있으며, 이 중 73%인 18만명은 습관적으로 거리를 배회하는 등 중증 환자이다. 이는 앞으로 인구의 노령화가 가속화됨에 따라 지속적으로 증가하여, 2020년에는 치매 환자가 현재보다 2.4배까지 증가한 70만명에 달할 것으로 예상된다.In Korea, about 9.5% of the elderly population aged 65 or older, or 290,000, suffer from senile dementia. Of these, about 180,000, or 73% of them, are habitually wandering the streets. It is expected that the number of dementia patients will increase 2.4 times in 2020 to 700,000 as the aging of the population accelerates in the future.
치매는 아직까지 효과적인 치료제가 개발되어 있지 않으므로, 치매조기발견에 따른 예방관리가 무엇보다도 중요한 질환이다. 그러나 현재까지 치매진단은 주로 신경심리검사에 의존하고 있으며, 보조적 수단으로써 MRI(뇌위축 등 뇌변형 검사) 또는 PET(아밀로이드 침착수준 검사) 등이 사용되고 있으나 검사비용이 비싼 단점이 있으며, 뇌척수액 검사법(아밀로이드 혹은 타우 단백질의 양을 측정)은 침습적인 방법으로써 환자들이 꺼려하는 단점이 있다. Since dementia has not yet developed an effective therapeutic agent, preventive management based on early detection of dementia is the most important disease. However, until now, dementia diagnosis depends mainly on neuropsychological tests. MRI (brain deformation test such as brain slip) or PET (amyloid deposition level test) is used as an auxiliary means, Or measuring the amount of tau protein) is an invasive method that disadvantages patients.
미국 시애틀에 있는 시스템 생물학 연구소의 리로이 후드(Hood) 박사는 10년 내에, 연간 두세 차례 혈액 검사만으로 인체 각 기관의 건강 상태를 체크할 수 있게 될 것이라고 예상했으며, 이 기술은 신체 각 기관들이 지속적으로 수백 가지의 단백질을 혈액 속에 쏟아낸다는 사실을 이용하였다. 이 중 각 기관이 배출하는 기관 고유의 단백질은 50가지인데, 이를 일컬어 단백질 지문(protein fingerprint)이라고 한다. 뇌와 간, 신장 등 신체 기관에 이상이 생기면 이 단백질 지문이 변화를 일으키게 되고, 혈액 검사로 이 변화를 파악하면 질병을 조기에 발견할 수 있다는 것이다.Dr. Hood of the System Biology Institute in Seattle, USA, predicted that within a decade, two or three blood tests a year would be able to check the health status of each human organ, I used the fact that I spilled hundreds of proteins into the blood. There are 50 different types of protein that each institution emits, called protein fingerprints. If an abnormality occurs in the body organs, such as the brain, liver, and kidneys, the protein fingerprint will change, and if the blood test detects this change, the disease can be detected early.
위와 같이, 비교적 간단한 방법인 혈액 검사만으로도 조기 질병 진단이 가능하므로, 혈액을 이용한 정확한 결과를 얻기 위해 질병 특이적인 정확한 진단마커의 확보가 더 중요해지고 있다. 따라서 혈액 시료를 이용한 치매조기진단법 및 이를 위한 바이오마커가 개발된다면, 간편하고 저렴하게 치매를 조기진단할 수 있을 것이다.As described above, since it is possible to diagnose an early disease only by a blood test which is a relatively simple method, it is becoming more important to acquire a disease-specific accurate diagnosis marker in order to obtain accurate results using blood. Therefore, if a method for early detection of dementia using blood samples and a biomarker for the same are developed, it will be possible to diagnose dementia easily and inexpensively.
한편, 한국공개특허 제2009-0009579호에는 '알츠하이머병 진단용 마커 및 이를 이용한 진단키트'가 개시되어 있고, 한국등록특허 제1138343호에는 '알츠하이머 질병의 진단을 위한 신속한 시험법'이 개시되어 있으나, 본 발명의 혈액기반 유전자 발현패턴을 이용한 치매 또는 경도인지장애 진단 방법에 대해서는 밝혀진 바가 전혀 없다.Korean Patent Laid-Open No. 2009-0009579 discloses a marker for diagnosing Alzheimer's disease and a diagnostic kit using the same, and Korean Patent No. 1138343 discloses a 'rapid test method for diagnosing Alzheimer's disease' The method for diagnosing dementia or mild cognitive impairment using the blood-based gene expression pattern of the present invention has never been disclosed.
본 발명은 상기와 같은 요구에 의해 도출된 것으로서, 본 발명자는 혈액 시료(혈청, 혈장 등)를 배양 세포에 처리한 다음, 배양 세포 내의 SPC25 유전자를 포함하는 특정 유전자들의 발현패턴을 측정함으로써 정상인 유래 혈액 시료로부터 치매 환자 또는 경도인지장애 환자 유래 혈액 시료를 구분할 수 있음을 확인함으로써, 본 발명을 완성하였다.DISCLOSURE OF THE INVENTION The present invention has been made in view of the above-mentioned needs, and it is an object of the present invention to provide a method for treating a blood sample (serum, plasma, etc.) to cultured cells and then measuring the expression pattern of specific genes including SPC25 gene The present inventors have completed the present invention by confirming that blood samples can be distinguished from demented patients or blood samples derived from patients with mild cognitive impairment.
본 발명의 목적을 달성하기 위하여, 본 발명은 In order to achieve the object of the present invention,
(a) 검체로부터 채취한 혈액 시료를 신경 세포에 처리하고 배양하는 단계;(a) treating and culturing a neural cell with a blood sample collected from a specimen;
(b) 상기 (a) 단계의 배양한 신경 세포로부터 SPC25(SPC25, NDC80 kinetochore complex component), FAM55C(family with sequence similarity 55, member C), WSB1(WD repeat and SOCS box containing 1), NSUN5C(NOP2/Sun RNA methyltransferase family member 5 pseudogene 2), GJA1(gap junction protein alpha 1), MCTS1(malignant T cell amplified sequence 1), WASF1(WAS protein family member 1), PTMA(prothymosin, alpha), TRMT2B(tRNA methyltransferase 2 homolog B), LOC644131, NEK2(NIMA(never in mitosis gene a)-related kinase 2), SLC12A2(solute carrier family 12 member 2), TPRKB(TP53RK binding protein), FCF1(FCF1 rRNA-processing protein), HMGB2(high-mobility group box 2), GRIK2(glutamate receptor, ionotropic, kainate 2), LOC440063, LOC729009 및 LOC100129191 유전자로 이루어진 군으로부터 선택된 하나 이상의 유전자의 발현 수준을 측정하는 단계; 및(b) The SPC25 (SPC25, NDC80 kinetochore complex component), FAM55C (family with sequence similarity 55, member C), WSB1 (WD repeat and SOCS box containing 1), NSUN5C / WTF (WAS protein family member 1), PTMA (prothymosin, alpha), TRMT2B (tRNA methyltransferase 2 homolog B), LOC644131, NEK2 (never in mitosis gene a) -related kinase 2, SLC12A2 (solute carrier family 12 member 2), TPRKB (TP53RK binding protein), FCF1 (FCF1 rRNA- measuring the expression level of at least one gene selected from the group consisting of high-mobility group box 2, glutamate receptor, ionotropic, kainate 2, LOC440063, LOC729009 and LOC100129191 genes; And
(c) 상기 측정한 유전자의 발현 수준을 정상 개체로부터 채취한 혈액 시료를 신경 세포에 처리한 대조군의 상기 동일 유전자의 발현 수준과 비교하는 단계;를 포함하는 것을 특징으로 하는 혈액 시료를 이용하여 치매 또는 경도인지장애 진단에 정보를 제공하는 방법을 제공한다. (c) comparing the expression level of the gene with the expression level of the same gene in a control group treated with a neuron-treated blood sample from a normal subject, and Or a method for providing information to a diagnosis of a mild cognitive disorder.
또한, 본 발명은 SPC25, FAM55C, WSB1, NSUN5C, GJA1, MCTS1, WASF1, PTMA, TRMT2B, LOC644131, NEK2, SLC12A2, TPRKB, FCF1, HMGB2, GRIK2, LOC440063, LOC729009 및 LOC100129191 유전자로 이루어진 군으로부터 선택된 하나 이상의 유전자의 발현 수준을 측정하는 제제를 유효성분으로 함유하는 혈액 시료를 이용한 치매 또는 경도인지장애 진단용 조성물 및 키트를 제공한다.The present invention also relates to a method for screening for one or more genes selected from the group consisting of SPC25, FAM55C, WSB1, NSUN5C, GJA1, MCTS1, WASF1, PTMA, TRMT2B, LOC644131, NEK2, SLC12A2, TPRKB, FCF1, HMGB2, GRIK2, LOC440063, LOC729009 and LOC100129191 A composition and a kit for diagnosing dementia or a mild cognitive disorder using a blood sample containing an agent for measuring the expression level of a gene as an active ingredient.
본 발명은 치매 또는 경도인지장애 의심 환자로부터 채취한 소량의 혈액을 이용하여 치매를 진단할 수 있는 혈액기반 치매진단용 유전자발현 검사법에 관한 것으로서, 임상에 적용할 경우, 비교적 간편하고 적은 비용으로 치매를 진단할 수 있는 검사법의 기초원리 또는 원천기술로 활용될 수 있을 것이다. 또한 이러한 혈액기반 치매진단용 유전자발현검사법의 기초원리는 환자로부터 채취한 소량의 혈액을 이용하여 해당 질병의 유무 또는 건강상태를 검사할 수 있기 때문에, 신경퇴행성질환은 물론 암, 만성질환 등을 진단하는데에도 활용될 수 있으므로, 다양한 임상증상의 진단에 응용이 가능할 것이다.The present invention relates to a method for diagnosing dementia using a small amount of blood collected from a patient suspected of having dementia or a mild cognitive impairment, and more particularly, It can be used as a basic principle or source technology of a diagnostic method that can be diagnosed. In addition, the basic principle of the gene expression test for diagnosis of blood-based dementia is to diagnose neurodegenerative diseases as well as cancer and chronic diseases because a small amount of blood collected from the patient can be used to examine the presence or absence of the disease or health condition It can be applied to the diagnosis of various clinical symptoms.
도 1은 치매군 혈청/혈장 반응 유전자 선정을 위한 간략 모식도이다.
도 2는 각각의 정상 인간(H_N02~H_NO6), 치매에 걸린 인간(H_D01~H_D05), 정상 마우스(H_pW), APPPS1dE9 Tg 마우스(H_pT) 혈청을 처리한 SH-SY5Y 세포주에서 차별적으로 발현하는 유전자들을 찾기 위해 Illumina Human HT-12 v4.0 Beadchip microarray을 통해 유전자들의 발현 프로파일을 조사한 결과를 토대로 DEGs(differentially expressed genes)의 계층적 클러스터링을 나타낸 결과이다.
도 3은 SPC25 및 FAM55C 유전자의 정상군 및 치매군 혈청-처리 세포주에서의 상대적 발현 수준을 qRT-PCR을 통해 분석한 결과를 나타낸다. SPC25 및 FAM55C의 발현은 안산노인코호트 대상군에서 선정된 정상(Normal, n=5) 및 치매(Dementia, n=5) 혈청에서 유의차가 있었다(*: p < 0.05, **: p < 0.001). 데이터는 3 반복체로부터 평균±SD로 표시하였다.
도 4는 SPC25 유전자의 정상군 및 치매군 혈장-처리 세포주에서의 상대적 발현 수준을 qRT-PCR을 통해 분석한 결과를 나타낸다. SPC25의 발현은 안산노인코호트 대상군에서 선정된 정상(Normal, n=5) 및 치매(Dementia, n=5) 혈장에서 유의차가 있었다(p < 0.005).
도 5는 SPC25 유전자의 정상군 및 치매군 혈청-처리 세포주에서의 상대적 발현 수준을 qRT-PCR을 통해 분석한 결과를 나타낸다. SPC25의 발현은 안산노인코호트 대상군에서 연령 성별 매칭하여 선정된 정상(Normal, n=10) 및 치매(Dementia, n=10) 혈청에서 유의차가 있었다(p < 0.002).
도 6은 SPC25 유전자의 정상군 및 경도인지장애군 혈청-처리 세포주에서의 상대적 발현 수준을 qRT-PCR을 통해 분석한 결과를 나타낸다. SPC25의 발현은 안산노인코호트 대상군에서 연령 성별 매칭하여 선정된 정상(Normal, n=10) 및 경도인지장애(MCI, n=10) 혈청에서 유의차가 있었다(p=0.00002).
도 7은 Spc25 유전자의 마우스 대조군(wild type) 및 치매동물모델(APP/PS1 Tg) 혈청-처리 세포주에서의 상대적 발현 수준을 qRT-PCR을 통해 분석한 결과를 나타낸다. Spc25의 발현은 마우스 대조군(wild type, n=6) 및 치매동물모델(APP/PS1 Tg, n=6) 혈청에서 유의차가 있었다(p < 0.001).1 is a simplified schematic diagram for selecting a serum / plasma response gene in a dementia group.
2 shows genes differentially expressed in SH-SY5Y cell lines treated with normal human (H_N02 to H_NO6), demented human (H_D01 to H_D05), normal mouse (H_pW) and APPPS1dE9 Tg mouse (H_pT) This is the result of hierarchical clustering of differentially expressed genes (DEGs) based on the results of investigation of the expression profiles of genes through Illumina Human HT-12 v4.0 Beadchip microarray.
FIG. 3 shows the results of qRT-PCR analysis of the relative expression levels of the SPC25 and FAM55C genes in the normal group and the demented group serum-treated cell line. The expression of SPC25 and FAM55C was significantly different in the normal (n = 5) and dementia (n = 5) sera of the selected patients in the Ansan old cohort (*: p <0.05, **: p <0.001) . Data were expressed as means ± SD from 3 replicates.
Fig. 4 shows the results of qRT-PCR analysis of the relative expression levels in the normal group of the SPC25 gene and the plasma-treated cell line of the demented group. The expression of SPC25 was significantly different in the normal (n = 5) and dementia (dementia, n = 5) plasma in the Ansan old cohort group (p <0.005).
FIG. 5 shows the results of qRT-PCR analysis of the relative expression levels in the normal group of the SPC25 gene and the sera-treated cell line of the dementia group. The expression of SPC25 was significantly different in the normal (n = 10) and dementia (dementia, n = 10) sera selected by age-matched sex cohorts in the Ansan old cohort group (p <0.002).
FIG. 6 shows the results of qRT-PCR analysis of the relative expression levels in the normal group of the SPC25 gene and in the serum-treated cell line of the cognitive impairment group. There was a significant difference in the expression of SPC25 between normal (n = 10) and mild cognitive impairment (MCI, n = 10) sera in the Ansan old cohort group (p = 0.00002).
FIG. 7 shows the results of qRT-PCR analysis of the relative expression levels of Spc25 gene in wild-type and dementia animal model (APP / PS1 Tg) sera-treated cell lines. The expression of Spc25 was significantly different between the mouse control (wild type, n = 6) and demented animal model (APP / PS1 Tg, n = 6) serum (p <0.001).
본 발명의 목적을 달성하기 위하여, 본 발명은In order to achieve the object of the present invention,
(a) 검체로부터 채취한 혈액 시료를 신경 세포에 처리하고 배양하는 단계;(a) treating and culturing a neural cell with a blood sample collected from a specimen;
(b) 상기 (a) 단계의 배양한 신경 세포로부터 SPC25(SPC25, NDC80 kinetochore complex component), FAM55C(family with sequence similarity 55, member C), WSB1(WD repeat and SOCS box containing 1), NSUN5C(NOP2/Sun RNA methyltransferase family member 5 pseudogene 2), GJA1(gap junction protein alpha 1), MCTS1(malignant T cell amplified sequence 1), WASF1(WAS protein family member 1), PTMA(prothymosin, alpha), TRMT2B(tRNA methyltransferase 2 homolog B), LOC644131, NEK2(NIMA(never in mitosis gene a)-related kinase 2), SLC12A2(solute carrier family 12 member 2), TPRKB(TP53RK binding protein), FCF1(FCF1 rRNA-processing protein), HMGB2(high-mobility group box 2), GRIK2(glutamate receptor, ionotropic, kainate 2), LOC440063, LOC729009 및 LOC100129191 유전자로 이루어진 군으로부터 선택된 하나 이상의 유전자의 발현 수준을 측정하는 단계; 및(b) The SPC25 (SPC25, NDC80 kinetochore complex component), FAM55C (family with sequence similarity 55, member C), WSB1 (WD repeat and SOCS box containing 1), NSUN5C / WTF (WAS protein family member 1), PTMA (prothymosin, alpha), TRMT2B (tRNA methyltransferase 2 homolog B), LOC644131, NEK2 (never in mitosis gene a) -related kinase 2, SLC12A2 (solute carrier family 12 member 2), TPRKB (TP53RK binding protein), FCF1 (FCF1 rRNA- measuring the expression level of at least one gene selected from the group consisting of high-mobility group box 2, glutamate receptor, ionotropic, kainate 2, LOC440063, LOC729009 and LOC100129191 genes; And
(c) 상기 측정한 유전자의 발현 수준을 정상 개체로부터 채취한 혈액 시료를 신경 세포에 처리한 대조군의 상기 동일 유전자의 발현 수준과 비교하는 단계;를 포함하는 것을 특징으로 하는 혈액 시료를 이용하여 치매 또는 경도인지장애 진단에 정보를 제공하는 방법을 제공한다.(c) comparing the expression level of the gene with the expression level of the same gene in a control group treated with a neuron-treated blood sample from a normal subject, and Or a method for providing information to a diagnosis of a mild cognitive disorder.
본 발명의 일 구현 예에 따른 방법에서, 상기 SPC25(SPC25, NDC80 kinetochore complex component), WSB1(WD repeat and SOCS box containing 1), GJA1(gap junction protein alpha 1), MCTS1(malignant T cell amplified sequence 1), WASF1(WAS protein family member 1), PTMA(prothymosin, alpha), LOC644131, NEK2(NIMA(never in mitosis gene a)-related kinase 2), SLC12A2(solute carrier family 12 member 2), TPRKB(TP53RK binding protein), HMGB2(high-mobility group box 2), GRIK2(glutamate receptor, ionotropic, kainate 2), LOC440063, LOC729009 및 LOC100129191 유전자 중 하나 이상의 유전자의 발현 수준이 상기 대조군에 비해 증가하고, 상기 FAM55C(family with sequence similarity 55, member C), NSUN5C(NOP2/Sun RNA methyltransferase family member 5 pseudogene 2), TRMT2B(tRNA methyltransferase 2 homolog B) 및 FCF1(FCF1 rRNA-processing protein) 유전자 중 하나 이상의 유전자의 발현 수준이 상기 대조군에 비해 감소하면 치매 또는 경도인지장애로 판단하는 것을 특징으로 한다.In the method according to one embodiment of the present invention, SPC25 (SPC25, NDC80 kinetochore complex component), WSB1 (WD repeat and SOCS box containing 1), gap junction protein alpha 1 (GJA1), malignant T cell amplified sequence 1 ), WASF1 (WAS protein family member 1), PTMA (prothymosin, alpha), LOC644131, NEK2 (never in mitosis gene a) -related kinase 2, SLC12A2 (solute carrier family 12 member 2), TPRKB protein, HMGB2, glutamate receptor, ionotropic, kainate 2, LOC440063, LOC729009 and LOC100129191 genes are increased compared to the control group, and the FAM55C (family with the expression level of one or more of the genes of sequence similarity 55, member C, NSUN5C (NOP2 / Sun RNA methyltransferase family member 5 pseudogene 2), TRMT2B (tRNA methyltransferase 2 homolog B) and FCF1 (FCF1 rRNA- Compared to those with dementia or hardness It characterized in that the determination of a disability.
본 발명의 일 구현 예에 따른 방법에서, 상기 SPC25, FAM55C, WSB1, NSUN5C, GJA1, MCTS1, WASF1, PTMA, TRMT2B, LOC644131, NEK2, SLC12A2, TPRKB, FCF1, HMGB2, GRIK2, LOC440063, LOC729009 및 LOC100129191 유전자는 각각 서열번호 1, 서열번호 2, 서열번호 3, 서열번호 4, 서열번호 5, 서열번호 6, 서열번호 7, 서열번호 8, 서열번호 9, 서열번호 10, 서열번호 11, 서열번호 12, 서열번호 13, 서열번호 14, 서열번호 15, 서열번호 16, 서열번호 17, 서열번호 18 및 서열번호 19의 염기서열로 이루어질 수 있으나, 이에 제한되지 않는다. In the method according to one embodiment of the present invention, the SPC25, FAM55C, WSB1, NSUN5C, GJA1, MCTS1, WASF1, PTMA, TRMT2B, LOC644131, NEK2, SLC12A2, TPRKB, FCF1, HMGB2, GRIK2, LOC440063, LOC729009 and LOC100129191 genes 6, SEQ ID NO: 7, SEQ ID NO: 8, SEQ ID NO: 9, SEQ ID NO: 10, SEQ ID NO: 11, SEQ ID NO: 12, SEQ ID NO: SEQ ID NO: 13, SEQ ID NO: 14, SEQ ID NO: 15, SEQ ID NO: 16, SEQ ID NO: 17, SEQ ID NO: 18 and SEQ ID NO: 19.
바람직하게는, 본 발명의 상기 유전자는 서열번호 1 내지 19로 각각 표시되는 염기서열을 포함할 수 있으며 또한, 상기 염기 서열의 상동체가 본 발명의 범위 내에 포함된다. 구체적으로, 상기 유전자는 서열번호 1 내지 19의 염기 서열과 각각 70% 이상, 더욱 바람직하게는 80% 이상, 더 더욱 바람직하게는 90% 이상, 가장 바람직하게는 95% 이상의 서열 상동성을 가지는 염기 서열을 포함할 수 있다. 폴리뉴클레오티드에 대한 "서열 상동성의 %"는 두 개의 최적으로 배열된 서열과 비교 영역을 비교함으로써 확인되며, 비교 영역에서의 폴리뉴클레오티드 서열의 일부는 두 서열의 최적 배열에 대한 참고 서열(추가 또는 삭제를 포함하지 않음)에 비해 추가 또는 삭제(즉, 갭)를 포함할 수 있다.Preferably, the gene of the present invention may include the nucleotide sequences shown in SEQ ID NOS: 1 to 19, respectively, and homologues of the nucleotide sequences are included within the scope of the present invention. Specifically, the gene has at least 70%, more preferably at least 80%, more preferably at least 90%, and most preferably at least 95% sequence homology with the nucleotide sequence of SEQ ID NO: 1 to 19 Sequence. "% Of sequence homology to polynucleotides" is ascertained by comparing the comparison region with two optimally aligned sequences, and a portion of the polynucleotide sequence in the comparison region is the reference sequence for the optimal alignment of the two sequences (I. E., A gap) relative to the < / RTI >
본 발명의 "치매"는 기억, 언어, 판단력 등의 여러 영역에 걸쳐 후천적으로 인지 기능이 퇴화하는 신경퇴행성 뇌질환을 의미한다. 치매(dementia)는 다양한 원인에 의해 뇌기능이 손상되면서 기억력, 시공간 능력, 판단 및 사고력 등의 전박적인 지적 능력과 인지기능이 지속적으로 저항되어 사회생활 및 일상생활에 장애를 주는 상태를 나타낸다. 치매를 일으키는 대표적인 원인 질환은 알츠하이머성 치매 (Alzheimer's disease)로 전체 치매의 약 70% 정도를 차지한다. 알츠하이머성 치매는 뇌조직에 베타 아밀로이드반(-amyloid plaque), 신경섬유다발(neurofibrillary tangle), 신경염 (neuritis) 등의 병변 현상이 나타나지만, 아직까지 정확한 발병기전 및 원인에 대해서는 명확히 밝혀져 있지 않다. The term "dementia " of the present invention refers to a neurodegenerative brain disease in which cognitive function degenerates throughout various areas such as memory, language, and judgment ability. Dementia is a state in which brain function is impaired by various causes, and all sorts of intellectual abilities such as memory, time and space ability, judgment and thinking ability and cognitive function are constantly resisted and obstruct social life and daily life. The most common cause of dementia is Alzheimer's disease, which accounts for about 70% of all dementia. Although Alzheimer's dementia has lesions such as a-amyloid plaque, neurofibrillary tangle, and neuritis in brain tissue, the mechanism and cause of the exact pathogenesis are still unclear.
본 발명의 치매는 바람직하게는 알츠하이머병일 수 있으나, 이에 제한되지 않는다. The dementia of the present invention is preferably, but not limited to, Alzheimer's disease.
본 발명의 "경도인지장애(mild cognitive impairment, MCI)"는 정상 노인에 비해 인지기능은 저하되었으나 독립적인 일상생활을 수행하는 능력은 유지한 상태로, 정상에서 치매로 이행되는 중간단계를 말한다. 경도인지장애 노인환자 중 연간 5~20%가 치매로 진행되는 것으로 보고되고 있어, 경도인지장애는 치매로 이행될 가능성이 높은 위험군으로 인식되고 있다. 따라서 경도인지장애는 치매 발병의 예측 및 조기진단을 위하여 임상적으로 중요한 단계이다. The term " mild cognitive impairment " (MCI) of the present invention refers to an intermediate stage in which the cognitive function is lowered compared to a normal elderly person but the ability to perform independent daily life is maintained and transitioned from normal to dementia. It has been reported that 5 ~ 20% of elderly patients with mild cognitive impairment progress to dementia per year, and mild cognitive impairment is recognized as a risk group that is highly likely to be migrated to dementia. Therefore, mild cognitive impairment is a clinically important step for the prediction and early diagnosis of dementia.
본 발명의 일 구현 예에 따른 방법에서, 상기 신경 세포는 상기 SPC25, FAM55C, WSB1, NSUN5C, GJA1, MCTS1, WASF1, PTMA, TRMT2B, LOC644131, NEK2, SLC12A2, TPRKB, FCF1, HMGB2, GRIK2, LOC440063, LOC729009 및 LOC100129191 유전자를 발현하는 신경 세포일 수 있고, 바람직하게는 인간 신경모세포종(Human neuroblastoma) 또는 마우스 신경세포일 수 있으며, 더욱 바람직하게는 SH-SY5Y 세포 또는 마우스 T4 세포일 수 있으나, 이에 제한되지 않는다.In the method according to an embodiment of the present invention, the neuron is selected from the group consisting of SPC25, FAM55C, WSB1, NSUN5C, GJA1, MCTS1, WASF1, PTMA, TRMT2B, LOC644131, NEK2, SLC12A2, TPRKB, FCF1, HMGB2, GRIK2, LOC440063, LOC729009 and LOC100129191 genes, preferably human neuroblastoma or mouse neuronal cells, more preferably SH-SY5Y cells or mouse T4 cells, but are not limited thereto Do not.
본 발명의 일 구현 예에 따른 방법에서, 상기 혈액 시료는 동물 유래의 혈액 시료일 수 있고, 바람직하게는 인간 혈액 시료일 수 있으며, 더욱 바람직하게는 인간 혈액으로부터 분리한 혈장 또는 혈청일 수 있으나, 이에 제한되지 않는다.In the method according to an embodiment of the present invention, the blood sample may be an animal-derived blood sample, preferably a human blood sample, more preferably a plasma or serum separated from human blood, But is not limited thereto.
본 발명의 일 구현 예에 따른 방법에서, 상기 발현 수준을 측정하는 방법은 RT-PCR, 경쟁적 RT-PCR(competitive RT-PCR), 실시간 RT-PCR(Real-time RT-PCR), RNase 보호 분석법(RPA:RNase protection assay), 노던 블랏팅(Northern blotting), DNA 마이크로어레이 칩, 웨스턴 블럿팅(Western Blotting), 효소면역분석법(enzyme-linked immunosorbent assay), 방사능면역분석법(RIA), 방사면역확산법, 오우크테로니 면역 확산법, 로케트 면역 전기영동, 면역조직화학, 면역침전법(immunoprecipitation), 보체 고정 분석법, 유세포 분석법(FACS), 단백질 칩 방법 등일 수 있으나, 이에 제한되지 않는다.In a method according to an embodiment of the present invention, the method of measuring the expression level can be performed by RT-PCR, competitive RT-PCR, real-time RT-PCR, (RPA: RNase protection assay), Northern blotting, DNA microarray chip, Western blotting, enzyme-linked immunosorbent assay, radioimmunoassay (RIA) But are not limited to, Ouchteroni immunodiffusion, rocket immunoelectrophoresis, immunohistochemistry, immunoprecipitation, complement fixation, flow cytometry (FACS), protein chip methods, and the like.
또한, 본 발명은 SPC25, FAM55C, WSB1, NSUN5C, GJA1, MCTS1, WASF1, PTMA, TRMT2B, LOC644131, NEK2, SLC12A2, TPRKB, FCF1, HMGB2, GRIK2, LOC440063, LOC729009 및 LOC100129191 유전자로 이루어진 군으로부터 선택된 하나 이상의 유전자의 발현 수준을 측정하는 제제를 유효성분으로 함유하는 혈액 시료를 이용한 치매 또는 경도인지장애 진단용 조성물을 제공한다.The present invention also relates to a method for screening for one or more genes selected from the group consisting of SPC25, FAM55C, WSB1, NSUN5C, GJA1, MCTS1, WASF1, PTMA, TRMT2B, LOC644131, NEK2, SLC12A2, TPRKB, FCF1, HMGB2, GRIK2, LOC440063, LOC729009 and LOC100129191 A composition for diagnosing dementia or a hard cognitive impairment using a blood sample containing an agent for measuring the expression level of a gene as an active ingredient.
본 발명의 일 구현 예에 따른 조성물에서, 상기 유전자의 발현 수준을 측정하는 제제는 상기 유전자와 특이적으로 결합하는 프라이머, 프로브 또는 상기 유전자의 발현 단백질을 특이적으로 인식하는 항체를 포함할 수 있으나, 이에 제한되지 않는다.In the composition according to an embodiment of the present invention, the agent for measuring the expression level of the gene may include a primer that specifically binds to the gene, a probe, or an antibody specifically recognizing the expression protein of the gene , But is not limited thereto.
본 발명에서, 용어 "유전자의 발현 수준을 측정하는 제제"란 상기와 같이 치매 의심 검체의 혈액 시료를 배양 세포주에 처리하였을 때, 배양 세포주에서 발현이 증가 또는 감소하는 마커인 상기 유전자의 mRNA 또는 단백질의 발현 수준을 확인함으로써 마커의 검출에 사용될 수 있는 분자를 의미하며, 바람직하게는 상기 유전자와 특이적으로 결합하는 프라이머, 프로브 또는 상기 유전자의 발현 단백질에 특이적으로 인식하는 항체를 말한다. 더 바람직하게는 상기 유전자의 mRNA를 증폭할 수 있는 프라이머일 수 있다.In the present invention, the term "agent for measuring the expression level of a gene" means that when a blood sample of a suspected dementia sample is treated in a culture cell line, mRNA or protein of the gene, which is a marker for increasing or decreasing expression in the cell line, Refers to a molecule that can be used for the detection of a marker by confirming the expression level of the gene, and preferably refers to an antibody specifically recognizing a primer, a probe, or an expression protein of the gene, which specifically binds to the gene. More preferably, it may be a primer capable of amplifying mRNA of the gene.
본 명세서에서, 용어 "프라이머"는 적합한 온도에서 적합한 완충액 내에서 적합한 조건(즉, 4종의 다른 뉴클레오사이드 트리포스페이트 및 중합반응 효소)하에서 주형-지시 DNA 합성의 개시점으로 작용할 수 있는 단일-가닥 올리고뉴클레오타이드를 의미한다. 프라이머의 적합한 길이는 다양한 인자, 예컨대, 온도와 프라이머의 용도에 따라 변이가 있지만 전형적으로 15-30 뉴클레오타이드이다. 짧은 프라이머 분자는 주형과 충분히 안정된 하이브리드 복합체를 형성하기 위하여 일반적으로 보다 낮은 온도를 요구한다.As used herein, the term "primer" refers to a single-stranded oligonucleotide capable of acting as a starting point for template-directed DNA synthesis under suitable conditions (i.e., four different nucleoside triphosphates and polymerization enzymes) Strand < / RTI > oligonucleotide. The suitable length of the primer is typically 15-30 nucleotides, although it varies depending on various factors such as temperature and use of the primer. Short primer molecules generally require lower temperatures to form sufficiently stable hybrid complexes with the template.
프라이머의 서열은 주형의 일부 서열과 완전하게 상보적인 서열을 가질 필요는 없으며, 주형과 혼성화되어 프라이머 고유의 작용을 할 수 있는 범위 내에서의 충분한 상보성을 가지면 충분하다. 따라서 본 발명에서의 프라이머쌍은 주형인 표적 유전자 서열에 완벽하게 상보적인 서열을 가질 필요는 없으며, 이 서열에 혼성화되어 프라이머 작용을 할 수 있는 범위 내에서 충분한 상보성을 가지면 충분하다. 본 발명의 프라이머는 표적 유전자의 mRNA(즉, cDNA) 서열에 상보적인 서열로 제조될 수 있다. 이러한 프라이머의 디자인은 표적 유전자의 cDNA 서열을 참조하여 당업자에 의해 용이하게 실시할 수 있다.The sequence of the primer does not need to have a sequence completely complementary to a partial sequence of the template, and it is sufficient if the primer has sufficient complementarity within a range capable of hybridizing with the template and acting as a primer. Therefore, the primer pair in the present invention does not need to have a perfectly complementary sequence to the target gene sequence as a template, and it is sufficient that the primer pair has sufficient complementarity within a range capable of hybridizing to the sequence and acting as a primer. The primer of the present invention can be prepared with a sequence complementary to the mRNA (i.e., cDNA) sequence of the target gene. The design of such a primer can be easily carried out by those skilled in the art with reference to the cDNA sequence of the target gene.
용어 "프로브"란 mRNA 또는 cDNA와 특이적으로 결합을 이룰 수 있는 짧게는 수 염기 내지 길게는 수백 염기에 해당하는 RNA 또는 DNA 등의 핵산 단편을 의미하며 라벨링되어 있어서 특정 mRNA의 존재 유무, 발현 양을 확인할 수 있다. 프로브는 올리고뉴클레오타이드(oligonucleotide) 프로브, 단쇄 DNA(single strand DNA) 프로브, 이중쇄 DNA(double strand DNA) 프로브, RNA 프로브 등의 형태로 제작될 수 있다.The term "probe" refers to a nucleic acid fragment such as RNA or DNA corresponding to a few nucleotides or several hundreds of nucleotides that can specifically bind to mRNA or cDNA. The presence or absence of a specific mRNA, can confirm. The probe may be prepared in the form of an oligonucleotide probe, a single strand DNA probe, a double strand DNA probe, or an RNA probe.
본 발명의 프라이머 또는 프로브는 포스포아미다이트(phosphoramidite) 고체 지지체 합성법이나 기타 널리 공지된 방법을 이용하여 화학적으로 합성할 수 있다. 이러한 핵산 서열은 또한 당해 기술분야에 공지된 다양한 방법을 통해 변형시킬 수 있다. 이러한 변형의 예로는 메틸화, 캡화, 천연 뉴클레오티드 하나 이상의 동족체로의 치환, 및 뉴클레오티드 간의 변형, 예를 들면 하전되지 않은 연결체(예: 메틸 포스포네이트, 포스포트리에스테르, 포스포로아미데이트, 카바메이트 등) 또는 하전된 연결체(예: 포스포로티오에이트, 포스포로디티오에이트 등)로의 변형이 있다.The primer or probe of the present invention can be chemically synthesized using a phosphoramidite solid support synthesis method or other well-known methods. Such nucleic acid sequences may also be modified through a variety of methods known in the art. Examples of such modifications include, but are not limited to, methylation, capping, substitution with one or more of the natural nucleotide analogs, and modifications between nucleotides, such as uncharged linkers (e.g., methylphosphonate, phosphotriester, phosphoramidate, carbamate Etc.) or charged conjugates (e.g., phosphorothioates, phosphorodithioates, etc.).
용어 "항체"란 당해 기술분야에 공지된 용어로서 항원성 부위에 대하여 지시되는 특이적인 면역 글로불린을 의미한다. 본 발명에서의 항체는 본 발명의 검체로부터 채취한 혈액 시료를 신경 세포에 처리하고 배양한 신경 세포에서 발현이 증가 또는 감소하는 마커인 SPC25, FAM55C, WSB1, NSUN5C, GJA1, MCTS1, WASF1, PTMA, TRMT2B, LOC644131, NEK2, SLC12A2, TPRKB, FCF1, HMGB2, GRIK2, LOC440063, LOC729009 및 LOC100129191에 대해 특이적으로 결합하는 항체를 의미하며, SPC25, FAM55C, WSB1, NSUN5C, GJA1, MCTS1, WASF1, PTMA, TRMT2B, LOC644131, NEK2, SLC12A2, TPRKB, FCF1, HMGB2, GRIK2, LOC440063, LOC729009 및 LOC100129191 유전자를 발현벡터에 클로닝하여 상기 유전자에 의해 코딩되는 단백질을 얻고, 얻어진 단백질로부터 당해 기술분야의 통상적인 방법에 따라 항체를 제조할 수 있다. 상기 항체의 형태는 폴리클로날 항체 또는 모노클로날 항체를 포함하며, 모든 면역글로불린 항체가 포함된다. 상기 항체는 2개의 전체 길이의 경쇄 및 2 개의 전체 길이의 중쇄를 갖는 완전한 형태를 의미한다. 또한, 상기 항체는 인간화 항체 등의 특수 항체도 포함된다.The term "antibody ", as the term is known in the art, refers to a specific immunoglobulin directed against an antigenic site. The antibody of the present invention can be used as a marker for the expression of SPC25, FAM55C, WSB1, NSUN5C, GJA1, MCTS1, WASF1, PTMA, or the like, which is a marker for increasing or decreasing expression in neuronal cells treated with a blood sample collected from a specimen of the present invention, FAM55C, WSB1, NSUN5C, GJA1, MCTS1, WASF1, PTMA, and TRMT2B, specifically binds to TRMT2B, LOC644131, NEK2, SLC12A2, TPRKB, FCF1, HMGB2, GRIK2, LOC440063, LOC729009 and LOC100129191. , LOC644131, NEK2, SLC12A2, TPRKB, FCF1, HMGB2, GRIK2, LOC440063, LOC729009 and LOC100129191 genes are cloned into an expression vector to obtain a protein encoded by the gene. From the obtained protein, Can be produced. The forms of the antibodies include polyclonal or monoclonal antibodies, including all immunoglobulin antibodies. The antibody refers to a complete form having two full-length light chains and two full-length heavy chains. The antibody also includes a special antibody such as a humanized antibody.
또한, 본 발명은 SPC25, FAM55C, WSB1, NSUN5C, GJA1, MCTS1, WASF1, PTMA, TRMT2B, LOC644131, NEK2, SLC12A2, TPRKB, FCF1, HMGB2, GRIK2, LOC440063, LOC729009 및 LOC100129191 유전자로 이루어진 군으로부터 선택된 하나 이상의 유전자의 발현 수준을 측정하는 제제를 유효성분으로 함유하는 혈액 시료를 이용한 치매 또는 경도인지장애 진단용 키트를 제공한다. The present invention also relates to a method for screening for one or more genes selected from the group consisting of SPC25, FAM55C, WSB1, NSUN5C, GJA1, MCTS1, WASF1, PTMA, TRMT2B, LOC644131, NEK2, SLC12A2, TPRKB, FCF1, HMGB2, GRIK2, LOC440063, LOC729009 and LOC100129191 A kit for diagnosing dementia or a mild cognitive disorder using a blood sample containing an agent for measuring the expression level of a gene as an active ingredient.
본 발명의 일 구현 예에 따른 키트에서, 상기 유전자의 발현 수준을 측정하는 제제는 상기 유전자와 특이적으로 결합하는 프라이머, 프로브 또는 상기 유전자의 발현 단백질을 특이적으로 인식하는 항체를 포함할 수 있으나, 이에 제한되지 않는다. 상기 프라이머, 프로브 또는 항체는 전술한 바와 같다.
In the kit according to an embodiment of the present invention, the agent for measuring the expression level of the gene may include a primer that specifically binds to the gene, a probe or an antibody specifically recognizing the expression protein of the gene , But is not limited thereto. The above primers, probes or antibodies are as described above.
이하, 본 발명을 실시예에 의해 상세히 설명한다. 단, 하기 실시예는 본 발명을 예시하는 것일 뿐, 본 발명의 내용이 하기 실시예에 한정되는 것은 아니다.
Hereinafter, the present invention will be described in detail with reference to examples. However, the following examples are illustrative of the present invention, and the present invention is not limited to the following examples.
재료 및 방법Materials and methods
1. 인간 혈청 및 혈장 샘플 준비1. Preparation of human serum and plasma samples
본 발명은 도시지역(경기도 안산) 대상으로 집단기반 노인 코호트 연구(population-based geriatric cohort study)를 위해 2009년부터 2010년 사이에 수집된 60세 이상의 정상인, 경도인지장애 및 치매 환자의 혈청과 혈장 샘플을 사용하였다. 샘플은 발굴용 샘플(discovery set)과 검증용 샘플(validation set)으로 구성하였으며, 발굴용 샘플은 인간 마이크로어레이(human microarray) 분석을 위하여 성별과 나이(±2)를 매칭한 정상군(NC)과 치매군(AD) 각각 5명을 포함하였다. 검증용 샘플은 유의적으로 차이나는 유전자들에 대한 검증(validation)을 위하여 성별과 나이(±2)를 매칭한 정상군(NC), 경도인지장애군(mild cognitive impairment, aMCI) 및 치매군(AD)으로 구성하여 각 그룹별로 10명씩 추가시켰다. 각 샘플 세트에 대한 demographic characteristics는 표 1과 같다. 본 발명에서 치매 진단은 Diagnosis and Statistical Manual of Mental Disorders, fourth edition(DSM-IV) 제시한 기준을 따랐으며, 경도인지장애는 Petersen/Winblad criteria를 따랐다. 신경정신과적 검사로 간이정신상태검사(Mini-Mental State Examination, MMSE)를 실시하였고, 이는 MMSE-KC(Korean version of MMSE in the Korean version of CERAD Assessment Packet)로 시행되었다. 치매임상평가척도(Clinical Dementia Rating Scale, CDR)는 최성혜 등(2001)에 의하여 번안된 한국판 expanded Clinical Dementia Rating 척도를 사용하였다.The present invention is based on the findings that the serum and plasma of patients aged 60 years or older, mild cognitive impairment and dementia patients collected between 2009 and 2010 for a population-based geriatric cohort study in urban areas (Ansan, Gyeonggi) Samples were used. The samples were composed of a discovery set and a validation set. The digestion samples were classified into normal group (NC) matching sex and age (± 2) for human microarray analysis, And dementia group (AD), respectively. The validation samples were validated for validation with significantly different genes, including normal group (NC), mild cognitive impairment (aMCI), and dementia group (± 2) AD) were added to each group. Table 1 shows the demographic characteristics for each sample set. In the present invention, the diagnosis of dementia followed the criteria set forth in the Diagnosis and Statistical Manual of Mental Disorders, fourth edition (DSM-IV), and the mild cognitive impairment followed the Petersen / Winblad criteria. The MMSE-KC was performed using the Mini-Mental State Examination (MMSE) with the Korean version of the CERAD Assessment Packet (MMSE). The Clinical Dementia Rating Scale (CDR) was the Korean version expanded Clinical Dementia Rating scaled by Choi, Sung Hye et al. (2001).
2. 형질전환 마우스(transgenic mouse) 혈청 샘플 준비2. Preparation of transgenic mouse serum samples
알츠하이머 치매 형질전환 마우스(AD(Alzheimer's disease) transgenic mice)는 Jackson Laboratory(Bar Harbor, ME, 미국)에서 구입한 APP Swedish/PS1E9 마우스를 사용하였으며, C57BL/6J background strain의 대조군(wild type)과 교배하여 이중 반접합체(double hemizygotes)로 유지하였다. 마우스의 유전형(genotype)은 하기 표 2의 프라이머를 이용한 PCR로 확인하였다.Alzheimer's disease transgenic mice were transfected with APP Swedish / PS1E9 mice purchased from Jackson Laboratory (Bar Harbor, ME, USA) and transfected with a wild type of C57BL / 6J background strain And maintained as double hemizygotes. The genotype of the mouse was confirmed by PCR using the primers shown in Table 2 below.
human APP
본 발명에서는 16개월령 대조군(n=5)과 APP 형질전환 마우스(n=5)의 꼬리에서 채취한 혈액으로부터 분리한 혈청을 사용하였다.
In the present invention, sera isolated from the blood collected from the tail of 16 month old control group (n = 5) and APP transgenic mouse (n = 5) was used.
3. 세포 배양3. Cell culture
본 발명에서는 인간 신경모세포종 SH-SY5Y 세포(human neuroblastoma SH-SY5Y cell)와 마우스 신경성 T4 세포(mouse neuronal T4 cell)를 사용하였으며, 이 세포들은 10% FBS(fetal bovine serum)(Gibco, Grand Island, NY, USA)와 항생제(100U/㎖ 페니실린, 100㎍/㎖ 스트렙토마이신)가 첨가된 DMEM(Dulbecco's modified Eagle's medium)(Gibco, Grand Island, NY, USA)을 사용하여, SH-SY5Y 세포는 37℃, 5% CO2 조건에서, T4 세포는 33℃, 5% CO2 조건에서 배양하였다. SH-SY5Y 세포에는 인간 혈청 및 혈장을, T4 세포에는 마우스 혈청을 처리하였으며, 그 절차는 다음과 같다. 각 세포를 10㎖ PBS로 세척한 후 TrypLE Express(Gibco, Grand Island, NY, USA)로 해리시키고 10% FBS가 첨가된 DMEM을 첨가하여 트립신을 불활성화시켰다. 해리된 세포는 15㎖ 튜브로 옮기고 1000rpm에서 5분간 원심분리한 후, 상층액을 제거하고 FBS를 첨가하지 않은 DMEM으로 2회 세척하였다. 혈청 혹은 혈장은 DMEM 배지에 10%로 첨가하고 0.45um 필터(Pall Corporation, Ann Arbor, MI, USA)로 여과하여 준비하였다. SH-SY5Y 세포는 인간 혈장/혈청 첨가 배지에 2×106 세포/㎖로 부유시킨 후, 6-웰 플레이트에 웰 당 2×106 세포를 접종하여 37℃, 5% CO2 조건에서 24시간 동안 배양하였고, T4 세포는 마우스 혈청 첨가 배지에 1×106 세포/㎖로 부유시킨 후, 12-웰 플레이트에 웰 당 5×105 세포를 접종하여 33℃, 5% CO2 조건에서 24시간 동안 배양하였다. 위의 방법과 동일하게 각 세포에 10% FBS를 처리 후 배양한 세포를 레퍼런스(reference)로 사용하였다.
Human neuroblastoma SH-SY5Y cells and mouse neuronal T4 cells were used for human neuroblastoma SH-SY5Y cells, and the cells were cultured in 10% fetal bovine serum (Gibco, Grand Island, SH-SY5Y cells were cultured in DMEM (Dulbecco's modified Eagle's medium) supplemented with antibiotics (100 U / ml penicillin, 100 μg / ml streptomycin) (Gibco, Grand Island, NY, USA) , And 5% CO 2 , T4 cells were cultured at 33 ° C and 5% CO 2 . Human serum and plasma were treated with SH-SY5Y cells, and mouse serum was treated with T4 cells. The procedure is as follows. Each cell was washed with 10 ml of PBS and then dissociated with TrypLE Express (Gibco, Grand Island, NY, USA) and DMEM supplemented with 10% FBS was added to inactivate trypsin. The dissociated cells were transferred to a 15-ml tube and centrifuged at 1000 rpm for 5 minutes. The supernatant was removed and washed twice with DMEM without FBS. Serum or plasma was added to DMEM medium at 10% and filtered by 0.45um filter (Pall Corporation, Ann Arbor, MI, USA). SH-SY5Y cells for 24 hours at 2 × 10 6 cells / ㎖ was then inoculated 2 × 10 6 cells per well in six-well plates 37 ℃, 5% CO 2 rich conditions in human plasma / serum medium was added T4 cells were suspended in mouse serum-supplemented medium at 1 × 10 6 cells / ml, and 5 × 10 5 cells were inoculated on a 12-well plate at 33 ° C. under 5% CO 2 for 24 hours Lt; / RTI > In the same manner as above, cells cultured after treatment with 10% FBS was used as a reference.
4. 4. 마이크로어레이Microarray 실험 Experiment
10% 인간 혈청을 처리하여 24시간 동안 배양한 세포는 PBS로 세척한 후, RNeasy plus kit(Qiagen, Hilden, Germany)를 사용하여 총 RNA를 분리하였다. 총 RNA로부터 바이오틴(biotin)이 라벨된 cDNA를 합성한 후 Illumina Human HT-12 v4.0 Beadchip에 혼성화시켰다. Illumina Image BeadArray Reader로 스캔 후 Illumina BeadStudio 프로그램을 통하여 각 유전자의 원시 강도(intensity) 값을 추출하였다. 모든 전사체들의 발현 수준은 quantile normalization을 통해 보정하였다. DEGs(Differentially expressed genes)는 폴드 변화(fold change)≥|1.2|이고 p<0.05 기준으로 선별하였다.
Cells treated with 10% human serum and cultured for 24 hours were washed with PBS and then total RNA was isolated using RNeasy plus kit (Qiagen, Hilden, Germany). Biotin-labeled cDNA was synthesized from total RNA and then hybridized to Illumina Human HT-12 v4.0 Beadchip. Illumina Image After scanning with BeadArray Reader, we extracted the intensity value of each gene through Illumina BeadStudio program. Expression levels of all transcripts were calibrated through quantile normalization. Differentially expressed genes (DEGs) were selected on the basis of fold change ≥ 1.2 | and p <0.05.
5. 5. qRTqRT -PCR(-PCR ( QuantitativeQuantitative realreal timetime RTRT -- PCRPCR ))
마이크로어레이 검증을 위해 4㎍의 총 RNA로부터 RNA to cDNA EcoDryTM Premix(Oligo dT)(Clontech, Mountain View, CA, USA)를 사용하여 cDNA를 합성하였다. qPCR 반응액은 50ng(총 RNA량 기준) cDNA, 10㎕ 2X SYBR Green mixture(Applied Biosystems, Foster City, CA, USA) 및 1uM 프라이머를 첨가하여 총 20㎕로 구성하였다. 사용한 프라이머 염기서열은 표 3과 같다. qPCR은 ABI HT 7900을 사용하여 95℃, 10분간 변성한 후 95℃, 15초, 60℃, 1분간 40회가 반응조건으로 시행하였다. CDNA was synthesized from 4 ㎍ total RNA for microarray verification using RNA to cDNA EcoDry ™ Premix (Oligo dT) (Clontech, Mountain View, CA, USA). The qPCR reaction mixture consisted of 50 ng (based on the total amount of RNA) cDNA, 10 μl of 2X SYBR Green mixture (Applied Biosystems, Foster City, CA, USA) and 1 μM primer to give a total of 20 μl. The primer sequences used are shown in Table 3. The qPCR was denatured at 95 ° C for 10 minutes using ABI HT 7900, and then subjected to reaction at 95 ° C for 15 seconds and at 60 ° C for 40 minutes.
각 그룹별 유전자 발현정도는 각 유전자들의 발현정도를 GAPDH(마우스의 경우 Gapdh)로 보정(Ct)한 후, FBS-처리된세포에서의 유전자별 발현정도에 대한 폴드(fold) 값을 구하여 비교하였다.
The degree of gene expression for each group was calculated by comparing the expression level of each gene with GAPDH (Gapdh in mouse) (Ct), and then calculating the fold value for gene expression in FBS-treated cells .
실시예Example 1. 치매 환자의 혈청을 처리한 1. Serum of patients with dementia SHSH -- SY5YSY5Y 세포의 유전자 발현 Gene expression of cells 프로파일profile
치매환자의 혈청을 처리한 SH-SY5Y 세포주에서 차별적으로 발현하는 유전자들을 찾기 위해 Illumina Human HT-12 v4.0 Beadchip microarray을 통해 유전자들의 발현 프로파일을 조사하였다. 정상인지기능군의 혈청을 처리한 세포(NC)와 치매환자의 혈청을 처리한 세포(AD)사이에 총 22개 프로브(probe)가 발현의 차이를 보였으며(fold change≥1.2, p<0.05), 이 중 15개의 프로브는 치매환자의 혈청을 처리하였을 때 발현이 증가하는 패턴을 보였고, 7개의 프로브는 감소하는 것으로 분석되었다(도 2, 표 4). The expression profiles of genes were examined by Illumina Human HT-12 v4.0 Beadchip microarray to identify differentially expressed genes in the SH-SY5Y cell line treated with serum from patients with dementia. A total of 22 probes showed a difference in expression between the serum-treated cells of the normal cognitive function group (NC) and the serum-treated cells of the demented patient (fold change≥1.2, p <0.05 ), 15 of these probes showed a pattern of increased expression when treated with serum from demented patients and 7 probes were decreased (FIG. 2, Table 4).
실시예Example 2. 2. qRTqRT -- PCRPCR 분석 analysis
마이크로어레이 결과에 대한 확인을 위해 15개 상향 조절된 유전자와 4개 하향 조절된 유전자를 선택하여 qRT-PCR을 통해 발현 패턴을 조사하였다. 그 결과, SPC25와 FAM55C 유전자의 발현 정도가 마이크로어레이 결과와 동일하게 정상군과 치매군 간에 유의적으로 차이가 나는 것을 확인하였다(도 3).
To confirm the microarray results, 15 up-regulated genes and 4 down-regulated genes were selected and their expression patterns were examined by qRT-PCR. As a result, it was confirmed that the degree of expression of SPC25 and FAM55C genes was significantly different between the normal group and the demented group as the microarray result (FIG. 3).
실시예Example 3. 혈장-처리 신경세포에서의 혈청-반응 유전자의 검증 3. Verification of serum-reactive genes in plasma-treated neurons
정상군과 치매군의 혈청(serum)을 처리하여 나타난 SPC25와 FAM55C 유전자의 발현 차이가 혈장(plasma)을 처리하였을 시에도 재현이 되는지를 확인하기 위해 마이크로어레이에서 사용된 동일 정상군(n=5)과 치매군(n=5)의 혈장을 SH-SY5Y에 처리하여 이들 유전자의 발현패턴을 조사하였다. 그 결과, SPC25 유전자 발현은 혈청처리 결과와 동일하게 혈장 처리 시에도 치매군에서 유의적으로 증가하는 것을 확인하였다(도 4). 따라서, SPC25 유전자는 치매군의 혈청과 혈장 모두에 특이적으로 반응하는 것을 알 수 있었다.
In order to confirm whether the expression of SPC25 and FAM55C genes in normal and dementia groups was reproduced when plasma was treated, the same normal group (n = 5 ) And dementia (n = 5) were treated with SH-SY5Y to investigate the expression pattern of these genes. As a result, it was confirmed that the SPC25 gene expression was significantly increased in the dementia group as well as the plasma treatment (Fig. 4). Thus, the SPC25 gene was found to specifically react with both serum and plasma of the demented group.
실시예 4. 인간 치매군 및 경도인지장애군 혈청-처리 세포에서 SPC25 유전자의 발현 증가Example 4: Increased expression of SPC25 gene in serum-treated cells of human dementia group and mild cognitive impairment group
치매군에서 SPC25 유전자의 발현이 증가되는 것을 재현하고, 이 유전자의 발현이 경도인지장애군에서도 차이가 나는지를 확인하기 위해 정상군, 경도인지군 및 치매군 각각 10명의 혈청을 SH-SY5Y 세포에 처리하여 이 유전자의 발현정도를 비교하였다. 그 결과, SPC25 유전자 발현은 정상군에 비해 치매군과 경도인지장애군에서 각각 1.23배, 1.31배씩 유의적으로 증가함을 확인하였다(도 5, 6). 따라서 SPC25 유전자는 치매와 경도인지장애의 혈액 시료에 모두 반응하는 것을 알 수 있었다.
To confirm the expression of the SPC25 gene in the dementia group and to determine whether the expression of this gene differs in the mild cognitive impairment group, sera from 10 normal individuals, mild cognitive group and dementia group were transferred to SH-SY5Y cells And the degree of expression of this gene was compared. As a result, SPC25 gene expression was significantly increased by 1.23 times and 1.31 times in the dementia group and the hardness cognitive impairment group, respectively (FIGS. 5 and 6). Thus, the SPC25 gene was found to respond to both blood samples of dementia and mild cognitive impairment.
실시예 5. 치매동물모델 혈청-처리 세포에서 Spc25 유전자의 발현 증가Example 5: Dementia animal model Increased expression of Spc25 gene in serum-treated cells
인간 치매군의 혈액에 특이적으로 반응하는 SPC25 유전자의 발현패턴이 치매동물모델에서도 재현되는지를 확인하기 위해 치매동물모델(APP/PS1dE9 transgenic mouse)과 대조군(wild type)의 혈청을 마우스 T4 세포에 처리하여 마우스 Spc25 유전자의 발현정도를 조사하였다. 그 결과, 대조군에 비해 치매동물모델에서 Spc25 유전자가 유의적으로 높게 발현됨을 확인하였다(도 7). (APP / PS1dE9 transgenic mouse) and control (wild type) sera were injected into mouse T4 cells to determine whether the expression pattern of the SPC25 gene, which specifically reacts to the blood of the human dementia group, And the degree of expression of mouse Spc25 gene was examined. As a result, it was confirmed that the Spc25 gene was significantly higher in the demented animal model than the control group (Fig. 7).
<110> Korea Center for Disease Control and Prevention <120> Method for diagnosing dementia using blood-derived cellular gene expression pattern <130> PN16328 <160> 33 <170> KopatentIn 2.0 <210> 1 <211> 1375 <212> DNA <213> Homo sapiens <400> 1 gtttgaaatc ggaaagttgg cggggctgcg ggagctgagc ctagagtccg gctgttggct 60 agagtgggcg cggatctggt gtggggaagg cggcgggact caggcctgcc tgcgaagcat 120 tgtcctacat aatggtagag gacgaactgg cacttttcga taaaagcata aatgaatttt 180 ggaataaatt caaaagtacg gacacctcct gtcagatggc gggactaaga gatacctaca 240 aggattccat caaagcattt gcagaaaagc tgtctgtgaa attaaaggaa gaagaacgaa 300 tggttgagat gtttctggaa tatcaaaatc agatcagcag gcaaaataag ctcattcaag 360 aaaaaaagga taacttgtta aaattgattg ctgaagtaaa aggcaaaaag caggaattgg 420 aagtactgac tgcaaatatc caggatctta aggaagaata ttctaggaag aaggaaacta 480 tttctactgc taataaagcg aatgcagaga ggttgaaaag gctgcagaaa tctgcagact 540 tgtataaaga tcgacttgga ctagaaattc gaaaaattta tggtgagaaa ttgcagttta 600 ttttcactaa tattgaccct aagaatcctg agagcccatt tatgttttcc ttacatctca 660 atgaagcaag ggactatgaa gtgtcagata gtgcccctca tcttgagggc ctagcagaat 720 ttcaagagaa tgtaaggaag accaacaatt tttcagcttt tcttgccaat gttcggaaag 780 cttttactgc cacggtttat aattaacata caaatagtgt atataaaaac ggtttatttt 840 tcttctctat tacatatctc tttttttctt gtttttatta ttattatact ttaagtttta 900 gggtacatgt gcacaatgtg caggtttgtt acatatgtat acatgtgcca tattggtgtg 960 ctgcacccat taactcgtca tttcattagg tatatctcct aatgctatcc ctcccccctc 1020 ccccaaccca caacagtccc cgttgtgtga tgttcccctt cctgtgtcca tgtgttctca 1080 ttgttcaatt cccacctagg agtgagaata tgtggtgttt ggttttttgt cctttcgata 1140 gtttgctgag aatgatggtt tccagcttca tccatgttcc tacaaaggac atgaactcat 1200 ccttttttat ggctgcatag tattccatgg tgtatatgtg ccacattttc ttaatccagt 1260 ctatcattgt tggacatttg ggttggttcc aagtctttgc tattgtgaat agtgccgaaa 1320 taaacatacg tgtgcatgtg tctttaaaaa aaaaaaaaaa aaaaaaaaaa aaaaa 1375 <210> 2 <211> 3949 <212> DNA <213> Homo sapiens <400> 2 aggaagcggg gggctagcgg cctggcgctg cggcgaccga ccggggcgtc aggatccctg 60 gcccccggag agcgaagggc gggcgggtcc cggagcaaga agaattgtat agaaatgtaa 120 aaaacattta tgtgtgcttc acatgtggca tgaaaaaaat gaggacctct ggtcaaaatt 180 gcctgagttc agaatttcat gctggaagga aagttagacg taacttctaa tttctagttc 240 cagtaagcat ctcttcttgg aaaatttcca aaaaagagtc ctgctctgtt gcccaggctg 300 gagtacattg gtgtgatgat catggttcac tgcagcctcg acctcccagg ctcaagcaat 360 tctcctacct cagcctcctg agtaactggg actataggat ttctttgaag aaaaatgtgc 420 ttcttgaatc aactgcagtc tctcctctgc ataagagctc ttaagggtac tagcaggata 480 gaagcaaatg aaactgaaag ctcatctgca gctcagaaaa gcaaagacat ggaattttaa 540 agagtgaagg tagcatggtg tcggccatgg gtgaacaaga cacagccaga caatgtggac 600 caatttcttc aaactacggc ttttctgctg tctgcttgca gtgttgatgg tggtggtgct 660 ggtcatcaat gttactcagg tagagtactt ggaccatgag actgtttcag ccactttcat 720 cgacagcagt ggacagtttg tttcctccca ggtgacagga attagccgaa atccctactg 780 tggctatgat cagcagaccc tgtccagcca ggagcgcatg gaggaggact ccttgctggc 840 tgccttgcac cggcaggttc ctgatgtggg cccagtcccc tttgtgaaga gcactgaccc 900 ttcttccagc tactttgtca tcttgaactc tgctgccttc tttaaggtgg gaagccagct 960 tgaggtgctg gttcatgtgc aggattttca aagaaagccc aagaagtatg gtggagacta 1020 cctgcaggcc agaattcact ccctcaagct gcaggctggg gctgtgggca gggtggtgga 1080 ttaccagaat gggttttaca aggttttctt tactttgcta tggccaggca aagttaaagt 1140 atccgtatct ctggtccacc ccagtgaagg gatcagagtt cttcagcgct tacaggaaga 1200 taaaccagac agggtctatt tcaagagtct cttccgttca ggaagaattt ctgaaactac 1260 tgagtgcaac gtgtgtcttc ctgggaatct gcccctgtgt aactttacag acctctacac 1320 tggggagccc tggttctgct tcaaaccaaa gaagctccct tgcagcagca gaattaccca 1380 tttcaaaggt ggatacctga aaggtctcct aaccgctgca gagagtgctt tcttccagag 1440 tggtgtcaat atcaaaatgc cagtcaactc cagtggacct gattgggtaa ctgtgattcc 1500 caggagaata aaagaaacta acagtctaga actatctcaa ggctcaggaa cttttccttc 1560 tgggtattat tataaagacc agtggaggcc cagaaagttt aagatgcgtc agtttaatga 1620 ccctgacaac attacagagt gcttacaaag aaaagtggtg catttatttg gtgactcaac 1680 aatcaggcaa tggtttgaat accttactac atttgttcca gatttagtgg agtttaactt 1740 gggtagtccc aagaatgtgg gtcccttcct tgcagtggac cagaagcaca acatcctgct 1800 caaataccgc tgccatggtc cacccatccg cttcacgact gtctttagca atgagctcca 1860 ttatgtggcg aatgagctga atggcattgt gggagggaag aacacagtgg ttgccatagc 1920 tgtatggtct cacttcagca ccttcccttt ggaagtgtac atccggcggc tcaggaacat 1980 ccgtcgagca gtggttcggc tcctcgatcg aagcccaaag accgtggtgg tcatccggac 2040 ggccaacgcc caagagctgg gacctgaggt gagccttttc aacagcgact ggtacaactt 2100 tcagctggac accatccttc ggaggatgtt ctcaggggtt ggagtatatc tcgtcgatgc 2160 ctgggagatg accctggccc attatctacc gcacaagctg catccagatg aagttattgt 2220 gaagaaccag ctggacatgt tcttgtcctt tgtgtgcccc ttggaaacct agcctgtctt 2280 ggaagggact ggaggaatca tattcaatga ccttctcaat tgacctgagt tacagaaagt 2340 ggccccagtg agagatgact gcccttaata agtataaaat ttcaaaaaga tctggactta 2400 atatgatgac ttataaggag cttagaaaat gcaggttaca tttatatcta cctataggat 2460 tttatccaat gttgacttag ccatggtaga actcttaact gcatctacac actatattgc 2520 tcttgtaacc aaagatgcta atgagtgtat ttgaattagc ttctcctagg aggggtgact 2580 actttgctaa agagtatgaa aaatgttttg atggaaggga caagtttggt tggtagtaga 2640 gtgtttgtag cttatctggt aaaggaaatt gagtgcatct gcatgcatag cacaagtaat 2700 ccatcttctg gcggttaact agagaaagct tatagtcaga ggctcttgtg aatgcactga 2760 agactgctgt gtctcaggag tttctcttga tgatctacct tttctgaatt acttgaaaag 2820 gccaatgtgc ttggttcgag ttttttagtg aatatttaca atttcctgct tttatctaga 2880 aaagaagcaa aagggaaata tgaaagcagt atatataaaa tctgtgcttt ggaattgata 2940 tttgcatttg gtgattgttt tttatttgat tcagctaaat tttatgtgtt gaatacttac 3000 tctagaataa ctacttttgg aactggaagg gggaaatctg taaatggaaa tttattttta 3060 tgttctgaaa tttgagggtt taggaattga cttttgtgta aagaatgcta cggtattata 3120 aagctgtgga agttttttcc actagtttca ggtgtttttt tttttgttgt tgttgttgtt 3180 gttattttga actacttacc aaaattagaa gttaaaatct aattagaaat taataagata 3240 ctaaaattca tgacagtttt ttgtttgttt gtttgtttgt tttttggtat ttcttgattt 3300 gggcataaaa ggcacaccca ttctctcatg cttggaagaa gctgctattc ctactggcta 3360 tctaagaaga atggaattat taattttatt tgacttatta attttaaacg agtttaattt 3420 gggatcattt agtaagtact cttttctttt tgagctgtga tagattatag tctagtttaa 3480 gttgctccta agtagacaga tgaagaaact agggaggctt tagagaggaa gacagatgct 3540 tgaagtatga acaatatata cccttagaag aatgggtcaa ataatttggg tttttaattt 3600 aaaataggag ggccccagat cttactttcc tgtccttgag gaacaccttc aagtttttaa 3660 agtattttag ggggaaagaa gatttttaat tgtttctgag cctaatgagg taataaaata 3720 tattaaaata gtttaatttt aatggtcctt acgctttaca gtacctaagg atcacttgta 3780 gtatctgaca aaaatgcaga attaaagagt catggcaggg tgtggtagct caagcctgta 3840 atcccagcac tttgggaggc caggcaggag gattgcttga ggccaggagt ttgagaccag 3900 cctgggcaac atagtaagac ctcatctcca caaaaaaaaa aaaaaaaaa 3949 <210> 3 <211> 2411 <212> DNA <213> Homo sapiens <400> 3 agatatctcc ggcgccgccc gccattttga ctccagtgtc tcgtttgcag tcggcgcttt 60 aggggaactg tcttcctccg caggcgcgag gctgggtaca gggtctattg tctgtggttg 120 actccgtact ttggtctgag gccttcggga gctttcccga ggcagttagc agaagccgca 180 gcggccgccc ccgcccgtct cctctgtccc tgggcccggg agggaccaac ttggcgtcac 240 gcccctcagc ggtcgccact ctcttctctg ttgttgggtc cgcatcgtat tcccggaatc 300 agacggtgcc ccatagatgg ccagctttcc cccgagggtc aacgagaaag agatcggaaa 360 actcctcctt aacttggtag atcatactga agtggtcaga gatttaactt ttgctccaga 420 tggaagcttg atcctggtgt cagcttcaag agacaaaact ctcagagtat gggacctgaa 480 agatgatgga aacatgatga aagtattgag ggggcatcag aattgggtgt acagctgtgc 540 attctctcct gactcttcta tgctgtgttc agtcggagcc agtaaagcag ttttcctttg 600 gaatatggat aaatacacca tgatacggaa actagaagga catcaccatg atgtggtagc 660 ttgtgacttt tctcctgatg gagcattact ggctactgca tcttatgata ctcgagtata 720 tatctgggat ccacataatg gagacattct gatggaattt gggcacctgt ttcccccacc 780 tactccaata tttgctggag gagcaaatga ccggtgggta cgatctgtat cttttagcca 840 tgatggactg catgttgcaa gccttgctga tgataaaatg gtgaggttct ggagaattga 900 tgaggattat ccagtgcaag ttgcaccttt gagcaatggt ctttgctgtg ccttctctac 960 tgatggcagt gttttagctg ctgggacaca tgacggaagt gtgtattttt gggccactcc 1020 acggcaggtc cctagcctgc aacatttatg tcgcatgtca atccgaagag tgatgcccac 1080 ccaagaagtt caggagctgc cgattccttc caagcttttg gagtttctct cgtatcgtat 1140 ttagaagatt ctgccttccc tagtagtagg gactgacaga atacacttaa cacaaacctc 1200 aagctttact gacttcaatt atctgttttt aaagacgtag aagatttatt taatttgata 1260 tgttcttgta ctgcattttg atcagttgag cttttaaaat attatttata gacaatagaa 1320 gtatttctga acatatcaaa tataaatttt tttaaagatc taactgtgaa aacatacata 1380 cctgtacata tttagatata agctgctata tgttgaatgg acccttttgc ttttctgatt 1440 tttagttctg acatgtatat attgcttcag tagagccaca atatgtatct ttgctgtaaa 1500 gtgcaaggaa attttaaatt ctgggacact gagttagatg gtaaatactg acttacgaaa 1560 gttgaattgg gtgaggcggg caaatcacct gaggtcagca gtttgagact agcctggcaa 1620 acatgatgaa accctgtctc tactaaaaat acaaaaaaaa aaaaaattag ccaggcgtgg 1680 tggtgcacac ctgtagtcct agctacttgg gaggctgagg caggagaatt gcttgaaccc 1740 aggaggtgga ggttgcagta agccaagatc acaccactgc actccaacct ggacaacaga 1800 gcgagactcc atctcaaaaa aaaaaaaaaa ttgtgttgcc tcatacgaaa tgtatttggt 1860 tttgttggag agtgtcagac tgatctggaa gtgaaacaca gtttatgtac agggaaaagg 1920 attttattat ccttaggaat gtcatccaag acgtagagct tgaatgtgac gttatttaaa 1980 aacaacaaca aagaaggcag agccaggata taactagaaa aaggatgtct tttttttttt 2040 ttttactccc cctctaaaca ctgctgctgc cttaatttta gaaagcagct tactagttta 2100 cccttgtggt ataaagtatt ataaattgtt gtgaatttga agaatccgtc tactgtatta 2160 ttgctaaata ttttgtttat actaagggac aattatttta agaccatgga tttaaaaaaa 2220 aaaaaaaaaa ctctgtttct gcaggggatg atattggtga gttgccaaag aagcaataca 2280 gcatatctgc ttttgccttc tgttgtttat cttacctgca gatattaaga atgtatgcat 2340 tatgtaaaat gctcaattat atatttttgt tgagtttttt aattaaagac ttgttaaaaa 2400 aaaaaaaaaa a 2411 <210> 4 <211> 1784 <212> DNA <213> Homo sapiens <400> 4 agagccgggt gcgctttgcg acagagccgt aaaggcgcgc gggaacatgg ggctgtacgc 60 tgcggtggca ggcgtgctgg ccggcgtgga gagccgccag ggctctatca aggggctggt 120 gtactccagc aacttccaga acgtgaagca gctgtacgcg ctggtgtgcg aaacgcagcg 180 ctactccgcc gtgctggatg ccgtgatctc cagcgccggc ctcctcagtg cgaagaagct 240 gcagccgcac ctggccaagg gtgctagtgt atgagttgtt gggaaagggc tttcgagggg 300 gtgggggcca atggaaggct ctgttgggac ggcaccaggc gaggtgttga gttggctcgg 360 ctcaaggttc ttcggggtgt gagctggcat gaggacctgt tggaagtggg atccaggcct 420 ggtccagcct cccagctgcc tcgatttgtg cgtgtgaaca ctctcaagac ctgctccgtt 480 tatgtagtta tttcaagaga caaggtttct cctatcaggg tcgggcttcc aggctggatg 540 gagtgccctg gcgcgatctc ggctcaccgc aacctctgcc tcctgggttc aagcgattct 600 cctgcttcag ccttctgagc agctgggatt atgaaggggt ggcctgcccc tccacatctg 660 tgggatatct catcagcctc gatgacttac gagccctcaa ggggaagcat tttctcctgg 720 accccttgat gccggagctg ctggtgtttc ccgcccagac agatctgcat gaacacccac 780 tgtaccgggc cggacacctc attctgcagg acagggccag ctgtctccca gccatgctgc 840 tggacccccg ccaggctccc atgtcatgga tgcctgtgcc accccaggca ataaagacca 900 gtcacttggc tgctcttctg aagaaccaag ggaagatctt tgcctttgac ctggatgcca 960 ggcggctggc atccatggcc acgctgctgg cctgggctgg cgtctcctgc tgtgagctgg 1020 ctgaggagga cttcctggcg gtctccccct tagatccgcg ctatcgtgag gtccactatg 1080 tcctgctgga tccttcctgc agtggctcgg gtatgccgag cagacagctg gaggagcccg 1140 gggcagggac acctagcccg gtgcgtctgc atgccctggc agggttccag cagcgagccc 1200 tgtgccacgc gctcactttc ccttccctgc agcggctcgt ctactccatg tgctccctct 1260 gccaggagga gaatgaagac atggtacaag atgcgctgca gcagaacccg ggcgccttca 1320 ggctagctcc cgccctgcct gcccggcccc accgaggcct gagcacgttc ccgggtgccg 1380 agcactgcct ccgggcttcc cccaagacca cgcttagcgg tggcttcttc gttgctgtaa 1440 ttgaacgggt cgagatgccg acctcagcct cacaggccaa agcatcagca ccagaacgca 1500 cacccagccc agccccaaag agaaagaaga gagcaaaaag ctgcagccgg tgcttgcaca 1560 ccgccttgca catagcagag gctccgggct cactccttcc tggtgggaaa ggaagatgcc 1620 tgtcctctcc gtggaagacc ctgggccctc accgcaggca gcagtttgcg ttttgaaagg 1680 ttattgggtc ccttcctcgg gctgtgttct tgctggtgag caaaagtgtt gcctgcagaa 1740 ataaaatgca gaacgtactc tacgataaaa aaaaaaaaaa aaaa 1784 <210> 5 <211> 3130 <212> DNA <213> Homo sapiens <400> 5 gagtcagtgg cttgaaactt ttaaaagctc tgtgctccaa gttacaaaaa agcttttacg 60 aggtatcagc acttttcttt cattaggggg aaggcgtgag gaaagtacca aacagcagcg 120 gagttttaaa ctttaaatag acaggtctga gtgcctgaac ttgccttttc attttacttc 180 atcctccaag gagttcaatc acttggcgtg acttcactac ttttaagcaa aagagtggtg 240 cccaggcaac atgggtgact ggagcgcctt aggcaaactc cttgacaagg ttcaagccta 300 ctcaactgct ggagggaagg tgtggctgtc agtacttttc attttccgaa tcctgctgct 360 ggggacagcg gttgagtcag cctggggaga tgagcagtct gcctttcgtt gtaacactca 420 gcaacctggt tgtgaaaatg tctgctatga caagtctttc ccaatctctc atgtgcgctt 480 ctgggtcctg cagatcatat ttgtgtctgt acccacactc ttgtacctgg ctcatgtgtt 540 ctatgtgatg cgaaaggaag agaaactgaa caagaaagag gaagaactca aggttgccca 600 aactgatggt gtcaatgtgg acatgcactt gaagcagatt gagataaaga agttcaagta 660 cggtattgaa gagcatggta aggtgaaaat gcgagggggg ttgctgcgaa cctacatcat 720 cagtatcctc ttcaagtcta tctttgaggt ggccttcttg ctgatccagt ggtacatcta 780 tggattcagc ttgagtgctg tttacacttg caaaagagat ccctgcccac atcaggtgga 840 ctgtttcctc tctcgcccca cggagaaaac catcttcatc atcttcatgc tggtggtgtc 900 cttggtgtcc ctggccttga atatcattga actcttctat gttttcttca agggcgttaa 960 ggatcgggtt aagggaaaga gcgaccctta ccatgcgacc agtggtgcgc tgagccctgc 1020 caaagactgt gggtctcaaa aatatgctta tttcaatggc tgctcctcac caaccgctcc 1080 cctctcgcct atgtctcctc ctgggtacaa gctggttact ggcgacagaa acaattcttc 1140 ttgccgcaat tacaacaagc aagcaagtga gcaaaactgg gctaattaca gtgcagaaca 1200 aaatcgaatg gggcaggcgg gaagcaccat ctctaactcc catgcacagc cttttgattt 1260 ccccgatgat aaccagaatt ctaaaaaact agctgctgga catgaattac agccactagc 1320 cattgtggac cagcgacctt caagcagagc cagcagtcgt gccagcagca gacctcggcc 1380 tgatgacctg gagatctaga tacaggcttg aaagcatcaa gattccactc aattgtggag 1440 aagaaaaaag gtgctgtaga aagtgcacca ggtgttaatt ttgatccggt ggaggtggta 1500 ctcaacagcc ttattcatga ggcttagaaa acacaaagac attagaatac ctaggttcac 1560 tgggggtgta tggggtagat gggtggagag ggaggggata agagaggtgc atgttggtat 1620 ttaaagtagt ggattcaaag aacttagatt ataaataaga gttccattag gtgatacata 1680 gataagggct ttttctcccc gcaaacaccc ctaagaatgg ttctgtgtat gtgaatgagc 1740 gggtggtaat tgtggctaaa tatttttgtt ttaccaagaa actgaaataa ttctggccag 1800 gaataaatac ttcctgaaca tcttaggtct tttcaacaag aaaaagacag aggattgtcc 1860 ttaagtccct gctaaaacat tccattgtta aaatttgcac tttgaaggta agctttctag 1920 gcctgaccct ccaggtgtca atggacttgt gctactatat ttttttattc ttggtatcag 1980 tttaaaattc agacaaggcc cacagaataa gattttccat gcatttgcaa atacgtatat 2040 tctttttcca tccacttgca caatatcatt accatcactt tttcatcatt cctcagctac 2100 tactcacatt catttaatgg tttctgtaaa catttttaag acagttggga tgtcacttaa 2160 catttttttt ttgagctaaa gtcagggaat caagccatgc ttaatattta acaatcactt 2220 atatgtgtgt cgaagagttt gttttgtttg tcatgtattg gtacaagcag atacagtata 2280 aactcacaaa cacagatttg aaaataatgc acatatggtg ttcaaatttg aacctttctc 2340 atggattttt gtggtgtggg ccaatatggt gtttacatta tataattcct gctgtggcaa 2400 gtaaagcaca cttttttttt ctcctaaaat gtttttccct gtgtatccta ttatggatac 2460 tggttttgtt aattatgatt ctttattttc tctccttttt ttaggatata gcagtaatgc 2520 tattactgaa atgaatttcc tttttctgaa atgtaatcat tgatgcttga atgatagaat 2580 tttagtactg taaacaggct ttagtcatta atgtgagaga cttagaaaaa atgcttagag 2640 tggactatta aatgtgccta aatgaatttt gcagtaactg gtattcttgg gttttcctac 2700 ttaatacaca gtaattcaga acttgtattc tattatgagt ttagcagtct tttggagtga 2760 ccagcaactt tgatgtttgc actaagattt tatttggaat gcaagagagg ttgaaagagg 2820 attcagtagt acacatacaa ctaatttatt tgaactatat gttgaagaca tctaccagtt 2880 tctccaaatg ccttttttaa aactcatcac agaagattgg tgaaaatgct gagtatgaca 2940 cttttcttct tgcatgcatg tcagctacat aaacagtttt gtacaatgaa aattactaat 3000 ttgtttgaca ttccatgtta aactacggtc atgttcagct tcattgcatg taatgtagac 3060 ctagtccatc agatcatgtg ttctggagag tgttctttat tcaataaagt tttaatttag 3120 tataaacata 3130 <210> 6 <211> 943 <212> DNA <213> Homo sapiens <400> 6 gctacctcca actgctgagg aaccggttgc ctaaaaggag ccggcaaaag cgcctacgtg 60 gagtccagag gagcggaagt agtcagattt gactgagagc cgtaaagcgc ggctggctct 120 cgttttccgg ataacgacta cagctccgac tgtcagtgcc ggccttcctc gtgtgagggg 180 atctgccgga cccctgcaaa ttcaatttct ttcccattcc gggcccttcc ctatcgtcgc 240 ccccttcacc ttggatcatg ttcaagaaat ttgatgaaaa agaaaatgtg tccaactgca 300 tccagttgaa aacttcagtt attaagggta ttaagaatca attgatagag caatttccag 360 gtattgaacc atggcttaat caaatcatgc ctaagaaaga tcctgtcaaa atagtccgat 420 gccatgaaca tatagaaatc cttacagtaa atggagaatt actctttttt agacaaagag 480 aagggccttt ttatccaacc ctaagattac ttcacaaata tccttttatc ctgccacacc 540 agcaggttga taaaggagcc atcaaatttg tactcagtgg agcaaatatc atgtgtccag 600 gcttaacttc tcctggagct aagctttacc ctgctgcagt agataccatt gttgctatca 660 tggcagaagg aaaacagcat gctctatgtg ttggagtcat gaagatgtct gcagaagaca 720 ttgagaaagt caacaaagga attggcattg aaaatatcca ttatttaaat gatgggctgt 780 ggcatatgaa gacatataaa tgagcctcag aaggaatgca cttgggctaa atatggatat 840 tgtgctgtat ctgtgtttgt gtctgtgtgt gacagcatga agataatgcc tgtggttatg 900 ctgaataaat tcaccagatg ctaaaaaaaa aaaaaaaaaa aaa 943 <210> 7 <211> 2987 <212> DNA <213> Homo sapiens <400> 7 agcagtgttc tcttcgtccc cctcccccaa actgaggatt gggcaatacc acagaacctc 60 aggaaagggg ggaagagcga gcttcggccc cactaatggg ggagtgggcg gaggctggat 120 ttcccacctc ggctgcacct gggcactgga ggctgaagag gaaagtgaga atctgaagtt 180 ttgagacctc tgactggcca ggaatagctc ctggggcggg gggcaaggat gggaccatag 240 gcggaaagag tctcgcggtc ccccctgctt ctggcgcggg tccctgcgcc cggttgtgga 300 gcgtctcgcg cggggagggg gcggggggaa cggcagctcg cggtgttgtt cactcgcgcg 360 tcgagcacac ggtgggtccg gcggcgggtt ggcgccccag gcggcgttcc ctgtggcctg 420 gcgcctgggc cgctgccctg agcgggttcc gccccagagc ccgaccctcc tgggggctct 480 aggcggagtc ccgcgagccg agggggaccg gcgaccgctg ccgaagcatg aagaaggggt 540 aaggcgtgag cccccaagat ttcacggtga actggcacaa aggttaatct caagatgccg 600 ctagtgaaaa gaaacatcga tcctaggcac ttgtgccaca cagcactgcc tagaggcatt 660 aagaatgaac tggaatgtgt aaccaatatt tccttggcaa atataattag acaactaagt 720 agcctaagta aatatgctga agatatattt ggagaattat tcaatgaagc acatagtttt 780 tccttcagag tcaactcatt gcaagaacgt gtggaccgtt tatctgttag tgttacacag 840 cttgatccaa aggaagaaga attgtctttg caagatataa caatgaggaa agctttccga 900 agttctacaa ttcaagacca gcagcttttc gatcgcaaga ctttgcctat tccattacag 960 gagacgtacg atgtttgtga acagcctcca cctctcaata tactcactcc ttatagagat 1020 gatggtaaag aaggtctgaa gttttatacc aatccttcgt atttctttga tctatggaaa 1080 gaaaaaatgt tgcaagatac agaggataag aggaaggaaa agaggaagca gaagcagaaa 1140 aatctagatc gtcctcatga accagaaaaa gtgccaagag cacctcatga caggcggcga 1200 gaatggcaga agctggccca aggtccagag ctggctgaag atgatgctaa tctcttacat 1260 aagcatattg aagttgctaa tggcccagcc tctcattttg aaacaagacc tcagacatac 1320 gtggatcata tggatggatc ttactcactt tctgccttgc catttagtca gatgagtgag 1380 cttctgacta gagctgagga aagggtatta gtcagaccac atgaaccacc tccacctcca 1440 ccaatgcatg gagcaggaga tgcaaaaccg atacccacct gtatcagttc tgctacaggt 1500 ttgatagaaa atcgccctca gtcaccagct acaggcagaa cacctgtgtt tgtgagcccc 1560 actcccccac ctcctccacc acctcttcca tctgccttgt caacttcctc attaagagct 1620 tcaatgactt caactcctcc ccctccagta cctcccccac ctccacctcc agccactgct 1680 ttgcaagctc cagcagtacc accacctcca gctcctcttc agattgcccc tggagttctt 1740 cacccagctc ctcctccaat tgcacctcct ctagtacagc cctctccacc agtagctaga 1800 gctgccccag tatgtgagac tgtaccagtt catccactcc cacaaggtga agttcagggg 1860 ctgcctccac ccccaccacc gcctcctctg cctccacctg gcattcgacc atcatcacct 1920 gtcacagtta cagctcttgc tcatcctccc tctgggctac atccaactcc atctactgcc 1980 ccaggtcccc atgttccatt aatgcctcca tctcctccat cacaagttat acctgcttct 2040 gagccaaagc gccatccatc aaccctacct gtaatcagtg atgccaggag tgtgctactg 2100 gaagcaatac gaaaaggtat tcagctacgc aaagtagaag agcagcgtga acaggaagct 2160 aagcatgaac gcattgaaaa cgatgttgcc accatcctgt ctcgccgtat tgctgttgaa 2220 tatagtgatt cggaagatga ttcagaattt gatgaagtag attggttgga gtaagaaaaa 2280 tgcattgata aatattacaa aactgaatgc aaatgtcctt tgtggtgctt gttccttgaa 2340 aatgtttggt cattctagtg ttttgctttc ttttccttat aataaatgac ccttttcctc 2400 cataactttt gatttctaag gaaaatatta gcatacattt caaactaaat gttttacagt 2460 ggcttatctt ttttttcccc ctgaaaagac taatttggtc aaataaacca ctaagtatta 2520 agcatggaca gctgttgtta gagtagcaga ttcagttttt tgatatatct taattgtgta 2580 ctttgtgaat tttaatttaa agaaagcaac tgaaattgaa atcttgaggg cagctgtgtc 2640 tactaatgag ccttattcca tttcctgatg ttttaaaaga agaaacactg ccttgattat 2700 acgaatacac tcagaaagta catttagctt gtagtgttga attctcttaa aggaatgctt 2760 gaattttttc attattgttt tattgttttt atatacttgc cttatttgaa tgtttagcag 2820 tatccccttc ccacttatat attgtgtgat atgattttgc ttgcctatag gagttaaaaa 2880 cttttccatg tgaaatactc tgacttaaac atacatgtaa cttacataac tgttaagaat 2940 aacagtctga tttaataaat ggttcatttt aaaagttaaa aaaaaaa 2987 <210> 8 <211> 1223 <212> DNA <213> Homo sapiens <400> 8 cccccactgg ctgctctgaa aagccatctt tgcattgttc ctcatccgcc tccttgctcg 60 ccgcagccgc ctccgccgcg cgcctcctcc gccgccgcgg actccggcag ctttatcgcc 120 agagtccctg aactctcgct ttctttttaa tcccctgcat cggatcaccg gcgtgcccca 180 ccatgtcaga cgcagccgta gacaccagct ccgaaatcac caccaaggac ttaaaggaga 240 agaaggaagt tgtggaagag gcagaaaatg gaagagacgc ccctgctaac gggaatgctg 300 agaatgagga aaatggggag caggaggctg acaatgaggt agacgaagaa gaggaagaag 360 gtggggagga agaggaggag gaagaagaag gtgatggtga ggaagaggat ggagatgaag 420 atgaggaagc tgagtcagct acgggcaagc gggcagctga agatgatgag gatgacgatg 480 tcgataccaa gaagcagaag accgacgagg atgactagac agcaaaaaag gaaaagttaa 540 actaaaaaaa aaaaggccgc cgtgacctat tcaccctcca cttcccgtct cagaatctaa 600 acgtggtcac cttcgagtag agaggcccgc ccgcccaccg tgggcagtgc cacccgcaga 660 tgacacgcgc tctccaccac ccaacccaaa ccatgagaat ttgcaacagg ggaggaaaaa 720 agaaccaaaa cttccaaggc cctgcttttt ttcttaaaag tactttaaaa aggaaatttg 780 tttgtatttt ttatttacat tttatatttt tgtacatatt gttagggtca gccattttta 840 atgatctcgg atgaccaaac cagccttcgg agcgttctct gtcctacttc tgactttact 900 tgtggtgtga ccatgttcat tataatctca aaggagaaaa aaaaccttgt aaaaaaagca 960 aaaatgacaa cagaaaaaca atcttattcc gagcattcca gtaacttttt tgtgtatgta 1020 cttagctgta ctataagtag ttggtttgta tgagatggtt aaaaaggcca aagataaaag 1080 gtttcttttt ttttcctttt ttgtctatga agttgctgtt tatttttttt ggcctgtttg 1140 atgtatgtgt gaaacaatgt tgtccaacaa taaacaggaa ttttattttg ctgagttgtt 1200 ctaacaaaaa aaaaaaaaaa aaa 1223 <210> 9 <211> 3325 <212> DNA <213> Homo sapiens <400> 9 cgggtgtcag ggctatgagt gcttttaagg aaggtctcca tagaaggttc ccccagcaaa 60 gtagggaggg gtactccccg agaggagtcg aggtgccgga gcctgctgcc tcgccgacgc 120 tgggaggagc cccgtgtccc gccgcgcttg ccaagggttg gctgcgcgtg cggcgggagt 180 agaggcgcct tgcgcaccag gaagtgactg tttccccgcc gcagcaaacc aggccatccg 240 ctggcctttt agtttgccgc ctcagaaaac tccctactat gccaaactgt ccgcggggcg 300 gggaatggag gaggcaggcg gggctggaga cgggacccga cggtgactgc gcaaggtcgt 360 gtacggccca gcgtgggcct gtgccctaac tcctcccact cccttacttt ctgtccttcc 420 cgggccctgc agaccggcca agtttagtgg tagcctttcc tagtgtctcc tctttgttaa 480 cccttcctac agacacagtg ggcagaactt gcctaaagaa gaagggaatg gaagggctag 540 tggagtcttg ttggggagac aaggacctga ctgcctgtgg gctgcattcg ggacacgaca 600 cagcagtcaa cccatttgct tgtttggttt agcaaggaat agtgtctgga gccggtccag 660 ctgaaggaag ggtgagcaga gagtgcaagc aggacccttg tcggtgggtg aacattttgc 720 tccaaaaggg atccttggcc ctgcgcaggt ggatttcagt gtgttctttg gatggcaggc 780 cttaagagaa gagtcccact gcacagcctc agatacttca tctccatggt gggtctcttc 840 tccaaaccag gactgcttcc ctggtatgcc agaaatccac caggatggtc acagctcttt 900 ctgggcacag tatgtaaggg agatttcacc cgtgtgatag ccacgaaatg tcagaaagga 960 caaaaaagtc agaagaaacc aagccatctt ggaccactag atggttcctg gcaggaaagg 1020 ctggctgatg ttgtgacacc actctggagg ttgagctatg aagaacagct caaggtgaaa 1080 tttgcagctc agaagaaaat tttacaaaga ctagagtctt acatccaaat gctcaatgga 1140 gtcagtgtga caacggctgt acccaaatct gagaggctct cttgtcttct ccatcctatt 1200 ataccctctc ctgtcatcaa tggttaccga aataagtcca ccttctctgt gaaccgaggt 1260 ccagatggca atccaaagac tgtggggttc tacctgggaa cttggagaga tgggaacgtt 1320 gtctgtgtgc agtctaatca tctgaaaaac atccctgaga aacacagtca agtggcgcag 1380 tactatgaag tattccttcg acagtctcca ttggagccct gccttgtatt tcatgaaggt 1440 ggatactggc gtgagctcac agtccgcacc aatagccaag ggcacacaat ggctatcatc 1500 actttccatc cccagaaatt aagtcaggag gagctccatg ttcagaagga gattgtaaag 1560 gaatttttca tcagaggtcc tggagcagcc tgtggcttga cctcacttta cttccaggaa 1620 agtaccatga cccgttgcag ccatcagcag tctccctatc agcttctgtt tggggaaccc 1680 tacatctttg aagaacttct gagcttgaag atccgcatct ctccagatgc ctttttccag 1740 attaacacag ctggtgcaga gatgctgtat cggactgtgg gggagctgac tggagtgaac 1800 tctgacacca tccttcttga catctgctgt ggaactggtg tgattggcct ctctctggct 1860 cagcatacat ctcgggtcct tgggattgaa ttgttggagc aggcagtgga ggatgcaaga 1920 tggactgcag ccttcaatgg catcaccaac tctgaatttc atactggtca agcagagaag 1980 attttgccag ggctgctaaa gtcaaaggaa gatggacagt caattgttgc tgtggtgaac 2040 ccagcccgtg ccggactgca ttacaaggtg attcaagcca ttcgaaactt cagggccatc 2100 cacacgctag tttttgtttc ctgcaagctc catggtgaat ccactaggaa tgtcattgag 2160 ctgtgctgtc ctccagaccc tgctaagaag ctcttaggcg agccctttgt cctgcagcaa 2220 gctgtacctg tggatttgtt ccctcacacc ccacattgtg agctggtgct cctctttact 2280 cgataagcag cctcctagaa gactgcaggc tatttgttaa ggctgaagtt tcagaaactt 2340 tcaggtttgg catattgcta cattgcagac cctgggagca ttacagtgga aaccaatctt 2400 tggtttgtga ataggaagaa tctattaggc ctctggtctg aggcagattt tttttttgag 2460 atggggtctc actcttgccc aggctggagt gtcgtggcgt gatctcagct cgctgcaacc 2520 tccgcctccc gggttcaggt gattctcgtg cctcagcttc cccagtagct aggattaaag 2580 gtgcgtgcca ccatgcccgg ctaatttttg tatttttggt agagacaggg tttcaccatg 2640 ttggccaggc tggtctcaaa ctcctgacct caagtgatcc acccgcctcg gcctctcaaa 2700 gtgctgggat tataggcgtg agccaccaca ccccgccgcg gctgacttaa ccttagattt 2760 cagattccct ttcaatcatg cccgtttgct tgggtttgac cactccccac tcctggatct 2820 ggactgtttc ttcctgttgc tgtcagcctt ggttctagtt tatagtcttg tctcctccgt 2880 ttctgcttat ggtgtggaca aatgaccttt tttaagcagc tggtaataat tttacattga 2940 ctggagcctg tgcatttgct cagagatgct acaattttta gatatttcta agacttctgg 3000 attcttgagg tagttaagga ttaaaaccag aaacagtcga ggttttttaa aagcagggta 3060 agccatgaag tgaatacagg gtgactgagt gatcatcaga tgagattaat tcttttgggt 3120 tttcttggtt ttaaggcatc tcgaatgccc cttgaaaatg tagttttccc tggtggtggg 3180 cacctgtaat cccagctgct cgggaggctg aggcaggata attgcttgag cctgggaggt 3240 ggaggttgca gtgagctgag attgtgccac tgcgctccag cctgggtgac agagtgggac 3300 accatctcaa aaaaaaaaaa aaaaa 3325 <210> 10 <211> 2217 <212> DNA <213> Homo sapiens <400> 10 agataccatc aagtttctcc actataaaga tattttttcc cgttgaagtt aatcagtggg 60 gtgacatttg gagactgtgt ttcctaaaaa cctttcacct aattatttta gcatgcatgt 120 ttttggtggt tgcaaaataa attgaggctt tgttgaataa taggagatag ccaaacaaat 180 agagcaaggg tatagcattc taattataaa gacaaagtct tggaacagca aaaaatacat 240 tatgctccag gacttgcatg tagtctggta tggctggact atatagcaaa gatggaagag 300 tgactgaatg tatctccagg ttcatcaggc atgaaaacct ttggttcctc cgcggtcttc 360 tgagcggtca cgtgaacggc ttcctgcagg ctggccatgg cgcttcaagt tcccaaggct 420 ccgggcttcg cccagatgct caaggaggga gcgaaacact tttcagaatt agaagaggct 480 gtgtatagaa acatacaagc ttgcaaggag cttgcccaaa ccactcgtac agcatatgga 540 cgaaatggaa tgaaaaaaat ggttatcaac tacttggaga agttgtttgt gacaaatgat 600 gcagcgacta ttttaagaga actagaagta cagcatcctg ctgcaaaaat gactgtaatg 660 gcttctcata tgcaagagca agaagttgga gatggcacaa acattgttct ggtatttgct 720 ggagctctcc tggaattagc tgaagaactt ctgaggattg gcctgtcagt ttcagaggtc 780 atagaaggtt atgaaatagc ttgcagaaaa gctcatgaga ttcttcctaa tttggtacgt 840 tgttctgcaa aaaaccttcg agatgttgat gaagtctcat ctctacttcg tacctctgta 900 atgtgtaaac aatatggtaa tgaagtattt ctggccaagc ttattgttca ggcatgcgta 960 tctatttttc ctgattctgg ccatttcaaa gttgataaca tcagagtttg taaaattctg 1020 ggctgtggta tcacttcctc ttcagtattg catggcatgg tttttaagaa ggaaacagaa 1080 ggtgatgtac atctgtcaaa gatgcaaaaa tagcagtgta ctcttgtcct tttgatggca 1140 tgataacaga aactaaggga acagtgttga taaagactga tgaagaattg atgaatttaa 1200 gtaagggaga agaaaatctc atggatgcat aagtcaaagc tattgctgat actggtgcaa 1260 atgttgtagt aacaggtggc aaagtggcag acatggctct tcattatgca aacaaatata 1320 atatgatgtt agtgaagcta aactcaaaat gggatgtccg aagactctgt aaaacagttg 1380 gtgctacagc tcttcctaga ttgacacctc ctgtccttga agaaatggga cactgagaca 1440 gtgtttacct ctcagaagtt ggagatactc aggtggtggt ttttaagcat gaaaaggaag 1500 atggcatcat ttctaccata gtacttcggg gctctacaga caatctgatg gatgacatag 1560 aaagggcagt agatgatggt gttaatactt tcaaagttct tacaagggat aaacgtcttg 1620 tacccagagg tggagcaaca gaaattgaat tagccaaaca gatcacatca tatggagaga 1680 catgtcctgg acttgaacag tacgctatta agaagtttgc tgaggcgttt gaagctattc 1740 cccgtgcact ggcagaaata ctctggagaa aactctggag ttaaggccaa tgaagtaatc 1800 tctaaacttt atgcagtacc tcaagaagga aataaaaatg ttggattaga tactgaggct 1860 gtagtccctg ctgtaacgga catgttggaa gctggtgttc tagatactta cctgggaaaa 1920 cactggtcta tcaaactcgc tgctaatgct gcagtcactg tacttagagt gggtcaggta 1980 atcatggcaa aaccagatgg tgggcccaag cctccaagtg ggaagaaaga ctgggatgat 2040 gaccaaaatg attgaaattg gcttaatttt tactgtaggt gaaggctgta tttgtagtag 2100 tattctaaga atcgcgtgat gttttcttat tctccttaca ttaagaggta ttttgtgttt 2160 gtattcttgg ctggatgtta taataaacat attgttactg tcaaaaaaaa aaaaaaa 2217 <210> 11 <211> 2130 <212> DNA <213> Homo sapiens <400> 11 ggttaaacgg ggcccaaggc aggggtggcg ggtcagtgct gctcgggggc ttctccatcc 60 aggtccctgg agttcctggt ccctggagct ccgcacttgg cggcgcaacc tgcgtgaggc 120 agcgcgactc tggcgactgg ccggccatgc cttcccgggc tgaggactat gaagtgttgt 180 acaccattgg cacaggctcc tacggccgct gccagaagat ccggaggaag agtgatggca 240 agatattagt ttggaaagaa cttgactatg gctccatgac agaagctgag aaacagatgc 300 ttgtttctga agtgaatttg cttcgtgaac tgaaacatcc aaacatcgtt cgttactatg 360 atcggattat tgaccggacc aatacaacac tgtacattgt aatggaatat tgtgaaggag 420 gggatctggc tagtgtaatt acaaagggaa ccaaggaaag gcaatactta gatgaagagt 480 ttgttcttcg agtgatgact cagttgactc tggccctgaa ggaatgccac agacgaagtg 540 atggtggtca taccgtattg catcgggatc tgaaaccagc caatgttttc ctggatggca 600 agcaaaacgt caagcttgga gactttgggc tagctagaat attaaaccat gacacgagtt 660 ttgcaaaaac atttgttggc acaccttatt acatgtctcc tgaacaaatg aatcgcatgt 720 cctacaatga gaaatcagat atctggtcat tgggctgctt gctgtatgag ttatgtgcat 780 taatgcctcc atttacagct tttagccaga aagaactcgc tgggaaaatc agagaaggca 840 aattcaggcg aattccatac cgttactctg atgaattgaa tgaaattatt acgaggatgt 900 taaacttaaa ggattaccat cgaccttctg ttgaagaaat tcttgagaac cctttaatag 960 cagatttggt tgcagacgag caaagaagaa atcttgagag aagagggcga caattaggag 1020 agccagaaaa atcgcaggat tccagccctg tattgagtga gctgaaactg aaggaaattc 1080 agttacagga gcgagagcga gctctcaaag caagagaaga aagattggag cagaaagaac 1140 aggagctttg tgttcgtgag agactagcag aggacaaact ggctagagca gaaaatctgt 1200 tgaagaacta cagcttgcta aaggaacgga agttcctgtc tctggcaagt aatccagaac 1260 ttcttaatct tccatcctca gtaattaaga agaaagttca tttcagtggg gaaagtaaag 1320 agaacatcat gaggagtgag aattctgaga gtcagctcac atctaagtcc aagtgcaagg 1380 acctgaagaa aaggcttcac gctgcccagc tgcgggctca agccctgtca gatattgaga 1440 aaaattacca actgaaaagc agacagatcc tgggcatgcg ctagccaggt agagagacac 1500 agagctgtgt acaggatgta atattaccaa cctttaaaga ctgatattca aatgctgtag 1560 tgttgaatac ttggttccat gagccatgcc tttctgtata gtacacatga tatttcggaa 1620 ttggttttac tgttcttcag caactattgt acaaaatgtt cacatttaat ttttctttct 1680 tcttttaaga acatattata aaaagaatac tttcttggtt gggcttttaa tcctgtgtgt 1740 gattactagt aggaacatga gatgtgacat tctaaatctt gggagaaaaa ataatgttag 1800 gaaaaaaata tttatgcagg aagagtagca ctcactgaat agttttaaat gactgagtgg 1860 tatgcttaca attgtcatgt ctagatttaa attttaagtc tgagatttta aatgtttttg 1920 agcttagaaa acccagttag atgcaatttg gtcattaata ccatgacatc ttgcttataa 1980 atattccatt gctctgtagt tcaaatctgt tagctttgtg aaaattcatc actgtgatgt 2040 ttgtattctt tttttttttc tgtttaacag aatatgagct gtctgtcatt tacctacttc 2100 tttcccacta aataaaagaa ttcttcagtt 2130 <210> 12 <211> 6891 <212> DNA <213> Homo sapiens <400> 12 ggtggcctct gtggccgtcc aggctagcgg cggcccgcag gcggcgggga gaaagactct 60 ctcacctggt cttgcggctg tggccaccgc cggccagggg tgtggagggc gtgctgccgg 120 agacgtccgc cgggctctgc agttccgccg ggggtcgggc agctatggag ccgcggccca 180 cggcgccctc ctccggcgcc ccgggactgg ccggggtcgg ggagacgccg tcagccgctg 240 cgctggccgc agccagggtg gaactgcccg gcacggctgt gccctcggtg ccggaggatg 300 ctgcgcccgc gagccgggac ggcggcgggg tccgcgatga gggccccgcg gcggccgggg 360 acgggctggg cagacccttg gggcccaccc cgagccagag ccgtttccag gtggacctgg 420 tttccgagaa cgccgggcgg gccgctgctg cggcggcggc ggcggcggcg gcagcggcgg 480 cggctggtgc tggggcgggg gccaagcaga cccccgcgga cggggaagcc agcggcgaga 540 gcgagccggc taaaggcagc gaggaagcca agggccgctt ccgcgtgaac ttcgtggacc 600 cagctgcctc ctcgtcggct gaagacagcc tgtcagatgc tgccggggtc ggagtcgacg 660 ggcccaacgt gagcttccag aacggcgggg acacggtgct gagcgagggc agcagcctgc 720 actccggcgg cggcggcggc agtgggcacc accagcacta ctattatgat acccacacca 780 acacctacta cctgcgcacc ttcggccaca acaccatgga cgctgtgccc aggatcgatc 840 actaccggca cacagccgcg cagctgggcg agaagctgct ccggcctagc ctggcggagc 900 tccacgacga gctggaaaag gaaccttttg aggatggctt tgcaaatggg gaagaaagta 960 ctccaaccag agatgctgtg gtcacgtata ctgcagaaag taaaggagtc gtgaagtttg 1020 gctggatcaa gggtgtatta gtacgttgta tgttaaacat ttggggtgtg atgcttttca 1080 ttagattgtc atggattgtg ggtcaagctg gaataggtct atcagtcctt gtaataatga 1140 tggccactgt tgtgacaact atcacaggat tgtctacttc agcaatagca actaatggat 1200 ttgtaagagg aggaggagca tattatttaa tatctagaag tctagggcca gaatttggtg 1260 gtgcaattgg tctaatcttc gcctttgcca acgctgttgc agttgctatg tatgtggttg 1320 gatttgcaga aaccgtggtg gagttgctta aggaacattc catacttatg atagatgaaa 1380 tcaatgatat ccgaattatt ggagccatta cagtcgtgat tcttttaggt atctcagtag 1440 ctggaatgga gtgggaagca aaagctcaga ttgttctttt ggtgatccta cttcttgcta 1500 ttggtgattt cgtcatagga acatttatcc cactggagag caagaagcca aaagggtttt 1560 ttggttataa atctgaaata tttaatgaga actttgggcc cgattttcga gaggaagaga 1620 ctttcttttc tgtatttgcc atcttttttc ctgctgcaac tggtattctg gctggagcaa 1680 atatctcagg tgatcttgca gatcctcagt cagccatacc caaaggaaca ctcctagcca 1740 ttttaattac tacattggtt tacgtaggaa ttgcagtatc tgtaggttct tgtgttgttc 1800 gagatgccac tggaaacgtt aatgacacta tcgtaacaga gctaacaaac tgtacttctg 1860 cagcctgcaa attaaacttt gatttttcat cttgtgaaag cagtccttgt tcctatggcc 1920 taatgaacaa cttccaggta atgagtatgg tgtcaggatt tacaccacta atttctgcag 1980 gtatattttc agccactctt tcttcagcat tagcatccct agtgagtgct cccaaaatat 2040 ttcaggctct atgtaaggac aacatctacc cagctttcca gatgtttgct aaaggttatg 2100 ggaaaaataa tgaacctctt cgtggctaca tcttaacatt cttaattgca cttggattca 2160 tcttaattgc tgaactgaat gttattgcac caattatctc aaacttcttc cttgcatcat 2220 atgcattgat caatttttca gtattccatg catcacttgc aaaatctcca ggatggcgtc 2280 ctgcattcaa atactacaac atgtggatat cacttcttgg agcaattctt tgttgcatag 2340 taatgttcgt cattaactgg tgggctgcat tgctaacata tgtgatagtc cttgggctgt 2400 atatttatgt tacctacaaa aaaccagatg tgaattgggg atcctctaca caagccctga 2460 cttacctgaa tgcactgcag cattcaattc gtctttctgg agtggaagac cacgtgaaaa 2520 actttaggcc acagtgtctt gttatgacag gtgctccaaa ctcacgtcca gctttacttc 2580 atcttgttca tgatttcaca aaaaatgttg gtttgatgat ctgtggccat gtacatatgg 2640 gtcctcgaag acaagccatg aaagagatgt ccatcgatca agccaaatat cagcgatggc 2700 ttattaagaa caaaatgaag gcattttatg ctccagtaca tgcagatgac ttgagagaag 2760 gtgcacagta tttgatgcag gctgctggtc ttggtcgtat gaagccaaac acacttgtcc 2820 ttggatttaa gaaagattgg ttgcaagcag atatgaggga tgtggatatg tatataaact 2880 tatttcatga tgcttttgac atacaatatg gagtagtggt tattcgccta aaagaaggtc 2940 tggatatatc tcatcttcaa ggacaagaag aattattgtc atcacaagag aaatctcctg 3000 gcaccaagga tgtggtagta agtgtggaat atagtaaaaa gtccgattta gatacttcca 3060 aaccactcag tgaaaaacca attacacaca aagttgagga agaggatggc aagactgcaa 3120 ctcaaccact gttgaaaaaa gaatccaaag gccctattgt gcctttaaat gtagctgacc 3180 aaaagcttct tgaagctagt acacagtttc agaaaaaaca aggaaagaat actattgatg 3240 tctggtggct ttttgatgat ggaggtttga ccttattgat accttacctt ctgacgacca 3300 agaaaaaatg gaaagactgt aagatcagag tattcattgg tggaaagata aacagaatag 3360 accatgaccg gagagcgatg gctactttgc ttagcaagtt ccggatagac ttttctgata 3420 tcatggttct aggagatatc aataccaaac caaagaaaga aaatattata gcttttgagg 3480 aaatcattga gccatacaga cttcatgaag atgataaaga gcaagatatt gcagataaaa 3540 tgaaagaaga tgaaccatgg cgaataacag ataatgagct tgaactttat aagaccaaga 3600 cataccggca gatcaggtta aatgagttat taaaggaaca ttcaagcaca gctaatatta 3660 ttgtcatgag tctcccagtt gcacgaaaag gtgctgtgtc tagtgctctc tacatggcat 3720 ggttagaagc tctatctaag gacctaccac caatcctcct agttcgtggg aatcatcaga 3780 gtgtccttac cttctattca taaatgttct atacagtgga cagccctcca gaatggtact 3840 tcagtgccta gtgtagtaac tgaaatcttc aatgacacat taacatcaca atggcgaatg 3900 gtgacttttc tttcacgatt tcattaattt gaaagcacac aggaaagttg ctccattgat 3960 aacgtgtatg gagacttcgg ttttagtcaa ttccatatct caatcttaat ggtgattctt 4020 ctctgttgaa ctgaagtttg tgagagtagt tttcctttgc tacttgaata gcaataaaag 4080 cgtgttaact ttttgattga tgaaagaagt acaaaaagcc tttagccttg aggtgccttc 4140 tgaaattaac caaatttcat ccatatatcc tcttttataa acttatagaa tgtcaaactt 4200 tgccttcaac tgtttttatt tctagtctct tccactttaa aacaaaatga acactgcttg 4260 tcttcttcca ttgaccattt agtgttgagt actgtatgtg ttttgttaat tctataaagg 4320 tatctgttag atattaaagg tgagaattag ggcaggttaa tcaaaaatgg ggaaggggaa 4380 atggtaacca aaaagtaacc ccatggtaag gtttatatga gtatatgtga atatagagct 4440 aggaaaaaaa gcccccccaa ataccttttt aacccctctg attggctatt attactatat 4500 ttattattat ttattgaaac cttagggaag attgaagatt catcccatac ttctatatac 4560 catgcttaaa aatcacgtca ttctttaaac aaaaatactc aagatcattt atatttattt 4620 ggagagaaaa ctgtcctaat ttagaatttc cctcaaatct gagggacttt taagaaatgc 4680 taacagattt ttctggagga aatttagaca aaacaatgtc atttagtaga atatttcagt 4740 atttaagtgg aatttcagta tactgtacta tcctttataa gtcattaaaa taatgtttca 4800 tcaaatggtt aaatggacca ctggtttctt agagaaatgt ttttaggctt aattcattca 4860 attgtcaagt acacttagtc ttaatacact caggtttgaa cagattattc tgaatattaa 4920 aatttaatcc attcttaata ttttaaaact tttgttaaga aaaactgcca gtttgtgctt 4980 ttgaaatgtc tgttttgaca tcatagtcta gtaaaatttt gacagtgcat atgtactgtt 5040 actaaaagct ttatatgaaa ttattaatgt gaagtttttc atttataatt caaggaagga 5100 tttcctgaaa acatttcaag ggatttatgt ctacatattt gtgtgtgtgt gtgtatatat 5160 atgtaatatg catacacaga tgcatatgtg tatatataat gaaatttatg ttgctggtat 5220 tttgcatttt aaagtgatca agattcatta ggcaaacttt ggtttaagta aacatatgtt 5280 caaaatcaga ttaacagata caggtttcat agagaacaaa ggtgatcatt tgaagggcat 5340 gctgtaattt cacacaattt tccagttcaa aaatggagaa tacttcgcct aaaatactgt 5400 taagtgggtt aattgataca agtttctgtg gtggaaaatt tatgcaggtt ttcacgaatc 5460 cttttttttt tttttttttt tttttgagac ggagtcttgc tctgttgcca cgctggaatg 5520 cagtaacgtg atcttggctc actgcgacct ccacctcccc agttcaagcg attctcctgc 5580 ctcagcctcc ctagtagctg ggactacggg tgcacgccac catgcccagc taatttttgt 5640 attttgagta gagacagggt ttcaccgtgt tggctaggat ggtgtctatc tcttgacctt 5700 gtgatccacc cgcctcagcc tcccagagtg ctgggattac aggtgcgagc cactgcgcct 5760 ggctggtttt catgaatctt gatagacatc tataacgtta ttattttcag tggtgtgcag 5820 catttttgct tcatgagtat gacctaggta tagagatctg ataacttgaa ttcagaatat 5880 taagaaaatg aagtaactga ttttctaaaa aaaaaaaaaa aaaaaatttc tacattataa 5940 ctcacagcat tgttccattg caggttttgc aatgtttggg ggtaaagaca gtagaaatat 6000 tattcagtaa acaataatgt gtgaactttt aagatggata atagggcatg gactgagtgc 6060 tgctatcttg aaatgtgcac aggtacactt accttttttt tttttttttt taagtttttc 6120 ccattcagga aaacaacatt gtgatctgta ctacaggaac caaatgtcat gcgtcataca 6180 tgtgggtata aagtacataa aatatatcta actattcata atgtggggtg ggtaatactg 6240 tctgtgaaat aatgtaagaa gcttttcact taaaaaaaat gcattacttt cacttaacac 6300 tagacaccag gtcgaaaatt ttcaaggtta tagtacttat ttcaacaatt cttagagatg 6360 ctagctagtg ttgaagctaa aaatagcttt atttatgctg aattgtgatt tttttatgcc 6420 aaattttttt tagttctaat cattgatgat agcttggaaa taaataatta tgccatggca 6480 tttgacagtt cattattcct ataagaatta aattgagttt agagagaatg gtggtgttga 6540 gctgattatt aacagttact gaaatcaaat atttatttgt tacattattc catttgtatt 6600 ttaggtttcc ttttacattc tttttatatg cattctgaca ttacatattt tttaagacta 6660 tggaaataat ttaaagattt aagctctggt ggatgattat ctgctaagta agtctgaaaa 6720 tgtaatattt tgataatact gtaatatacc tgtcacacaa atgcttttct aatgttttaa 6780 ccttgagtat tgcagttgct gctttgtaca gaggttactg caataaagga agtggattca 6840 ttaaacctat ttaatgtcca aaaaaaaaaa aaaaaaaaaa aaaaaaaaaa a 6891 <210> 13 <211> 703 <212> DNA <213> Homo sapiens <400> 13 aagacgggga ttggccatcg cttccggaag ttgtgagctt tgtttcggag cgggacctcc 60 ccgagacgca ctgggggccg gatgtagaat cctgcttatc tgtgaaatgc agttaacaca 120 tcagctggac ctatttcccg aatgcagggt aacccttctg ttatttaaag atgtaaaaaa 180 tgcgggagac ttgagaagaa aggccatgga aggcaccatc gatggatcac tgataaatcc 240 tacagtgatt gttgatccat ttcagatact tgtggcagca aacaaagcag ttcacctcta 300 caaactggga aaaatgaaga caagaactct atctactgaa attattttca acctttcccc 360 aaataacaat atttcagagg ctttgaaaaa atttggtatc tcagcaaatg acacttcaat 420 tctaattgtt tacattgaag agggagaaaa acaaataaat caagaatacc taatatctca 480 agtagaaggt catcaggttt ctctgaaaaa tcttcctgaa ataatgaata ttacagaagt 540 caaaaagata tataaactct cttcacaaga agaaagtatc gggacattat tggatgctat 600 catttgtaga atgtcaacaa aagatgtttt atgaaatgtc agaaatatta acaaaaattc 660 tcagcattaa agaaaacatt gattttcctt tcctgactat aaa 703 <210> 14 <211> 2409 <212> DNA <213> Homo sapiens <400> 14 gaagtattgc gccgttggtg attacggaag aaccaggagt ttggcgtgac catggggaag 60 caaaagaaaa caaggaagta tgcgaccatg aagcgaatgc ttagtctcag agatcagagg 120 cttaaagaaa aggatagatt aaaacctaaa aagaaagaaa agaaggatcc cagcgcatta 180 aaggaaagag aagttcccca acacccttcc tgcttatttt tccaatataa tacacagctg 240 ggcccacctt accacatcct cgttgatacc aactttatca acttttccat aaaagccaaa 300 ctggacttag tgcagtcaat gatggactgt ctgtatgcca agtgtatccc atgtataacc 360 gattgtgtaa tggctgaaat tgagaaattg gggcagaagt atcgagtggc tctaaggatt 420 gccaaggatc caagatttga acgattacca tgtacacaca aaggaaccta tgcagatgac 480 tgcttagtac agagagtaac tcagcataag tgttacattg tggccacagt tgaccgggac 540 ctgaaaagaa gaatccgtaa gattcctgga gttcctatca tgtacatttc taaccataga 600 tacaacattg aacggatgcc agatgattat ggagcccctc gattctaatt cttacaagac 660 acagttcctc tgcctttctt cgaccaactt tctcttgttg ccagttcatt acacaaaatg 720 tagcgggatt tttaaggaat cagagagact gatggagttc agggagatat ttattattta 780 ggtgcaccag cccagtcaga ttaacatcca aaggactgaa ccctgaacag agttaagtta 840 ccttttaagc attttgtggg gccgcggggg ttggggggaa tctgtgcagg gggaagcata 900 ttacagaagc aagaaagaca gttattcaat taactgagac atgcattaca tcatttctta 960 cttttcaagg aaaatcatgt tttacgactt gagtttatct gtctagttac cttgcagctg 1020 cacagctaga gaaacagggt atttacaatg cctgggaaag gaggagagat aaggctcact 1080 agccacagaa aaacaggcag ttaattttta aaggactcca gctctttctc tttctcacgg 1140 ggaattggat tttcttacat gcaactgaat ttctgcttac acatttttaa atttctttta 1200 attgcttttc caatgcaata gcatgaatta ttattctgtt gacctatttg ccttactatg 1260 agctgagggt agttcaatat gctcactctt tttttttttt ttcttgagat gaagttttgc 1320 tctgtcacca ggctggagtg cagtggcgtg atctgggctc actgcaaccc ctgcctccca 1380 tccttcaagt gattctcctg cctcagcctc ccgagtagct gggattacag gtacacacca 1440 ccatgctcaa ctaatttttc ttttttgggc ggggggggtg gatattttta gtagagacaa 1500 atacttttgt atttttaata cagaaaagta tgcctcggcc tcccaaagtg ctggaattac 1560 agacatgagc cactgtgcct ggcctgctca ctttctgatg ctgctttttt gttgtttgtt 1620 tgtttatttg tttgttttga gacggagtct cgctctgtca ccaggctgga gtgcagtggc 1680 gcaatctcgg ctcattgcaa cctccgcctc ccaggttcaa gcgattctcc tgcctcagcc 1740 tgcggagtag ctgggactat aggtgcgtgc caccacgtcc agccactgat gctgttttgc 1800 cactgatgct gttttgaaat tgatattttg tctcataaaa actaggccag gcatggtggc 1860 tcattcctgt aatcccagca ctttgggagg ccaaggtggg tggatcacct gaggtcagga 1920 gttggagatg agcctggaca acatggcaaa accccacctc tactaaaaat acaaaaaaaa 1980 ttagctgggt atggtgtcac gtgcctgtaa tcccagccac tggggaggct gaggcaggag 2040 aacctcttga acccaggagg tggaggttgc agtgagctga gattgcgcca ctgcattcca 2100 gcctgggtga cagagtgaga ctgtctcaaa aaaaaaaaaa aattaatgat ggtcaaaggg 2160 tataaaatct cagacaggaa gaatatgttt tatgcttttt ttgagttctg ttgtacagtg 2220 tggtgcctat acttaataat ggggtattat acatttcaaa attgatgttc tcatcacaga 2280 aatgtatttg aagtattgca tatgttaact agcttgattt aactattcca tattgtatcc 2340 acaatttatg atatcacttt gtaacccata catttataca attataaatt gtcaatttac 2400 aataaaaaa 2409 <210> 15 <211> 1277 <212> DNA <213> Homo sapiens <400> 15 gatgtggccc gtggcctagc tcgtcaagtt gccgtggcgc ggagaactct gcaaaacaag 60 aggctgagga ttgcgttaga gataaaccag ttcacgccgg agccccgtga gggaagcgtc 120 tccgttgggt ccggccgctc tgcgggactc tgaggaaaag ctcgcaccag gtggacgcgg 180 atctgtcaac atgggtaaag gagaccccaa caagccgcgg ggcaaaatgt cctcgtacgc 240 cttcttcgtg cagacctgcc gggaagagca caagaagaaa cacccggact cttccgtcaa 300 tttcgcggaa ttctccaaga agtgttcgga gagatggaag accatgtctg caaaggagaa 360 gtcgaagttt gaagatatgg caaaaagtga caaagctcgc tatgacaggg agatgaaaaa 420 ttacgttcct cccaaaggtg ataagaaggg gaagaaaaag gaccccaatg ctcctaaaag 480 gccaccatct gccttcttcc tgttttgctc tgaacatcgc ccaaagatca aaagtgaaca 540 ccctggccta tccattgggg atactgcaaa gaaattgggt gaaatgtggt ctgagcagtc 600 agccaaagat aaacaaccat atgaacagaa agcagctaag ctaaaggaga aatatgaaaa 660 ggatattgct gcatatcgtg ccaagggcaa aagtgaagca ggaaagaagg gccctggcag 720 gccaacaggc tcaaagaaga agaacgaacc agaagatgag gaggaggagg aggaagaaga 780 agatgaagat gaggaggaag aggatgaaga tgaagaataa atggctatcc tttaatgatg 840 cgtgtggaat gtgtgtgtgt gctcaggcaa ttattttgct aagaatgtga attcaagtgc 900 agctcaatac tagcttcagt ataaaaactg tacagatttt tgtatagctg ataagattct 960 ctgtagagaa aatactttta aaaaatgcag gttgtagctt tttgatgggc tactcataca 1020 gttagatttt acagcttctg atgttgaatg ttcctaaata tttaatggtt tttttaattt 1080 ctgtgtgtat ggtagcacag caaacttgta ggaattagta tcaatagtaa attttgggtt 1140 ttttaggatg ttgcatttcg tttttttaaa aaaaattttg taataaaatt atgtatatta 1200 tttctattgt ctttgtctta atatgctaag ttaattttca ctttaaaaaa gccatttgaa 1260 gaccaaaaaa aaaaaaa 1277 <210> 16 <211> 3322 <212> DNA <213> Homo sapiens <400> 16 ggttgttcct tggcgcagtg agtgaagaac atgcagcgat tgctaatggg tttgggaagc 60 ggagactcct tcctctctct atgaccatgc cgtgatcgtg tctgcggtca ccactcgacg 120 catcctcatt tctacccgaa cccaggagcc gaacgctaga tcggggaagt gggtgccgtg 180 cgtgtgggca cagaaacacc atgaagatta ttttcccgat tctaagtaat ccagtcttca 240 ggcgcaccgt taaactcctg ctctgtttac tgtggattgg atattctcaa ggaaccacac 300 atgtattaag atttggtggt atttttgaat atgtggaatc tggcccaatg ggagctgagg 360 aacttgcatt cagatttgct gtgaacacaa ttaacagaaa cagaacattg ctacccaata 420 ctacccttac ctatgatacc cagaagataa acctttatga tagttttgaa gcatccaaga 480 aagcctgtga tcagctgtct cttggggtgg ctgccatctt cgggccttca cacagctcat 540 cagcaaacgc agtgcagtcc atctgcaatg ctctgggagt tccccacata cagacccgct 600 ggaagcacca ggtgtcagac aacaaagatt ccttctatgt cagtctctac ccagacttct 660 cttcactcag ccgtgccatt ttagacctgg tgcagttttt caagtggaaa accgtcacgg 720 ttgtgtatga tgacagcact ggtctcattc gtttgcaaga gctcatcaaa gctccatcaa 780 ggtataatct tcgactcaaa attcgtcagt tacctgctga tacaaaggat gcaaaaccct 840 tactaaaaga aatgaaaaga ggcaaggagt ttcatgtaat ctttgattgt agccatgaaa 900 tggcagcagg cattttaaaa caggcattag ctatgggaat gatgacagaa tactatcatt 960 atatctttac cactctggac ctctttgctc ttgatgttga gccctaccga tacagtggtg 1020 ttaacatgac agggttcaga atattaaata cagaaaatac ccaagtctcc tccatcattg 1080 aaaagtggtc gatggaacga ttgcaggcac ctccgaaacc cgattcaggt ttgctggatg 1140 gatttatgac gactgatgct gctctaatgt atgatgctgt gcatgtggtg tctgtggccg 1200 ttcaacagtt tccccagatg acagtcagtt ccttgcagtg taatcgacat aaaccctggc 1260 gcttcgggac ccgctttatg agtctaatta aagaggcaca ttgggaaggc ctcacaggca 1320 gaataacttt caacaaaacc aatggcttga gaacagattt tgatttggat gtgatcagtc 1380 tgaaggaaga aggtctagaa aagattggaa cgtgggatcc agccagtggc ctgaatatga 1440 cagaaagtca aaagggaaag ccagcgaaca tcacagattc cttatccaat cgttctttga 1500 ttgttaccac cattttggaa gagccttatg tcctttttaa gaagtctgac aaacctctct 1560 atggtaatga tcgatttgaa ggctattgca ttgatctcct cagagagtta tctacaatcc 1620 ttggctttac atatgaaatt agacttgtgg aagatgggaa atatggagcc caggatgatg 1680 ccaatggaca atggaatgga atggttcgtg aactaattga tcataaagct gaccttgcag 1740 ttgctccact ggctattacc tatgttcgag agaaggtcat cgacttttcc aagcccttta 1800 tgacacttgg aataagtatt ttgtaccgca agcccaatgg tacaaaccca ggcgtcttct 1860 ccttcctgaa tcctctctcc cctgatatct ggatgtatat tctgctggct tacttgggtg 1920 tcagttgtgt gctctttgtc atagccaggt ttagtcctta tgagtggtat aatccacacc 1980 cttgcaaccc tgactcagac gtggtggaaa acaattttac cttgctaaat agtttctggt 2040 ttggagttgg agctctcatg cagcaaggtt ctgagctcat gcccaaagca ctgtccacca 2100 ggatagtggg aggcatttgg tggtttttca cacttatcat catttcttcg tatactgcta 2160 acttagccgc ctttctgaca gtggaacgca tggaatcccc tattgactct gctgatgatt 2220 tagctaaaca aaccaagata gaatatggag cagtagagga tggtgcaacc atgacttttt 2280 tcaagaaatc aaaaatctcc acgtatgaca aaatgtgggc ctttatgagt agcagaaggc 2340 agtcagtgct ggtcaaaagt aatgaagaag gaatccagcg agtcctcacc tctgattatg 2400 ctttcctaat ggagtcaaca accatcgagt ttgttaccca gcggaactgt aacctgacac 2460 agattggcgg ccttatagac tctaaaggtt atggcgttgg cactcccatg ggttctccat 2520 atcgagacaa aattaccata gcaattcttc agctgcaaga ggaaggcaaa ctgcatatga 2580 tgaaggagaa atggtggagg ggcaatggtt gcccagaaga ggagagcaaa gaggccagtg 2640 ccctgggggt tcagaatatt ggtggcatct tcattgttct ggcagccggc ttggtgcttt 2700 cagtttttgt ggcagtggga gaatttttat acaaatccaa aaaaaacgct caattggaaa 2760 agaggtcctt ctgtagtgcc atggtagaag aattgaggat gtccctgaag tgccagcgtc 2820 ggttaaaaca taagccacag gccccagtta ttgtgaaaac agaagaagtt atcaacatgc 2880 acacatttaa cgacagaagg ttgccaggta aagaaaccat ggcataaagc tgggaggcca 2940 aacacccaag cacaaactgt cgtctttttc caaacaattt agccagaatg tttcctgtgg 3000 aaatatgcaa cctgtgcaaa ataaaatgag ttacctcatg ccgctgtgtc tatgaactag 3060 agactctgtg atctaagcag ttgcaatgat cagacttgat ttacaagcat catggatcaa 3120 ccaagttaca cggggttaca ctgttaatca tgggttcctc ccttcttctg agtgaatgtt 3180 aacatgcgca ttttgtggct gatttcaaat gcagtccagt gagaaattac aggttccttt 3240 tgaagctcaa ctgttgccag gagatggaat atcaatgccc aacagggcaa ccaataaaag 3300 tgtcactaag aatataaata tt 3322 <210> 17 <211> 708 <212> DNA <213> Homo sapiens <400> 17 atggtcaacc ccactgtgtt cttcgacatc gcctttgacg gctagccctt ggggtgcatc 60 tccttcaagc tgtttgcaga caagtttcca aagacagaag aaaactttca tgctccgagc 120 actggagaga aaagatttgg ttataaggct tcctgctttc acagaaatat tccagggttt 180 atgtgtcagg gtagtgactt cacacgccat aatggcactg gtggcaagtc catctacggg 240 gagaaatttg aagatgagaa cttcatccta aagcatacag gtcctggcgt cttgcccatg 300 gcaaatgctg gacccaacac aaatggttcc cagtttttca tctgcactgc caagactgag 360 tggttggatg gcaagcatgt ggtctttggc aaggtgaaag aaggcgtgaa tattgtggag 420 gccatggagc actttgggtc caggaatggc aagaccagca agaagatcat cagcattgct 480 gactgtggac aactctaata agtttgactt gtgttttatc ttaaccacca gaccatttct 540 tctgtatctc aggagagcac tcctccaccc cgtttgctca cagtatccta tcatctttgt 600 gctctcgctg cagttccctt tgggttccat gttttccttg ttcccttcca tgcctagctg 660 gattggagag ttaagtttat gattatgaaa tcaaaactaa ataaaaat 708 <210> 18 <211> 833 <212> DNA <213> Homo sapiens <400> 18 agccctccgt cacctcttca cggcgccctg ggactgcccc aaggctcccg ccgctgctcc 60 agcgcggcgc agccactgcc gccgccgccg cctctcctta gtcgccgcaa tgacgaccgc 120 gtccacctcg caggtgcgcc agaactacca ccagtactca gaggccgcca tcaaccgcca 180 gatcaacctg gagcactacg cctcctaagt ttacctgtcc ctgtcttact actttgaccg 240 cgatgatgtg gctttgaaga actttgccaa atactttctt caccaatctc atgaggagag 300 gggacatgct gagaaactga tgaagctgca gaaccaatga ggtggccgaa tcttccttca 360 ggatatcaag aaaccagact gtgatgactg ggagagcggg ctgaatgcga tggagtgtgc 420 attacatttg gaaaaaaatg tgaatcagtc actactggaa ctgcacaaac tggccactga 480 caaaaatgac ccccatttgt gtgacttgag atacattacc tgaatgagca ggtgaaagcc 540 atcaaagaat tgggtgacca cgtgaccaac ttgcgcaaga tgggagcgcc cgaatctggc 600 gtgggagaat atctctttga caagcacact ctgggagaca gtgataatga aagctaagcc 660 tcaggctaat ttccccatag ccatggggtg acttccctgg tcaccaaggc agtgcatgca 720 tgttggggtt tcctttacct tttctataag ttgtaccaaa acatccactt aagttctttg 780 atttgtacca ttccttcaaa taaagaaatt tggtacccaa aaaaaaaaga gtc 833 <210> 19 <211> 546 <212> DNA <213> Homo sapiens <400> 19 cccttccgcc atgactgtaa gtttcctggg acctctccag ccatgctgaa ccgattcggg 60 agtgagaatg acgaggagag cccttcacga gaaggggctg aagacagagc ccctcaggag 120 gctcctgccc aggaggggcc tccggacaaa tgtccggccc agttccatgg cggtgccgga 180 caccagagct cccgggggag gcagcaaggc cccgagggca cccagaacaa tcccccaggg 240 taaggggagg tgagtgggct ccccaagcaa gccaagaccc ctaaagcctc ccttggctgc 300 cccaagatcc agccactacc tgtgccccga gggcggaaag agcttcccag ctcacccacc 360 gcggtaacat cggagggcga gcggccccac acctgcccga acctaaggcc acagcaccca 420 tctggctcgc cactggcgcc cgaatgcatg ggaagggctt agggcagaac tcggaccaca 480 tccagtgcct gaggccgcct tgctagaggc ctaggggagg ggtgcactgg gctgcctcgc 540 ccacct 546 <210> 20 <211> 30 <212> DNA <213> Artificial Sequence <220> <223> primer <400> 20 cctctttgtg actatgtgga ctgatgtcgg 30 <210> 21 <211> 28 <212> DNA <213> Artificial Sequence <220> <223> primer <400> 21 gtggataacc cctcccccag cctagacc 28 <210> 22 <211> 24 <212> DNA <213> Artificial Sequence <220> <223> primer <400> 22 gactgaccac tcgaccaggt tctg 24 <210> 23 <211> 25 <212> DNA <213> Artificial Sequence <220> <223> primer <400> 23 cttgtaagtt ggattctcat atccg 25 <210> 24 <211> 24 <212> DNA <213> Artificial Sequence <220> <223> primer <400> 24 cagggctgct tttaactctg gtaa 24 <210> 25 <211> 27 <212> DNA <213> Artificial Sequence <220> <223> primer <400> 25 gtggaatcat attggaacat gtaaacc 27 <210> 26 <211> 16 <212> DNA <213> Artificial Sequence <220> <223> primer <400> 26 cccccggaga gcgaag 16 <210> 27 <211> 21 <212> DNA <213> Artificial Sequence <220> <223> primer <400> 27 cgtctaactt tccttccagc a 21 <210> 28 <211> 21 <212> DNA <213> Artificial Sequence <220> <223> primer <400> 28 gcagagaggt tgaaaaggct g 21 <210> 29 <211> 21 <212> DNA <213> Artificial Sequence <220> <223> primer <400> 29 gggcactatc tgacacttca t 21 <210> 30 <211> 21 <212> DNA <213> Artificial Sequence <220> <223> primer <400> 30 gcagtggcaa agtggagatt g 21 <210> 31 <211> 20 <212> DNA <213> Artificial Sequence <220> <223> primer <400> 31 agatggtgat gggcttcccg 20 <210> 32 <211> 20 <212> DNA <213> Artificial Sequence <220> <223> primer <400> 32 gagtcggaag agctgactgc 20 <210> 33 <211> 20 <212> DNA <213> Artificial Sequence <220> <223> primer <400> 33 cgctgatttc tgcagtcctt 20 <110> Korea Center for Disease Control and Prevention <120> Method for diagnosing dementia using blood-derived cellular gene expression pattern <130> PN16328 <160> 33 <170> Kopatentin 2.0 <210> 1 <211> 1375 <212> DNA <213> Homo sapiens <400> 1 gtttgaaatc ggaaagttgg cggggctgcg ggagctgagc ctagagtccg gctgttggct 60 agagtgggcg cggatctggt gtggggaagg cggcgggact caggcctgcc tgcgaagcat 120 tgtcctacat aatggtagag gacgaactgg cacttttcga taaaagcata aatgaatttt 180 ggaataaatt caaaagtacg gacacctcct gtcagatggc gggactaaga gatacctaca 240 aggattccat caaagcattt gcagaaaagc tgtctgtgaa attaaaggaa gaagaacgaa 300 tggttgagat gtttctggaa tatcaaaatc agatcagcag gcaaaataag ctcattcaag 360 aaaaaaagga taacttgtta aaattgattg ctgaagtaaa aggcaaaaag caggaattgg 420 aagtactgac tgcaaatatc caggatctta aggaagaata ttctaggaag aaggaaacta 480 tttctactgc taataaagcg aatgcagaga ggttgaaaag gctgcagaaa tctgcagact 540 tgtataaaga tcgacttgga ctagaaattc gaaaaattta tggtgagaaa ttgcagttta 600 ttttcactaa tattgaccct aagaatcctg agagcccatt tatgttttcc ttacatctca 660 atgaagcaag ggactatgaa gtgtcagata gtgcccctca tcttgagggc ctagcagaat 720 ttcaagagaa tgtaaggaag accaacaatt tttcagcttt tcttgccaat gttcggaaag 780 cttttactgc cacggtttat aattaacata caaatagtgt atataaaaac ggtttatttt 840 tcttctctat tacatatctc tttttttctt gtttttatta ttattatact ttaagtttta 900 gggtacatgt gcacaatgtg caggtttgtt acatatgtat acatgtgcca tattggtgtg 960 ctgcacccat taactcgtca tttcattagg tatatctcct aatgctatcc ctcccccctc 1020 ccccaaccca caacagtccc cgttgtgtga tgttcccctt cctgtgtcca tgtgttctca 1080 ttgttcaatt cccacctagg agtgagaata tgtggtgttt ggttttttgt cctttcgata 1140 gtttgctgag aatgatggtt tccagcttca tccatgttcc tacaaaggac atgaactcat 1200 ccttttttat ggctgcatag tattccatgg tgtatatgtg ccacattttc ttaatccagt 1260 ctatcattgt tggacatttg ggttggttcc aagtctttgc tattgtgaat agtgccgaaa 1320 taaacatacg tgtgcatgtg tctttaaaaa aaaaaaaaaa aaaaaaaaaaaaaaa 1375 <210> 2 <211> 3949 <212> DNA <213> Homo sapiens <400> 2 aggaagcggg gggctagcgg cctggcgctg cggcgaccga ccggggcgtc aggatccctg 60 gcccccggag agcgaagggc gggcgggtcc cggagcaaga agaattgtat agaaatgtaa 120 aaaacattta tgtgtgcttc acatgtggca tgaaaaaaat gaggacctct ggtcaaaatt 180 gcctgagttc agaatttcat gctggaagga aagttagacg taacttctaa tttctagttc 240 cagtaagcat ctcttcttgg aaaatttcca aaaaagagtc ctgctctgtt gcccaggctg 300 gagtacattg gtgtgatgat catggttcac tgcagcctcg acctcccagg ctcaagcaat 360 tctcctacct cagcctcctg agtaactggg actataggat ttctttgaag aaaaatgtgc 420 ttcttgaatc aactgcagtc tctcctctgc ataagagctc ttaagggtac tagcaggata 480 gaagcaaatg aaactgaaag ctcatctgca gctcagaaaa gcaaagacat ggaattttaa 540 agagtgaagg tagcatggtg tcggccatgg gtgaacaaga cacagccaga caatgtggac 600 caatttcttc aaactacggc ttttctgctg tctgcttgca gtgttgatgg tggtggtgct 660 ggtcatcaat gttactcagg tagagtactt ggaccatgag actgtttcag ccactttcat 720 cgacagcagt ggacagtttg tttcctccca ggtgacagga attagccgaa atccctactg 780 tggctatgat cagcagaccc tgtccagcca ggagcgcatg gaggaggact ccttgctggc 840 tgccttgcac cggcaggttc ctgatgtggg cccagtcccc tttgtgaaga gcactgaccc 900 ttcttccagc tactttgtca tcttgaactc tgctgccttc tttaaggtgg gaagccagct 960 tgaggtgctg gttcatgtgc aggattttca aagaaagccc aagaagtatg gtggagacta 1020 cctgcaggcc agaattcact ccctcaagct gcaggctggg gctgtgggca gggtggtgga 1080 ttaccagaat gggttttaca aggttttctt tactttgcta tggccaggca aagttaaagt 1140 atccgtatct ctggtccacc ccagtgaagg gatcagagtt cttcagcgct tacaggaaga 1200 taaaccagac agggtctatt tcaagagtct cttccgttca ggaagaattt ctgaaactac 1260 tgagtgcaac gtgtgtcttc ctgggaatct gcccctgtgt aactttacag acctctacac 1320 tggggagccc tggttctgct tcaaaccaaa gaagctccct tgcagcagca gaattaccca 1380 tttcaaaggt ggatacctga aaggtctcct aaccgctgca gagagtgctt tcttccagag 1440 tggtgtcaat atcaaaatgc cagtcaactc cagtggacct gattgggtaa ctgtgattcc 1500 caggagaata aaagaaacta acagtctaga actatctcaa ggctcaggaa cttttccttc 1560 tgggtattat tataaagacc agtggaggcc cagaaagttt aagatgcgtc agtttaatga 1620 ccctgacaac attacagagt gcttacaaag aaaagtggtg catttatttg gtgactcaac 1680 aatcaggcaa tggtttgaat accttactac atttgttcca gatttagtgg agtttaactt 1740 gggtagtccc aagaatgtgg gtcccttcct tgcagtggac cagaagcaca acatcctgct 1800 caaataccgc tgccatggtc cacccatccg cttcacgact gtctttagca atgagctcca 1860 ttatgtggcg aatgagctga atggcattgt gggagggaag aacacagtgg ttgccatagc 1920 tgtatggtct cacttcagca ccttcccttt ggaagtgtac atccggcggc tcaggaacat 1980 ccgtcgagca gtggttcggc tcctcgatcg aagcccaaag accgtggtgg tcatccggac 2040 ggccaacgcc caagagctgg gacctgaggt gagccttttc aacagcgact ggtacaactt 2100 tcagctggac accatccttc ggaggatgtt ctcaggggtt ggagtatatc tcgtcgatgc 2160 ctgggagatg accctggccc attatctacc gcacaagctg catccagatg aagttattgt 2220 gaagaaccag ctggacatgt tcttgtcctt tgtgtgcccc ttggaaacct agcctgtctt 2280 ggaagggact ggaggaatca tattcaatga ccttctcaat tgacctgagt tacagaaagt 2340 ggccccagtg agagatgact gcccttaata agtataaaat ttcaaaaaga tctggactta 2400 atatgatgac ttataaggag cttagaaaat gcaggttaca tttatatcta cctataggat 2460 tttatccaat gttgacttag ccatggtaga actcttaact gcatctacac actatattgc 2520 tcttgtaacc aaagatgcta atgagtgtat ttgaattagc ttctcctagg aggggtgact 2580 actttgctaa agagtatgaa aaatgttttg atggaaggga caagtttggt tggtagtaga 2640 gtgtttgtag cttatctggt aaaggaaatt gagtgcatct gcatgcatag cacaagtaat 2700 ccatcttctg gcggttaact agagaaagct tatagtcaga ggctcttgtg aatgcactga 2760 agactgctgt gtctcaggag tttctcttga tgatctacct tttctgaatt acttgaaaag 2820 gccaatgtgc ttggttcgag ttttttagtg aatatttaca atttcctgct tttatctaga 2880 aaagaagcaa aagggaaata tgaaagcagt atatataaaa tctgtgcttt ggaattgata 2940 tttgcatttg gtgattgttt tttatttgat tcagctaaat tttatgtgtt gaatacttac 3000 tctagaataa ctacttttgg aactggaagg gggaaatctg taaatggaaa tttattttta 3060 tgttctgaaa tttgagggtt taggaattga cttttgtgta aagaatgcta cggtattata 3120 aagctgtgga agttttttcc actagtttca ggtgtttttt tttttgttgt tgttgttgtt 3180 gttattttga actacttacc aaaattagaa gttaaaatct aattagaaat taataagata 3240 ctaaaattca tgacagtttt ttgtttgttt gtttgtttgt tttttggtat ttcttgattt 3300 gggcataaaa ggcacaccca ttctctcatg cttggaagaa gctgctattc ctactggcta 3360 tctaagaaga atggaattat taattttatt tgacttatta attttaaacg agtttaattt 3420 gggatcattt agtaagtact cttttctttt tgagctgtga tagattatag tctagtttaa 3480 gttgctccta agtagacaga tgaagaaact agggaggctt tagagagga gacagatgct 3540 tgaagtatga acaatatata cccttagaag aatgggtcaa ataatttggg tttttaattt 3600 aaaataggag ggccccagat cttactttcc tgtccttgag gaacaccttc aagtttttaa 3660 agtattttag ggggaaagaa gatttttaat tgtttctgag cctaatgagg taataaaata 3720 tattaaaata gtttaatttt aatggtcctt acgctttaca gtacctaagg atcacttgta 3780 gtatctgaca aaaatgcaga attaaagagt catggcaggg tgtggtagct caagcctgta 3840 atcccagcac tttgggaggc caggcaggag gattgcttga ggccaggagt ttgagaccag 3900 cctgggcaac atagtaagac ctcatctcca caaaaaaaaaaaaaaaaaa 3949 <210> 3 <211> 2411 <212> DNA <213> Homo sapiens <400> 3 agatatctcc ggcgccgccc gccattttga ctccagtgtc tcgtttgcag tcggcgcttt 60 aggggaactg tcttcctccg caggcgcgag gctgggtaca gggtctattg tctgtggttg 120 actccgtact ttggtctgag gccttcggga gctttcccga ggcagttagc agaagccgca 180 gcggccgccc ccgcccgtct cctctgtccc tgggcccggg agggaccaac ttggcgtcac 240 gcccctcagc ggtcgccact ctcttctctg ttgttgggtc cgcatcgtat tcccggaatc 300 agacggtgcc ccatagatgg ccagctttcc cccgagggtc aacgagaaag agatcggaaa 360 actcctcctt aacttggtag atcatactga agtggtcaga gatttaactt ttgctccaga 420 tggaagcttg atcctggtgt cagcttcaag agacaaaact ctcagagtat gggacctgaa 480 agatgatgga aacatgatga aagtattgag ggggcatcag aattgggtgt acagctgtgc 540 attctctcct gactcttcta tgctgtgttc agtcggagcc agtaaagcag ttttcctttg 600 gaatatggat aaatacacca tgatacggaa actagaagga catcaccatg atgtggtagc 660 ttgtgacttt tctcctgatg gagcattact ggctactgca tcttatgata ctcgagtata 720 tatctgggat ccacataatg gagacattct gatggaattt gggcacctgt ttcccccacc 780 tactccaata tttgctggag gagcaaatga ccggtgggta cgatctgtat cttttagcca 840 tgatggactg catgttgcaa gccttgctga tgataaaatg gtgaggttct ggagaattga 900 tgaggattat ccagtgcaag ttgcaccttt gagcaatggt ctttgctgtg ccttctctac 960 tgatggcagt gttttagctg ctgggacaca tgacggaagt gtgtattttt gggccactcc 1020 acggcaggtc cctagcctgc aacatttatg tcgcatgtca atccgaagag tgatgcccac 1080 ccaagaagtt caggagctgc cgattccttc caagcttttg gagtttctct cgtatcgtat 1140 ttagaagatt ctgccttccc tagtagtagg gactgacaga atacacttaa cacaaacctc 1200 aagctttact gacttcaatt atctgttttt aaagacgtag aagatttatt taatttgata 1260 tgttcttgta ctgcattttg atcagttgag cttttaaaat attatttata gacaatagaa 1320 gtatttctga acatatcaaa tataaatttt tttaaagatc taactgtgaa aacatacata 1380 cctgtacata tttagatata agctgctata tgttgaatgg acccttttgc ttttctgatt 1440 tttagttctg acatgtatat attgcttcag tagagccaca atatgtatct ttgctgtaaa 1500 gtgcaaggaa attttaaatt ctgggacact gagttagatg gtaaatactg acttacgaaa 1560 gttgaattgg gtgaggcggg caaatcacct gaggtcagca gtttgagact agcctggcaa 1620 acatgatgaa accctgtctc tactaaaaat acaaaaaaaa aaaaaattag ccaggcgtgg 1680 tggtgcacac ctgtagtcct agctacttgg gaggctgagg caggagaatt gcttgaaccc 1740 aggaggtgga ggttgcagta agccaagatc acaccactgc actccaacct ggacaacaga 1800 gcgagactcc atctcaaaaa aaaaaaaaaa ttgtgttgcc tcatacgaaa tgtatttggt 1860 tttgttggag agtgtcagac tgatctggaa gtgaaacaca gtttatgtac agggaaaagg 1920 attttattat ccttaggaat gtcatccaag acgtagagct tgaatgtgac gttatttaaa 1980 aacaacaca aagaaggcag agccaggata taactagaaa aaggatgtct tttttttttt 2040 ttttactccc cctctaaaca ctgctgctgc cttaatttta gaaagcagct tactagttta 2100 cccttgtggt ataaagtatt ataaattgtt gtgaatttga agaatccgtc tactgtatta 2160 ttgctaaata ttttgtttat actaagggac aattatttta agaccatgga tttaaaaaaa 2220 aaaaaaaaaa ctctgtttct gcaggggatg atattggtga gttgccaaag aagcaataca 2280 gcatatctgc ttttgccttc tgttgtttat cttacctgca gatattaaga atgtatgcat 2340 tatgtaaaat gctcaattat atatttttgt tgagtttttt aattaaagac ttgttaaaaa 2400 aaaaaaaaaa a 2411 <210> 4 <211> 1784 <212> DNA <213> Homo sapiens <400> 4 agagccgggt gcgctttgcg acagagccgt aaaggcgcgc gggaacatgg ggctgtacgc 60 tgcggtggca ggcgtgctgg ccggcgtgga gagccgccag ggctctatca aggggctggt 120 gtactccagc aacttccaga acgtgaagca gctgtacgcg ctggtgtgcg aaacgcagcg 180 ctactccgcc gtgctggatg ccgtgatctc cagcgccggc ctcctcagtg cgaagaagct 240 gcagccgcac ctggccaagg gtgctagtgt atgagttgtt gggaaagggc tttcgagggg 300 gtgggggcca atggaaggct ctgttgggac ggcaccaggc gaggtgttga gttggctcgg 360 ctcaaggttc ttcggggtgt gagctggcat gaggacctgt tggaagtggg atccaggcct 420 ggtccagcct cccagctgcc tcgatttgtg cgtgtgaaca ctctcaagac ctgctccgtt 480 tatgtagtta tttcaagaga caaggtttct cctatcaggg tcgggcttcc aggctggatg 540 gagtgccctg gcgcgatctc ggctcaccgc aacctctgcc tcctgggttc aagcgattct 600 cctgcttcag ccttctgagc agctgggatt atgaaggggt ggcctgcccc tccacatctg 660 tgggatatct catcagcctc gatgacttac gagccctcaa ggggaagcat tttctcctgg 720 accccttgat gccggagctg ctggtgtttc ccgcccagac agatctgcat gaacacccac 780 tgtaccgggc cggacacctc attctgcagg acagggccag ctgtctccca gccatgctgc 840 tggacccccg ccaggctccc atgtcatgga tgcctgtgcc accccaggca ataaagacca 900 gtcacttggc tgctcttctg aagaaccaag ggaagatctt tgcctttgac ctggatgcca 960 ggcggctggc atccatggcc acgctgctgg cctgggctgg cgtctcctgc tgtgagctgg 1020 ctgaggagga cttcctggcg gtctccccct tagatccgcg ctatcgtgag gtccactatg 1080 tcctgctgga tccttcctgc agtggctcgg gtatgccgag cagacagctg gaggagcccg 1140 gggcagggac acctagcccg gtgcgtctgc atgccctggc agggttccag cagcgagccc 1200 tgtgccacgc gctcactttc ccttccctgc agcggctcgt ctactccatg tgctccctct 1260 gccaggagga gaatgaagac atggtacaag atgcgctgca gcagaacccg ggcgccttca 1320 ggctagctcc cgccctgcct gcccggcccc accgaggcct gagcacgttc ccgggtgccg 1380 agcactgcct ccgggcttcc cccaagacca cgcttagcgg tggcttcttc gttgctgtaa 1440 ttgaacgggt cgagatgccg acctcagcct cacaggccaa agcatcagca ccagaacgca 1500 ccccagccc agccccaaag agaaagaaga gagcaaaaag ctgcagccgg tgcttgcaca 1560 ccgccttgca catagcagag gctccgggct cactccttcc tggtgggaaa ggaagatgcc 1620 tgtcctctcc gtggaagacc ctgggccctc accgcaggca gcagtttgcg ttttgaaagg 1680 ttattgggtc ccttcctcgg gctgtgttct tgctggtgag caaaagtgtt gcctgcagaa 1740 ataaaatgca gaacgtactc tacgataaaa aaaaaaaaaa aaaa 1784 <210> 5 <211> 3130 <212> DNA <213> Homo sapiens <400> 5 gagtcagtgg cttgaaactt ttaaaagctc tgtgctccaa gttacaaaaa agcttttacg 60 aggtatcagc acttttcttt cattaggggg aaggcgtgag gaaagtacca aacagcagcg 120 gagttttaaa ctttaaatag acaggtctga gtgcctgaac ttgccttttc attttacttc 180 atcctccaag gagttcaatc acttggcgtg acttcactac ttttaagcaa aagagtggtg 240 cccaggcaac atgggtgact ggagcgcctt aggcaaactc cttgacaagg ttcaagccta 300 ctcaactgct ggagggaagg tgtggctgtc agtacttttc attttccgaa tcctgctgct 360 ggggacagcg gttgagtcag cctggggaga tgagcagtct gcctttcgtt gtaacactca 420 gcaacctggt tgtgaaaatg tctgctatga caagtctttc ccaatctctc atgtgcgctt 480 ctgggtcctg cagatcatat ttgtgtctgt acccacactc ttgtacctgg ctcatgtgtt 540 ctatgtgatg cgaaaggaag agaaactgaa caagaaagag gaagaactca aggttgccca 600 aactgatggt gtcaatgtgg acatgcactt gaagcagatt gagataaaga agttcaagta 660 cggtattgaa gagcatggta aggtgaaaat gcgagggggg ttgctgcgaa cctacatcat 720 cagtatcctc ttcaagtcta tctttgaggt ggccttcttg ctgatccagt ggtacatcta 780 tggattcagc ttgagtgctg tttacacttg caaaagagat ccctgcccac atcaggtgga 840 ctgtttcctc tctcgcccca cggagaaaac catcttcatc atcttcatgc tggtggtgtc 900 cttggtgtcc ctggccttga atatcattga actcttctat gttttcttca agggcgttaa 960 ggatcgggtt aagggaaaga gcgaccctta ccatgcgacc agtggtgcgc tgagccctgc 1020 caaagactgt gggtctcaaa aatatgctta tttcaatggc tgctcctcac caaccgctcc 1080 cctctcgcct atgtctcctc ctgggtacaa gctggttact ggcgacagaa acaattcttc 1140 ttgccgcaat tacaacaagc aagcaagtga gcaaaactgg gctaattaca gtgcagaaca 1200 aaatcgaatg gggcaggcgg gaagcaccat ctctaactcc catgcacagc cttttgattt 1260 ccccgatgat aaccagaatt ctaaaaaact agctgctgga catgaattac agccactagc 1320 cattgtggac cagcgacctt caagcagagc cagcagtcgt gccagcagca gacctcggcc 1380 tgatgacctg gagatctaga tacaggcttg aaagcatcaa gattccactc aattgtggag 1440 aagaaaaaag gtgctgtaga aagtgcacca ggtgttaatt ttgatccggt ggaggtggta 1500 ctcaacagcc ttattcatga ggcttagaaa acacaaagac attagaatac ctaggttcac 1560 tgggggtgta tggggtagat gggtggagag ggaggggata agagaggtgc atgttggtat 1620 ttaaagtagt ggattcaaag aacttagatt ataaataaga gttccattag gtgatacata 1680 gataagggct ttttctcccc gcaaacaccc ctaagaatgg ttctgtgtat gtgaatgagc 1740 gggtggtaat tgtggctaaa tatttttgtt ttaccaagaa actgaaataa ttctggccag 1800 gaataaatac ttcctgaaca tcttaggtct tttcaacaag aaaaagacag aggattgtcc 1860 ttaagtccct gctaaaacat tccattgtta aaatttgcac tttgaaggta agctttctag 1920 gcctgaccct ccaggtgtca atggacttgt gctactatat ttttttattc ttggtatcag 1980 tttaaaattc agacaaggcc cacagaataa gattttccat gcatttgcaa atacgtatat 2040 tctttttcca tccacttgca caatatcatt accatcactt tttcatcatt cctcagctac 2100 tactcacatt catttaatgg tttctgtaaa catttttaag acagttggga tgtcacttaa 2160 catttttttt ttgagctaaa gtcagggaat caagccatgc ttaatattta acaatcactt 2220 atatgtgtgt cgaagagttt gttttgtttg tcatgtattg gtacaagcag atacagtata 2280 aactcacaaa cacagatttg aaaataatgc acatatggtg ttcaaatttg aacctttctc 2340 atggattttt gtggtgtggg ccaatatggt gtttacatta tataattcct gctgtggcaa 2400 gtaaagcaca cttttttttt ctcctaaaat gtttttccct gtgtatccta ttatggatac 2460 tggttttgtt aattatgatt ctttattttc tctccttttt ttaggatata gcagtaatgc 2520 tattactgaa atgaatttcc tttttctgaa atgtaatcat tgatgcttga atgatagaat 2580 tttagtactg taaacaggct ttagtcatta atgtgagaga cttagaaaaa atgcttagag 2640 tggactatta aatgtgccta aatgaatttt gcagtaactg gtattcttgg gttttcctac 2700 ttaatacaca gtaattcaga acttgtattc tattatgagt ttagcagtct tttggagtga 2760 ccagcaactt tgatgtttgc actaagattt tatttggaat gcaagagagg ttgaaagagg 2820 attcagtagt acacataca ctaatttatt tgaactatat gttgaagaca tctaccagtt 2880 tctccaaatg ccttttttaa aactcatcac agaagattgg tgaaaatgct gagtatgaca 2940 cttttcttct tgcatgcatg tcagctacat aaacagtttt gtacaatgaa aattactaat 3000 ttgtttgaca ttccatgtta aactacggtc atgttcagct tcattgcatg taatgtagac 3060 ctagtccatc agatcatgtg ttctggagag tgttctttat tcaataaagt tttaatttag 3120 tataaacata 3130 <210> 6 <211> 943 <212> DNA <213> Homo sapiens <400> 6 gctacctcca actgctgagg aaccggttgc ctaaaaggag ccggcaaaag cgcctacgtg 60 gagtccagag gagcggaagt agtcagattt gactgagagc cgtaaagcgc ggctggctct 120 cgttttccgg ataacgacta cagctccgac tgtcagtgcc ggccttcctc gtgtgagggg 180 atctgccgga cccctgcaaa ttcaatttct ttcccattcc gggcccttcc ctatcgtcgc 240 ccccttcacc ttggatcatg ttcaagaaat ttgatgaaaa agaaaatgtg tccaactgca 300 tccagttgaa aacttcagtt attaagggta ttaagaatca attgatagag caatttccag 360 gtattgaacc atggcttaat caaatcatgc ctaagaaaga tcctgtcaaa atagtccgat 420 gccatgaaca tatagaaatc cttacagtaa atggagaatt actctttttt agacaaagag 480 ctagccacacc agcaggttga taaaggagcc atcaaatttg tactcagtgg agcaaatatc atgtgtccag 600 gcttaacttc tcctggagct aagctttacc ctgctgcagt agataccatt gttgctatca 660 tggcagaagg aaaacagcat gctctatgtg ttggagtcat gaagatgtct gcagaagaca 720 ttgagaaagt caacaaagga attggcattg aaaatatcca ttatttaaat gatgggctgt 780 ggcatatgaa gacatataaa tgagcctcag aaggaatgca cttgggctaa atatggatat 840 tgtgctgtat ctgtgtttgt gtctgtgtgt gacagcatga agataatgcc tgtggttatg 900 ctgaataaat tcaccagatg ctaaaaaaaa aaaaaaaaaa aaa 943 <210> 7 <211> 2987 <212> DNA <213> Homo sapiens <400> 7 agcagtgttc tcttcgtccc cctcccccaa actgaggatt gggcaatacc acagaacctc 60 aggaaagggg ggaagagcga gcttcggccc cactaatggg ggagtgggcg gaggctggat 120 ttcccacctc ggctgcacct gggcactgga ggctgaagag gaaagtgaga atctgaagtt 180 ttgagacctc tgactggcca ggaatagctc ctggggcggg gggcaaggat gggaccatag 240 gcggaaagag tctcgcggtc ccccctgctt ctggcgcggg tccctgcgcc cggttgtgga 300 gcgtctcgcg cggggagggg gcggggggaa cggcagctcg cggtgttgtt cactcgcgcg 360 tcgagcacac ggtgggtccg gcggcgggtt ggcgccccag gcggcgttcc ctgtggcctg 420 gcgcctgggc cgctgccctg agcgggttcc gccccagagc ccgaccctcc tgggggctct 480 aggcggagtc ccgcgagccg agggggaccg gcgaccgctg ccgaagcatg aagaaggggt 540 aaggcgtgag cccccaagat ttcacggtga actggcacaa aggttaatct caagatgccg 600 ctagtgaaaa gaaacatcga tcctaggcac ttgtgccaca cagcactgcc tagaggcatt 660 aagaatgaac tggaatgtgt aaccaatatt tccttggcaa atataattag acaactaagt 720 agcctaagta aatatgctga agatatattt ggagaattat tcaatgaagc acatagtttt 780 tccttcagag tcaactcatt gcaagaacgt gtggaccgtt tatctgttag tgttacacag 840 cttgatccaa aggaagaaga attgtctttg caagatataa caatgaggaa agctttccga 900 agttctacaa ttcaagacca gcagcttttc gatcgcaaga ctttgcctat tccattacag 960 gagacgtacg atgtttgtga acagcctcca cctctcaata tactcactcc ttatagagat 1020 gatggtaaag aaggtctgaa gttttatacc aatccttcgt atttctttga tctatggaaa 1080 gaaaaaatgt tgcaagatac agaggataag aggaaggaaa agaggaagca gaagcagaaa 1140 aatctagatc gtcctcatga accagaaaaa gtgccaagag cacctcatga caggcggcga 1200 gaatggcaga agctggccca aggtccagag ctggctgaag atgatgctaa tctcttacat 1260 aagcatattg aagttgctaa tggcccagcc tctcattttg aaacaagacc tcagacatac 1320 gtggatcata tggatggatc ttactcactt tctgccttgc catttagtca gatgagtgag 1380 cttctgacta gagctgagga aagggtatta gtcagaccac atgaaccacc tccacctcca 1440 ccaatgcatg gagcaggaga tgcaaaaccg atacccacct gtatcagttc tgctacaggt 1500 ttgatagaaa atcgccctca gtcaccagct acaggcagaa cacctgtgtt tgtgagcccc 1560 actcccccac ctcctccacc acctcttcca tctgccttgt caacttcctc attaagagct 1620 tcaatgactt caactcctcc ccctccagta cctcccccac ctccacctcc agccactgct 1680 ttgcaagctc cagcagtacc accacctcca gctcctcttc agattgcccc tggagttctt 1740 cacccagctc ctcctccaat tgcacctcct ctagtacagc cctctccacc agtagctaga 1800 gctgccccag tatgtgagac tgtaccagtt catccactcc cacaaggtga agttcagggg 1860 ctgcctccac ccccaccacc gcctcctctg cctccacctg gcattcgacc atcatcacct 1920 gtcacagtta cagctcttgc tcatcctccc tctgggctac atccaactcc atctactgcc 1980 ccaggtcccc atgttccatt aatgcctcca tctcctccat cacaagttat acctgcttct 2040 gccccaaagc gccatccatc aaccctacct gtaatcagtg atgccaggag tgtgctactg 2100 gaagcaatac gaaaaggtat tcagctacgc aaagtagaag agcagcgtga acaggaagct 2160 aagcatgaac gcattgaaaa cgatgttgcc accatcctgt ctcgccgtat tgctgttgaa 2220 tatagtgatt cggaagatga ttcagaattt gatgaagtag attggttgga gtaagaaaaa 2280 tgcattgata aatattacaa aactgaatgc aaatgtcctt tgtggtgctt gttccttgaa 2340 aatgtttggt cattctagtg ttttgctttc ttttccttat aataaatgac ccttttcctc 2400 cataactttt gatttctaag gaaaatatta gcatacattt caaactaaat gttttacagt 2460 ggcttatctt ttttttcccc ctgaaaagac taatttggtc aaataaacca ctaagtatta 2520 agcatggaca gctgttgtta gagtagcaga ttcagttttt tgatatatct taattgtgta 2580 ctttgtgaat tttaatttaa agaaagcaac tgaaattgaa atcttgaggg cagctgtgtc 2640 tactaatgag ccttattcca tttcctgatg ttttaaaaga agaaacactg ccttgattat 2700 acgaatacac tcagaaagta catttagctt gtagtgttga attctcttaa aggaatgctt 2760 gaattttttc attattgttt tattgttttt atatacttgc cttatttgaa tgtttagcag 2820 tatccccttc ccacttatat attgtgtgat atgattttgc ttgcctatag gagttaaaaa 2880 cttttccatg tgaaatactc tgacttaaac atacatgtaa cttacataac tgttaagaat 2940 aacagtctga tttaataaat ggttcatttt aaaagttaaa aaaaaaa 2987 <210> 8 <211> 1223 <212> DNA <213> Homo sapiens <400> 8 cccccactgg ctgctctgaa aagccatctt tgcattgttc ctcatccgcc tccttgctcg 60 ccgcagccgc ctccgccgcg cgcctcctcc gccgccgcgg actccggcag ctttatcgcc 120 agagtccctg aactctcgct ttctttttaa tcccctgcat cggatcaccg gcgtgcccca 180 ccatgtcaga cgcagccgta gacaccagct ccgaaatcac caccaaggac ttaaaggaga 240 agaaggaagt tgtggaagag gcagaaaatg gaagagacgc ccctgctaac gggaatgctg 300 agaatgagga aaatggggag caggaggctg acaatgaggt agacgaagaa gaggaagaag 360 gtggggagga agaggaggag gaagaagaag gtgatggtga ggaagaggat ggagatgaag 420 atgaggaagc tgagtcagct acgggcaagc gggcagctga agatgatgag gatgacgatg 480 tcgataccaa gaagcagaag accgacgagg atgactagac agcaaaaaag gaaaagttaa 540 actaaaaaaa aaaaggccgc cgtgacctat tcaccctcca cttcccgtct cagaatctaa 600 acgtggtcac cttcgagtag agaggcccgc ccgcccaccg tgggcagtgc cacccgcaga 660 tgacacgcgc tctccaccac ccaacccaaa ccatgagaat ttgcaacagg ggaggaaaaa 720 agaaccaaaa cttccaaggc cctgcttttt ttcttaaaag tactttaaaa aggaaatttg 780 tttgtatttt ttatttacat tttatatttt tgtacatatt gttagggtca gccattttta 840 atgatctcgg atgaccaaac cagccttcgg agcgttctct gtcctacttc tgactttact 900 tgtggtgtga ccatgttcat tataatctca aaggagaaaa aaaaccttgt aaaaaaagca 960 aaaatgacaa cagaaaaaca atcttattcc gagcattcca gtaacttttt tgtgtatgta 1020 cttagctgta ctataagtag ttggtttgta tgagatggtt aaaaaggcca aagataaaag 1080 gtttcttttt ttttcctttt ttgtctatga agttgctgtt tatttttttt ggcctgtttg 1140 atgtatgtgt gaaacaatgt tgtccaacaa taaacaggaa ttttattttg ctgagttgtt 1200 ctaacaaaaa aaaaaaaaaa aaa 1223 <210> 9 <211> 3325 <212> DNA <213> Homo sapiens <400> 9 cgggtgtcag ggctatgagt gcttttaagg aaggtctcca tagaaggttc ccccagcaaa 60 gtagggaggg gtactccccg agaggagtcg aggtgccgga gcctgctgcc tcgccgacgc 120 tgggaggagc cccgtgtccc gccgcgcttg ccaagggttg gctgcgcgtg cggcgggagt 180 agaggcgcct tgcgcaccag gaagtgactg tttccccgcc gcagcaaacc aggccatccg 240 ctggcctttt agtttgccgc ctcagaaaac tccctactat gccaaactgt ccgcggggcg 300 gggaatggag gaggcaggcg gggctggaga cgggacccga cggtgactgc gcaaggtcgt 360 gtacggccca gcgtgggcct gtgccctaac tcctcccact cccttacttt ctgtccttcc 420 cgggccctgc agaccggcca agtttagtgg tagcctttcc tagtgtctcc tctttgttaa 480 cccttcctac agacacagtg ggcagaactt gcctaaagaa gaagggaatg gaagggctag 540 tggagtcttg ttggggagac aaggacctga ctgcctgtgg gctgcattcg ggacacgaca 600 cagcagtcaa cccatttgct tgtttggttt agcaaggaat agtgtctgga gccggtccag 660 ctgaaggaag ggtgagcaga gagtgcaagc aggacccttg tcggtgggtg aacattttgc 720 tccaaaaggg atccttggcc ctgcgcaggt ggatttcagt gtgttctttg gatggcaggc 780 cttaagagaa gagtcccact gcacagcctc agatacttca tctccatggt gggtctcttc 840 tccaaaccag gactgcttcc ctggtatgcc agaaatccac caggatggtc acagctcttt 900 ctgggcacag tatgtaaggg agatttcacc cgtgtgatag ccacgaaatg tcagaaagga 960 caaaaaagtc agaagaaacc aagccatctt ggaccactag atggttcctg gcaggaaagg 1020 ctggctgatg ttgtgacacc actctggagg ttgagctatg aagaacagct caaggtgaaa 1080 tttgcagctc agaagaaaat tttacaaaga ctagagtctt acatccaaat gctcaatgga 1140 gtcagtgtga caacggctgt acccaaatct gagaggctct cttgtcttct ccatcctatt 1200 ataccctctc ctgtcatcaa tggttaccga aataagtcca ccttctctgt gaaccgaggt 1260 ccagatggca atccaaagac tgtggggttc tacctgggaa cttggagaga tgggaacgtt 1320 gtctgtgtgc agtctaatca tctgaaaaac atccctgaga aacacagtca agtggcgcag 1380 tactatgaag tattccttcg acagtctcca ttggagccct gccttgtatt tcatgaaggt 1440 ggatactggc gtgagctcac agtccgcacc aatagccaag ggcacacaat ggctatcatc 1500 actttccatc cccagaaatt aagtcaggag gagctccatg ttcagaagga gattgtaaag 1560 gaatttttca tcagaggtcc tggagcagcc tgtggcttga cctcacttta cttccaggaa 1620 agtaccatga cccgttgcag ccatcagcag tctccctatc agcttctgtt tggggaaccc 1680 tacatctttg aagaacttct gagcttgaag atccgcatct ctccagatgc ctttttccag 1740 attaacacag ctggtgcaga gatgctgtat cggactgtgg gggagctgac tggagtgaac 1800 tctgacacca tccttcttga catctgctgt ggaactggtg tgattggcct ctctctggct 1860 cagcatacat ctcgggtcct tgggattgaa ttgttggagc aggcagtgga ggatgcaaga 1920 tggactgcag ccttcaatgg catcaccaac tctgaatttc atactggtca agcagagaag 1980 attttgccag ggctgctaaa gtcaaaggaa gatggacagt caattgttgc tgtggtgaac 2040 ccagcccgtg ccggactgca ttacaaggtg attcaagcca ttcgaaactt cagggccatc 2100 cacacgctag tttttgtttc ctgcaagctc catggtgaat ccactaggaa tgtcattgag 2160 ctgtgctgtc ctccagaccc tgctaagaag ctcttaggcg agccctttgt cctgcagcaa 2220 gctgtacctg tggatttgtt ccctcacacc ccacattgtg agctggtgct cctctttact 2280 cgataagcag cctcctagaa gactgcaggc tatttgttaa ggctgaagtt tcagaaactt 2340 tcaggtttgg catattgcta cattgcagac cctgggagca ttacagtgga aaccaatctt 2400 tggtttgtga ataggaagaa tctattaggc ctctggtctg aggcagattt tttttttgag 2460 atggggtctc actcttgccc aggctggagt gtcgtggcgt gatctcagct cgctgcaacc 2520 tccgcctccc gggttcaggt gattctcgtg cctcagcttc cccagtagct aggattaaag 2580 gtgcgtgcca ccatgcccgg ctaatttttg tatttttggt agagacaggg tttcaccatg 2640 ttggccaggc tggtctcaaa ctcctgacct caagtgatcc acccgcctcg gcctctcaaa 2700 gtgctgggat tataggcgtg agccaccaca ccccgccgcg gctgacttaa ccttagattt 2760 cagattccct ttcaatcatg cccgtttgct tgggtttgac cactccccac tcctggatct 2820 ggactgtttc ttcctgttgc tgtcagcctt ggttctagtt tatagtcttg tctcctccgt 2880 ttctgcttat ggtgtggaca aatgaccttt tttaagcagc tggtaataat tttacattga 2940 ctggagcctg tgcatttgct cagagatgct acaattttta gatatttcta agacttctgg 3000 attcttgagg tagttaagga ttaaaaccag aaacagtcga ggttttttaa aagcagggta 3060 agccatgaag tgaatacagg gtgactgagt gatcatcaga tgagattaat tcttttgggt 3120 tttcttggtt ttaaggcatc tcgaatgccc cttgaaaatg tagttttccc tggtggtggg 3180 cacctgtaat cccagctgct cgggaggctg aggcaggata attgcttgag cctgggaggt 3240 ggaggttgca gtgagctgag attgtgccac tgcgctccag cctgggtgac agagtgggac 3300 accatctcaa aaaaaaaaaa aaaaa 3325 <210> 10 <211> 2217 <212> DNA <213> Homo sapiens <400> 10 agataccatc aagtttctcc actataaaga tattttttcc cgttgaagtt aatcagtggg 60 gtgacatttg gagactgtgt ttcctaaaaa cctttcacct aattatttta gcatgcatgt 120 ttttggtggt tgcaaaataa attgaggctt tgttgaataa taggagatag ccaaacaaat 180 agagcaaggg tatagcattc taattataaa gacaaagtct tggaacagca aaaaatacat 240 tatgctccag gacttgcatg tagtctggta tggctggact atatagcaaa gatggaagag 300 tgactgaatg tatctccagg ttcatcaggc atgaaacct ttggttcctc cgcggtcttc 360 tgagcggtca cgtgaacggc ttcctgcagg ctggccatgg cgcttcaagt tcccaaggct 420 ccgggcttcg cccagatgct caaggaggga gcgaaacact tttcagaatt agaagaggct 480 gtgtatagaa acatacaagc ttgcaaggag cttgcccaaa ccactcgtac agcatatgga 540 cgaaatggaa tgaaaaaaat ggttatcaac tacttggaga agttgtttgt gacaaatgat 600 gcagcgacta ttttaagaga actagaagta cagcatcctg ctgcaaaaat gactgtaatg 660 gcttctcata tgcaagagca agaagttgga gatggcacaa acattgttct ggtatttgct 720 ggagctctcc tggaattagc tgaagaactt ctgaggattg gcctgtcagt ttcagaggtc 780 atagaaggtt atgaaatagc ttgcagaaaa gctcatgaga ttcttcctaa tttggtacgt 840 tgttctgcaa aaaaccttcg agatgttgat gaagtctcat ctctacttcg tacctctgta 900 atgtgtaaac aatatggtaa tgaagtattt ctggccaagc ttattgttca ggcatgcgta 960 tctatttttc ctgattctgg ccatttcaaa gttgataaca tcagagtttg taaaattctg 1020 ggctgtggta tcacttcctc ttcagtattg catggcatgg tttttaagaa ggaaacagaa 1080 ggtgatgtac atctgtcaaa gatgcaaaaa tagcagtgta ctcttgtcct tttgatggca 1140 tgataacaga aactaaggga acagtgttga taaagactga tgaagaattg atgaatttaa 1200 gtaagggaga agaaaatctc atggatgcat aagtcaaagc tattgctgat actggtgcaa 1260 atgttgtagt aacaggtggc aaagtggcag acatggctct tcattatgca aacaaatata 1320 atatgatgtt agtgaagcta aactcaaaat gggatgtccg aagactctgt aaaacagttg 1380 gtgctacagc tcttcctaga ttgacacctc ctgtccttga agaaatggga cactgagaca 1440 gtgtttacct ctcagaagtt ggagatactc aggtggtggt ttttaagcat gaaaaggaag 1500 atggcatcat ttctaccata gtacttcggg gctctacaga caatctgatg gatgacatag 1560 aaagggcagt agatgatggt gttaatactt tcaaagttct tacaagggat aaacgtcttg 1620 tacccagagg tggagcaaca gaaattgaat tagccaaaca gatcacatca tatggagaga 1680 catgtcctgg acttgaacag tacgctatta agaagtttgc tgaggcgttt gaagctattc 1740 cccgtgcact ggcagaaata ctctggagaa aactctggag ttaaggccaa tgaagtaatc 1800 tctaaacttt atgcagtacc tcaagaagga aataaaaatg ttggattaga tactgaggct 1860 gtagtccctg ctgtaacgga catgttggaa gctggtgttc tagatactta cctgggaaaa 1920 cactggtcta tcaaactcgc tgctaatgct gcagtcactg tacttagagt gggtcaggta 1980 atcatggcaa aaccagatgg tgggcccaag cctccaagtg ggaagaaaga ctgggatgat 2040 gaccaaaatg attgaaattg gcttaatttt tactgtaggt gaaggctgta tttgtagtag 2100 tattctaaga atcgcgtgat gttttcttat tctccttaca ttaagaggta ttttgtgttt 2160 gtattcttgg ctggatgtta taataaacat attgttactg tcaaaaaaaa aaaaaaa 2217 <210> 11 <211> 2130 <212> DNA <213> Homo sapiens <400> 11 ggttaaacgg ggcccaaggc aggggtggcg ggtcagtgct gctcgggggc ttctccatcc 60 aggtccctgg agttcctggt ccctggagct ccgcacttgg cggcgcaacc tgcgtgaggc 120 agcgcgactc tggcgactgg ccggccatgc cttcccgggc tgaggactat gaagtgttgt 180 acaccattgg cacaggctcc tacggccgct gccagaagat ccggaggaag agtgatggca 240 agatattagt ttggaaagaa cttgactatg gctccatgac agaagctgag aaacagatgc 300 ttgtttctga agtgaatttg cttcgtgaac tgaaacatcc aaacatcgtt cgttactatg 360 atcggattat tgaccggacc aatacaacac tgtacattgt aatggaatat tgtgaaggag 420 gggatctggc tagtgtaatt acaaagggaa ccaaggaaag gcaatactta gatgaagagt 480 ttgttcttcg agtgatgact cagttgactc tggccctgaa ggaatgccac agacgaagtg 540 atggtggtca taccgtattg catcgggatc tgaaaccagc caatgttttc ctggatggca 600 agcaaaacgt caagcttgga gactttgggc tagctagaat attaaaccat gacacgagtt 660 ttgcaaaaac atttgttggc acaccttatt acatgtctcc tgaacaaatg aatcgcatgt 720 cctacaatga gaaatcagat atctggtcat tgggctgctt gctgtatgag ttatgtgcat 780 taatgcctcc atttacagct tttagccaga aagaactcgc tgggaaaatc agagaaggca 840 aattcaggcg aattccatac cgttactctg atgaattgaa tgaaattatt acgaggatgt 900 taaacttaaa ggattaccat cgaccttctg ttgaagaaat tcttgagaac cctttaatag 960 cagatttggt tgcagacgag caaagaagaa atcttgagag aagagggcga caattaggag 1020 agccagaaaa atcgcaggat tccagccctg tattgagtga gctgaaactg aaggaaattc 1080 agttacagga gcgagagcga gctctcaaag caagagaaga aagattggag cagaaagaac 1140 aggagctttg tgttcgtgag agactagcag aggacaaact ggctagagca gaaaatctgt 1200 tgaagaacta cagcttgcta aaggaacgga agttcctgtc tctggcaagt aatccagaac 1260 ttcttaatct tccatcctca gtaattaaga agaaagttca tttcagtggg gaaagtaaag 1320 agaacatcat gaggagtgag aattctgaga gtcagctcac atctaagtcc aagtgcaagg 1380 acctgaagaa aaggcttcac gctgcccagc tgcgggctca agccctgtca gatattgaga 1440 aaaattacca actgaaaagc agacagatcc tgggcatgcg ctagccaggt agagagacac 1500 agagctgtgt acaggatgta atattaccaa cctttaaaga ctgatattca aatgctgtag 1560 tgttgaatac ttggttccat gagccatgcc tttctgtata gtacacatga tatttcggaa 1620 ttggttttac tgttcttcag caactattgt acaaaatgtt cacatttaat ttttctttct 1680 tcttttaaga acatattata aaaagaatac tttcttggtt gggcttttaa tcctgtgtgt 1740 gattactagt aggaacatga gatgtgacat tctaaatctt gggagaaaaa ataatgttag 1800 gaaaaaaata tttatgcagg aagagtagca ctcactgaat agttttaaat gactgagtgg 1860 tatgcttaca attgtcatgt ctagatttaa attttaagtc tgagatttta aatgtttttg 1920 agcttagaaa acccagttag atgcaatttg gtcattaata ccatgacatc ttgcttataa 1980 atattccatt gctctgtagt tcaaatctgt tagctttgtg aaaattcatc actgtgatgt 2040 ttgtattctt tttttttttc tgtttaacag aatatgagct gtctgtcatt tacctacttc 2100 tttcccacta aataaaagaa ttcttcagtt 2130 <210> 12 <211> 6891 <212> DNA <213> Homo sapiens <400> 12 ggtggcctct gtggccgtcc aggctagcgg cggcccgcag gcggcgggga gaaagactct 60 ctcacctggt cttgcggctg tggccaccgc cggccagggg tgtggagggc gtgctgccgg 120 agacgtccgc cgggctctgc agttccgccg ggggtcgggc agctatggag ccgcggccca 180 cggcgccctc ctccggcgcc ccgggactgg ccggggtcgg ggagacgccg tcagccgctg 240 cgctggccgc agccagggtg gaactgcccg gcacggctgt gccctcggtg ccggaggatg 300 ctgcgcccgc gagccgggac ggcggcgggg tccgcgatga gggccccgcg gcggccgggg 360 acgggctggg cagacccttg gggcccaccc cgagccagag ccgtttccag gtggacctgg 420 tttccgagaa cgccgggcgg gccgctgctg cggcggcggc ggcggcggcg gcagcggcgg 480 cggctggtgc tggggcgggg gccaagcaga cccccgcgga cggggaagcc agcggcgaga 540 gcgagccggc taaaggcagc gaggaagcca agggccgctt ccgcgtgaac ttcgtggacc 600 cagctgcctc ctcgtcggct gaagacagcc tgtcagatgc tgccggggtc ggagtcgacg 660 ggcccaacgt gagcttccag aacggcgggg acacggtgct gagcgagggc agcagcctgc 720 actccggcgg cggcggcggc agtgggcacc accagcacta ctattatgat acccacacca 780 acacctacta cctgcgcacc ttcggccaca acaccatgga cgctgtgccc aggatcgatc 840 actaccggca cacagccgcg cagctgggcg agaagctgct ccggcctagc ctggcggagc 900 tccacgacga gctggaaaag gaaccttttg aggatggctt tgcaaatggg gaagaaagta 960 ctccaaccag agatgctgtg gtcacgtata ctgcagaaag taaaggagtc gtgaagtttg 1020 gctggatcaa gggtgtatta gtacgttgta tgttaaacat ttggggtgtg atgcttttca 1080 ttagattgtc atggattgtg ggtcaagctg gaataggtct atcagtcctt gtaataatga 1140 tggccactgt tgtgacaact atcacaggat tgtctacttc agcaatagca actaatggat 1200 ttgtaagagg aggaggagca tattatttaa tatctagaag tctagggcca gaatttggtg 1260 gtgcaattgg tctaatcttc gcctttgcca acgctgttgc agttgctatg tatgtggttg 1320 gatttgcaga aaccgtggtg gagttgctta aggaacattc catacttatg atagatgaaa 1380 tcaatgatat ccgaattatt ggagccatta cagtcgtgat tcttttaggt atctcagtag 1440 ctggaatgga gtgggaagca aaagctcaga ttgttctttt ggtgatccta cttcttgcta 1500 ttggtgattt cgtcatagga acatttatcc cactggagag caagaagcca aaagggtttt 1560 ttggttataa atctgaaata tttaatgaga actttgggcc cgattttcga gaggaagaga 1620 ctttcttttc tgtatttgcc atcttttttc ctgctgcaac tggtattctg gctggagcaa 1680 atatctcagg tgatcttgca gatcctcagt cagccatacc caaaggaaca ctcctagcca 1740 ttttaattac tacattggtt tacgtaggaa ttgcagtatc tgtaggttct tgtgttgttc 1800 gagatgccac tggaaacgtt aatgacacta tcgtaacaga gctaacaaac tgtacttctg 1860 cagcctgcaa attaaacttt gatttttcat cttgtgaaag cagtccttgt tcctatggcc 1920 taatgaacaa cttccaggta atgagtatgg tgtcaggatt tacaccacta atttctgcag 1980 gtatattttc agccactctt tcttcagcat tagcatccct agtgagtgct cccaaaatat 2040 ttcaggctct atgtaaggac aacatctacc cagctttcca gatgtttgct aaaggttatg 2100 ggaaaaataa tgaacctctt cgtggctaca tcttaacatt cttaattgca cttggattca 2160 tcttaattgc tgaactgaat gttattgcac caattatctc aaacttcttc cttgcatcat 2220 atgcattgat caatttttca gtattccatg catcacttgc aaaatctcca ggatggcgtc 2280 ctgcattcaa atactacaac atgtggatat cacttcttgg agcaattctt tgttgcatag 2340 tgggctgcat atatttatgt tacctacaaa aaaccagatg tgaattgggg atcctctaca caagccctga 2460 cttacctgaa tgcactgcag cattcaattc gtctttctgg agtggaagac cacgtgaaaa 2520 actttaggcc acagtgtctt gttatgacag gtgctccaaa ctcacgtcca gctttacttc 2580 atcttgttca tgatttcaca aaaaatgttg gtttgatgat ctgtggccat gtacatatgg 2640 gtcctcgaag acaagccatg aaagagatgt ccatcgatca agccaaatat cagcgatggc 2700 ttattaagaa caaaatgaag gcattttatg ctccagtaca tgcagatgac ttgagagaag 2760 gtgcacagta tttgatgcag gctgctggtc ttggtcgtat gaagccaaac acacttgtcc 2820 ttggatttaa gaaagattgg ttgcaagcag atatgaggga tgtggatatg tatataaact 2880 tatttcatga tgcttttgac atacaatatg gagtagtggt tattcgccta aaagaaggtc 2940 tggatatatc tcatcttcaa ggacaagaag aattattgtc atcacaagag aaatctcctg 3000 gcaccaagga tgtggtagta agtgtggaat atagtaaaaa gtccgattta gatacttcca 3060 aaccactcag tgaaaaacca attacacaca aagttgagga agaggatggc aagactgcaa 3120 ctcaaccact gttgaaaaaa gaatccaaag gccctattgt gcctttaaat gtagctgacc 3180 aaaagcttct tgaagctagt acacagtttc agaaaaaaca aggaaagaat actattgatg 3240 tctggtggct ttttgatgat ggaggtttga ccttattgat accttacctt ctgacgacca 3300 agaaaaaatg gaaagactgt aagatcagag tattcattgg tggaaagata aacagaatag 3360 accatgaccg gagagcgatg gctactttgc ttagcaagtt ccggatagac ttttctgata 3420 tcatggttct aggagatatc aataccaaac caaagaaaga aaatattata gcttttgagg 3480 aaatcattga gccatacaga cttcatgaag atgataaaga gcaagatatt gcagataaaa 3540 tgaaagaaga tgaaccatgg cgaataacag ataatgagct tgaactttat aagaccaaga 3600 cataccggca gatcaggtta aatgagttat taaaggaaca ttcaagcaca gctaatatta 3660 ttgtcatgag tctcccagtt gcacgaaaag gtgctgtgtc tagtgctctc tacatggcat 3720 ggttagaagc tctatctaag gacctaccac caatcctcct agttcgtggg aatcatcaga 3780 gtgtccttac cttctattca taaatgttct atacagtgga cagccctcca gaatggtact 3840 tcagtgccta gtgtagtaac tgaaatcttc aatgacacat taacatcaca atggcgaatg 3900 gtgacttttc tttcacgatt tcattaattt gaaagcacac aggaaagttg ctccattgat 3960 aacgtgtatg gagacttcgg ttttagtcaa ttccatatct caatcttaat ggtgattctt 4020 ctctgttgaa ctgaagtttg tgagagtagt tttcctttgc tacttgaata gcaataaaag 4080 cgtgttaact ttttgattga tgaaagaagt acaaaaagcc tttagccttg aggtgccttc 4140 tgaaattaac caaatttcat ccatatatcc tcttttataa acttatagaa tgtcaaactt 4200 tgccttcaac tgtttttatt tctagtctct tccactttaa aacaaaatga acactgcttg 4260 tcttcttcca ttgaccattt agtgttgagt actgtatgtg ttttgttaat tctataaagg 4320 tatctgttag atattaaagg tgagaattag ggcaggttaa tcaaaaatgg ggaaggggaa 4380 atggtaacca aaaagtaacc ccatggtaag gtttatatga gtatatgtga atatagagct 4440 aggaaaaaaa gcccccccaa ataccttttt aacccctctg attggctatt attactatat 4500 ttattattat ttattgaaac cttagggaag attgaagatt catcccatac ttctatatac 4560 catgcttaaa aatcacgtca ttctttaaac aaaaatactc aagatcattt atatttattt 4620 ggagagaaaa ctgtcctaat ttagaatttc cctcaaatct gagggacttt taagaaatgc 4680 taacagattt ttctggagga aatttagaca aaacaatgtc atttagtaga atatttcagt 4740 atttaagtgg aatttcagta tactgtacta tcctttataa gtcattaaaa taatgtttca 4800 tcaaatggtt aaatggacca ctggtttctt agagaaatgt ttttaggctt aattcattca 4860 attgtcaagt acacttagtc ttaatacact caggtttgaa cagattattc tgaatattaa 4920 aatttaatcc attcttaata ttttaaaact tttgttaaga aaaactgcca gtttgtgctt 4980 ttgaaatgtc tgttttgaca tcatagtcta gtaaaatttt gacagtgcat atgtactgtt 5040 actaaaagct ttatatgaaa ttattaatgt gaagtttttc atttataatt caaggaagga 5100 tttcctgaaa acatttcaag ggatttatgt ctacatattt gtgtgtgtgt gtgtatatat 5160 atgtaatatg catacacaga tgcatatgtg tatatataat gaaatttatg ttgctggtat 5220 tttgcatttt aaagtgatca agattcatta ggcaaacttt ggtttaagta aacatatgtt 5280 caaaatcaga ttaacagata caggtttcat agagaacaaa ggtgatcatt tgaagggcat 5340 gctgtaattt cacacaattt tccagttcaa aaatggagaa tacttcgcct aaaatactgt 5400 taagtgggtt aattgataca agtttctgtg gtggaaaatt tatgcaggtt ttcacgaatc 5460 cttttttttt tttttttttt tttttgagac ggagtcttgc tctgttgcca cgctggaatg 5520 cagtaacgtg atcttggctc actgcgacct ccacctcccc agttcaagcg attctcctgc 5580 ctcagcctcc ctagtagctg ggactacggg tgcacgccac catgcccagc taatttttgt 5640 attttgagta gagacagggt ttcaccgtgt tggctaggat ggtgtctatc tcttgacctt 5700 gtgatccacc cgcctcagcc tcccagagtg ctgggattac aggtgcgagc cactgcgcct 5760 ggctggtttt catgaatctt gatagacatc tataacgtta ttattttcag tggtgtgcag 5820 catttttgct tcatgagtat gacctaggta tagagatctg ataacttgaa ttcagaatat 5880 taagaaaatg aagtaactga ttttctaaaa aaaaaaaaaa aaaaaatttc tacattataa 5940 ctcacagcat tgttccattg caggttttgc aatgtttggg ggtaaagaca gtagaaatat 6000 tattcagtaa acaataatgt gtgaactttt aagatggata atagggcatg gactgagtgc 6060 tgctatcttg aaatgtgcac aggtacactt accttttttt tttttttttt taagtttttc 6120 ccattcagga aaacaacatt gtgatctgta ctacaggaac caaatgtcat gcgtcataca 6180 tgtgggtata aagtacataa aatatatcta actattcata atgtggggtg ggtaatactg 6240 tctgtgaaat aatgtaagaa gcttttcact taaaaaaaat gcattacttt cacttaacac 6300 tagacaccag gtcgaaaatt ttcaaggtta tagtacttat ttcaacaatt cttagagatg 6360 ctagctagtg ttgaagctaa aaatagcttt atttatgctg aattgtgatt tttttatgcc 6420 aaattttttt tagttctaat cattgatgat agcttggaaa taaataatta tgccatggca 6480 tttgacagtt cattattcct ataagaatta aattgagttt agagagaatg gtggtgttga 6540 gctgattatt aacagttact gaaatcaaat atttatttgt tacattattc catttgtatt 6600 ttaggtttcc ttttacattc tttttatatg cattctgaca ttacatattt tttaagacta 6660 tggaaataat ttaaagattt aagctctggt ggatgattat ctgctaagta agtctgaaaa 6720 tgtaatattt tgataatact gtaatatacc tgtcacacaa atgcttttct aatgttttaa 6780 ccttgagtat tgcagttgct gctttgtaca gaggttactg caataaagga agtggattca 6840 ttaaacctat ttaatgtcca aaaaaaaaaa aaaaaaaaaa aaaaaaaaaa a 6891 <210> 13 <211> 703 <212> DNA <213> Homo sapiens <400> 13 aagacgggga ttggccatcg cttccggaag ttgtgagctt tgtttcggag cgggacctcc 60 ccgagacgca ctgggggccg gatgtagaat cctgcttatc tgtgaaatgc agttaacaca 120 tcagctggac ctatttcccg aatgcagggt aacccttctg ttatttaaag atgtaaaaaa 180 tgcgggagac ttgagaagaa aggccatgga aggcaccatc gatggatcac tgataaatcc 240 tacagtgatt gttgatccat ttcagatact tgtggcagca aacaaagcag ttcacctcta 300 caaactggga aaaatgaaga caagaactct atctactgaa attattttca acctttcccc 360 acattacaat 420 tctaattgtt tacattgaag agggagaaaa acaaataaat caagaatacc taatatctca 480 agtagaaggt catcaggttt ctctgaaaaa tcttcctgaa ataatgaata ttacagaagt 540 caaaaagata tataaactct cttcacaaga agaaagtatc gggacattat tggatgctat 600 catttgtaga atgtcaacaa aagatgtttt atgaaatgtc agaaatatta acaaaaattc 660 tcagcattaa agaaaacatt gattttcctt tcctgactat aaa 703 <210> 14 <211> 2409 <212> DNA <213> Homo sapiens <400> 14 gaagtattgc gccgttggtg attacggaag aaccaggagt ttggcgtgac catggggaag 60 caaaagaaaa caaggaagta tgcgaccatg aagcgaatgc ttagtctcag agatcagagg 120 cttaaagaaa aggatagatt aaaacctaaa aagaaagaaa agaaggatcc cagcgcatta 180 aaggaaagag aagttcccca acacccttcc tgcttatttt tccaatataa tacacagctg 240 ggcccacctt accacatcct cgttgatacc aactttatca acttttccat aaaagccaaa 300 ctggacttag tgcagtcaat gatggactgt ctgtatgcca agtgtatccc atgtataacc 360 gattgtgtaa tggctgaaat tgagaaattg gggcagaagt atcgagtggc tctaaggatt 420 gccaaggatc caagatttga acgattacca tgtacacaca aaggaaccta tgcagatgac 480 tgcttagtac agagagtaac tcagcataag tgttacattg tggccacagt tgaccgggac 540 ctgaaaagaa gaatccgtaa gattcctgga gttcctatca tgtacatttc taaccataga 600 tacaacattg aacggatgcc agatgattat ggagcccctc gattctaatt cttacaagac 660 acagttcctc tgcctttctt cgaccaactt tctcttgttg ccagttcatt acacaaaatg 720 tagcgggatt tttaaggaat cagagagact gatggagttc agggagatat ttattattta 780 ggtgcaccag cccagtcaga ttaacatcca aaggactgaa ccctgaacag agttaagtta 840 ccttttaagc attttgtggg gccgcggggg ttggggggaa tctgtgcagg gggaagcata 900 ttacagaagc aagaaagaca gttattcaat taactgagac atgcattaca tcatttctta 960 cttttcaagg aaaatcatgt tttacgactt gagtttatct gtctagttac cttgcagctg 1020 cacagctaga gaaacagggt atttacaatg cctgggaaag gaggagagat aaggctcact 1080 agccacagaa aaacaggcag ttaattttta aaggactcca gctctttctc tttctcacgg 1140 ggaattggat tttcttacat gcaactgaat ttctgcttac acatttttaa atttctttta 1200 attgcttttc caatgcaata gcatgaatta ttattctgtt gacctatttg ccttactatg 1260 agctgagggt agttcaatat gctcactctt tttttttttt ttcttgagat gaagttttgc 1320 tctgtcacca ggctggagtg cagtggcgtg atctgggctc actgcaaccc ctgcctccca 1380 tccttcaagt gattctcctg cctcagcctc ccgagtagct gggattacag gtacacacca 1440 ccatgctcaa ctaatttttc ttttttgggc ggggggggtg gatattttta gtagagacaa 1500 atacttttgt atttttaata cagaaaagta tgcctcggcc tcccaaagtg ctggaattac 1560 agacatgagc cactgtgcct ggcctgctca ctttctgatg ctgctttttt gttgtttgtt 1620 tgtttatttg tttgttttga gacggagtct cgctctgtca ccaggctgga gtgcagtggc 1680 gcaatctcgg ctcattgcaa cctccgcctc ccaggttcaa gcgattctcc tgcctcagcc 1740 tgcggagtag ctgggactat aggtgcgtgc caccacgtcc agccactgat gctgttttgc 1800 cactgatgct gttttgaaat tgatattttg tctcataaaa actaggccag gcatggtggc 1860 tcattcctgt aatcccagca ctttgggagg ccaaggtggg tggatcacct gaggtcagga 1920 gttggagatg agcctggaca acatggcaaa accccacctc tactaaaaat acaaaaaaaa 1980 ttagctgggt atggtgtcac gtgcctgtaa tcccagccac tggggaggct gaggcaggag 2040 aacctcttga acccaggagg tggaggttgc agtgagctga gattgcgcca ctgcattcca 2100 gcctgggtga cagagtgaga ctgtctcaaa aaaaaaaaaa aattaatgat ggtcaaaggg 2160 tataaaatct cagacaggaa gaatatgttt tatgcttttt ttgagttctg ttgtacagtg 2220 tggtgcctat acttaataat ggggtattat acatttcaaa attgatgttc tcatcacaga 2280 aatgtatttg aagtattgca tatgttaact agcttgattt aactattcca tattgtatcc 2340 acaatttatg atatcacttt gtaacccata catttataca attataaatt gtcaatttac 2400 aataaaaaa 2409 <210> 15 <211> 1277 <212> DNA <213> Homo sapiens <400> 15 gatgtggccc gtggcctagc tcgtcaagtt gccgtggcgc ggagaactct gcaaaacaag 60 aggctgagga ttgcgttaga gataaaccag ttcacgccgg agccccgtga gggaagcgtc 120 tccgttgggt ccggccgctc tgcgggactc tgaggaaaag ctcgcaccag gtggacgcgg 180 atctgtcaac atgggtaaag gagaccccaa caagccgcgg ggcaaaatgt cctcgtacgc 240 cttcttcgtg cagacctgcc gggaagagca caagaagaaa cacccggact cttccgtcaa 300 tttcgcggaa ttctccaaga agtgttcgga gagatggaag accatgtctg caaaggagaa 360 gtcgaagttt gaagatatgg caaaaagtga caaagctcgc tatgacaggg agatgaaaaa 420 ttacgttcct cccaaaggtg ataagaaggg gaagaaaaag gaccccaatg ctcctaaaag 480 gccaccatct gccttcttcc tgttttgctc tgaacatcgc ccaaagatca aaagtgaaca 540 ccctggccta tccattgggg atactgcaaa gaaattgggt gaaatgtggt ctgagcagtc 600 agccaaagat aaacaaccat atgaacagaa agcagctaag ctaaaggaga aatatgaaaa 660 ggatattgct gcatatcgtg ccaagggcaa aagtgaagca ggaaagaagg gccctggcag 720 gccaacaggc tcaaagaaga agaacgaacc agaagatgag gaggaggagg aggaagaaga 780 agatgaagat gaggaggaag aggatgaaga tgaagaataa atggctatcc tttaatgatg 840 cgtgtggaat gtgtgtgtgt gctcaggcaa ttattttgct aagaatgtga attcaagtgc 900 agctcaatac tagcttcagt ataaaaactg tacagatttt tgtatagctg ataagattct 960 ctgtagagaa aatactttta aaaaatgcag gttgtagctt tttgatgggc tactcataca 1020 gttagatttt acagcttctg atgttgaatg ttcctaaata tttaatggtt tttttaattt 1080 ctgtgtgtat ggtagcacag caaacttgta ggaattagta tcaatagtaa attttgggtt 1140 ttttaggatg ttgcatttcg tttttttaaa aaaaattttg taataaaatt atgtatatta 1200 tttctattgt ctttgtctta atatgctaag ttaattttca ctttaaaaaa gccatttgaa 1260 gaccaaaaaa aaaaaaa 1277 <210> 16 <211> 3322 <212> DNA <213> Homo sapiens <400> 16 ggttgttcct tggcgcagtg agtgaagaac atgcagcgat tgctaatggg tttgggaagc 60 ggagactcct tcctctctct atgaccatgc cgtgatcgtg tctgcggtca ccactcgacg 120 catcctcatt tctacccgaa cccaggagcc gaacgctaga tcggggaagt gggtgccgtg 180 cgtgtgggca cagaaacacc atgaagatta ttttcccgat tctaagtaat ccagtcttca 240 ggcgcaccgt taaactcctg ctctgtttac tgtggattgg atattctcaa ggaaccacac 300 atgtattaag atttggtggt atttttgaat atgtggaatc tggcccaatg ggagctgagg 360 aacttgcatt cagatttgct gtgaacacaa ttaacagaaa cagaacattg ctacccaata 420 ctacccttac ctatgatacc cagaagataa acctttatga tagttttgaa gcatccaaga 480 aagcctgtga tcagctgtct cttggggtgg ctgccatctt cgggccttca cacagctcat 540 cagcaaacgc agtgcagtcc atctgcaatg ctctgggagt tccccacata cagacccgct 600 ggaagcacca ggtgtcagac aacaaagatt ccttctatgt cagtctctac ccagacttct 660 cttcactcag ccgtgccatt ttagacctgg tgcagttttt caagtggaaa accgtcacgg 720 ttgtgtatga tgacagcact ggtctcattc gtttgcaaga gctcatcaaa gctccatcaa 780 ggtataatct tcgactcaaa attcgtcagt tacctgctga tacaaaggat gcaaaaccct 840 tactaaaaga aatgaaaaga ggcaaggagt ttcatgtaat ctttgattgt agccatgaaa 900 tggcagcagg cattttaaaa caggcattag ctatgggaat gatgacagaa tactatcatt 960 atatctttac cactctggac ctctttgctc ttgatgttga gccctaccga tacagtggtg 1020 ttaacatgac agggttcaga atattaaata cagaaaatac ccaagtctcc tccatcattg 1080 aaaagtggtc gatggaacga ttgcaggcac ctccgaaacc cgattcaggt ttgctggatg 1140 gatttatgac gactgatgct gctctaatgt atgatgctgt gcatgtggtg tctgtggccg 1200 ttcaacagtt tccccagatg acagtcagtt ccttgcagtg taatcgacat aaaccctggc 1260 gcttcgggac ccgctttatg agtctaatta aagaggcaca ttgggaaggc ctcacaggca 1320 gaataacttt caacaaaacc aatggcttga gaacagattt tgatttggat gtgatcagtc 1380 tgaaggaaga aggtctagaa aagattggaa cgtgggatcc agccagtggc ctgaatatga 1440 cagaaagtca aaagggaaag ccagcgaaca tcacagattc cttatccaat cgttctttga 1500 ttgttaccac cattttggaa gagccttatg tcctttttaa gaagtctgac aaacctctct 1560 atggtaatga tcgatttgaa ggctattgca ttgatctcct cagagagtta tctacaatcc 1620 ttggctttac atatgaaatt agacttgtgg aagatgggaa atatggagcc caggatgatg 1680 ccaatggaca atggaatgga atggttcgtg aactaattga tcataaagct gaccttgcag 1740 ttgctccact ggctattacc tatgttcgag agaaggtcat cgacttttcc aagcccttta 1800 tgacacttgg aataagtatt ttgtaccgca agcccaatgg tacaaaccca ggcgtcttct 1860 ccttcctgaa tcctctctcc cctgatatct ggatgtatat tctgctggct tacttgggtg 1920 tcagttgtgt gctctttgtc atagccaggt ttagtcctta tgagtggtat aatccacacc 1980 cttgcaaccc tgactcagac gtggtggaaa acaattttac cttgctaaat agtttctggt 2040 ttggagttgg agctctcatg cagcaaggtt ctgagctcat gcccaaagca ctgtccacca 2100 ggatagtggg aggcatttgg tggtttttca cacttatcat catttcttcg tatactgcta 2160 acttagccgc ctttctgaca gtggaacgca tggaatcccc tattgactct gctgatgatt 2220 tagctaaaca aaccaagata gaatatggag cagtagagga tggtgcaacc atgacttttt 2280 tcaagaaatc aaaaatctcc acgtatgaca aaatgtgggc ctttatgagt agcagaaggc 2340 agtcagtgct ggtcaaaagt aatgaagaag gaatccagcg agtcctcacc tctgattatg 2400 ctttcctaat ggagtcaaca accatcgagt ttgttaccca gcggaactgt aacctgacac 2460 agattggcgg ccttatagac tctaaaggtt atggcgttgg cactcccatg ggttctccat 2520 atcgagacaa aattaccata gcaattcttc agctgcaaga ggaaggcaaa ctgcatatga 2580 tgaaggagaa atggtggagg ggcaatggtt gcccagaaga ggagagcaaa gaggccagtg 2640 ccctgggggt tcagaatatt ggtggcatct tcattgttct ggcagccggc ttggtgcttt 2700 cagtttttgt ggcagtggga gaatttttat acaaatccaa aaaaaacgct caattggaaa 2760 agaggtcctt ctgtagtgcc atggtagaag aattgaggat gtccctgaag tgccagcgtc 2820 ggttaaaaca taagccacag gccccagtta ttgtgaaaac agaagaagtt atcaacatgc 2880 acacatttaa cgacagaagg ttgccaggta aagaaaccat ggcataaagc tgggaggcca 2940 aacacccaag cacaaactgt cgtctttttc caaacaattt agccagaatg tttcctgtgg 3000 aaatatgcaa cctgtgcaaa ataaaatgag ttacctcatg ccgctgtgtc tatgaactag 3060 agactctgtg atctaagcag ttgcaatgat cagacttgat ttacaagcat catggatcaa 3120 ccaagttaca cggggttaca ctgttaatca tgggttcctc ccttcttctg agtgaatgtt 3180 aacatgcgca ttttgtggct gatttcaaat gcagtccagt gagaaattac aggttccttt 3240 tgaagctcaa ctgttgccag gagatggaat atcaatgccc aacagggcaa ccaataaaag 3300 tgtcactaag aatataaata tt 3322 <210> 17 <211> 708 <212> DNA <213> Homo sapiens <400> 17 atggtcaacc ccactgtgtt cttcgacatc gcctttgacg gctagccctt ggggtgcatc 60 tccttcaagc tgtttgcaga caagtttcca aagacagaag aaaactttca tgctccgagc 120 actggagaga aaagatttgg ttataaggct tcctgctttc acagaaatat tccagggttt 180 atgtgtcagg gtagtgactt cacacgccat aatggcactg gtggcaagtc catctacggg 240 gagaaatttg aagatgagaa cttcatccta aagcatacag gtcctggcgt cttgcccatg 300 gcaaatgctg gacccaacac aaatggttcc cagtttttca tctgcactgc caagactgag 360 tggttggatg gcaagcatgt ggtctttggc aaggtgaaag aaggcgtgaa tattgtggag 420 gccatggagc actttgggtc caggaatggc aagaccagca agaagatcat cagcattgct 480 gactgtggac aactctaata agtttgactt gtgttttatc ttaaccacca gaccatttct 540 tctgtatctc aggagagcac tcctccaccc cgtttgctca cagtatccta tcatctttgt 600 gt; gattggagag ttaagtttat gattatgaaa tcaaaactaa ataaaaat 708 <210> 18 <211> 833 <212> DNA <213> Homo sapiens <400> 18 agccctccgt cacctcttca cggcgccctg ggactgcccc aaggctcccg ccgctgctcc 60 agcgcggcgc agccactgcc gccgccgccg cctctcctta gtcgccgcaa tgacgaccgc 120 gtccacctcg caggtgcgcc agaactacca ccagtactca gaggccgcca tcaaccgcca 180 gatcaacctg gagcactacg cctcctaagt ttacctgtcc ctgtcttact actttgaccg 240 cgatgatgtg gctttgaaga actttgccaa atactttctt caccaatctc atgaggagag 300 gggacatgct gagaaactga tgaagctgca gaaccaatga ggtggccgaa tcttccttca 360 ggatatcaag aaaccagact gtgatgactg ggagagcggg ctgaatgcga tggagtgtgc 420 attacatttg gaaaaaaatg tgaatcagtc actactggaa ctgcacaaac tggccactga 480 caaaaatgac ccccatttgt gtgacttgag atacattacc tgaatgagca ggtgaaagcc 540 atcaaagaat tgggtgacca cgtgaccaac ttgcgcaaga tgggagcgcc cgaatctggc 600 gtgggagaat atctctttga caagcacact ctgggagaca gtgataatga aagctaagcc 660 tcaggctaat ttccccatag ccatggggtg acttccctgg tcaccaaggc agtgcatgca 720 tgttggggtt tcctttacct tttctataag ttgtaccaaa acatccactt aagttctttg 780 atttgtacca ttccttcaaa taaagaaatt tggtacccaa aaaaaaaaga gtc 833 <210> 19 <211> 546 <212> DNA <213> Homo sapiens <400> 19 cccttccgcc atgactgtaa gtttcctggg acctctccag ccatgctgaa ccgattcggg 60 agtgagaatg acgaggagag cccttcacga gaaggggctg aagacagagc ccctcaggag 120 gctcctgccc aggaggggcc tccggacaaa tgtccggccc agttccatgg cggtgccgga 180 cccagagct cccgggggag gcagcaaggc cccgagggca cccagaacaa tcccccaggg 240 taaggggagg tgagtgggct ccccaagcaa gccaagaccc ctaaagcctc ccttggctgc 300 cccaagatcc agccactacc tgtgccccga gggcggaaag agcttcccag ctcacccacc 360 gcggtaacat cggagggcga gcggccccac acctgcccga acctaaggcc acagcaccca 420 tctggctcgc cactggcgcc cgaatgcatg ggaagggctt agggcagaac tcggaccaca 480 tccagtgcct gaggccgcct tgctagaggc ctaggggagg ggtgcactgg gctgcctcgc 540 ccacct 546 <210> 20 <211> 30 <212> DNA <213> Artificial Sequence <220> <223> primer <400> 20 cctctttgtg actatgtgga ctgatgtcgg 30 <210> 21 <211> 28 <212> DNA <213> Artificial Sequence <220> <223> primer <400> 21 gtggataacc cctcccccag cctagacc 28 <210> 22 <211> 24 <212> DNA <213> Artificial Sequence <220> <223> primer <400> 22 gactgaccac tcgaccaggt tctg 24 <210> 23 <211> 25 <212> DNA <213> Artificial Sequence <220> <223> primer <400> 23 cttgtaagtt ggattctcat atccg 25 <210> 24 <211> 24 <212> DNA <213> Artificial Sequence <220> <223> primer <400> 24 cagggctgct tttaactctg gtaa 24 <210> 25 <211> 27 <212> DNA <213> Artificial Sequence <220> <223> primer <400> 25 gtggaatcat attggaacat gtaaacc 27 <210> 26 <211> 16 <212> DNA <213> Artificial Sequence <220> <223> primer <400> 26 cccccggaga gcgaag 16 <210> 27 <211> 21 <212> DNA <213> Artificial Sequence <220> <223> primer <400> 27 cgtctaactt tccttccagc a 21 <210> 28 <211> 21 <212> DNA <213> Artificial Sequence <220> <223> primer <400> 28 gcagagaggt tgaaaaggct g 21 <210> 29 <211> 21 <212> DNA <213> Artificial Sequence <220> <223> primer <400> 29 gggcactatc tgacacttca t 21 <210> 30 <211> 21 <212> DNA <213> Artificial Sequence <220> <223> primer <400> 30 gcagtggcaa agtggagatt g 21 <210> 31 <211> 20 <212> DNA <213> Artificial Sequence <220> <223> primer <400> 31 agatggtgat gggcttcccg 20 <210> 32 <211> 20 <212> DNA <213> Artificial Sequence <220> <223> primer <400> 32 gagtcggaag agctgactgc 20 <210> 33 <211> 20 <212> DNA <213> Artificial Sequence <220> <223> primer <400> 33 cgctgatttc tgcagtcctt 20
Claims (9)
(b) 상기 (a) 단계의 배양한 신경 세포로부터 SPC25(NDC80 kinetochore complex component) 유전자의 발현 수준을 측정하는 단계; 및
(c) 상기 측정한 유전자의 발현 수준을 정상 개체로부터 채취한 혈액 시료를 신경 세포에 처리한 대조군의 상기 동일 유전자의 발현 수준과 비교하는 단계;를 포함하는 것을 특징으로 하는 혈액 시료를 이용하여 치매 또는 경도인지장애 진단에 정보를 제공하는 방법.(a) treating and culturing a neural cell with a blood sample collected from a specimen;
(b) measuring the expression level of SPC25 (NDC80 kinetochore complex component) gene from cultured neurons in step (a); And
(c) comparing the expression level of the gene with the expression level of the same gene in a control group treated with a neuron-treated blood sample from a normal subject, and Or mild cognitive impairment diagnosis.
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Free Radical Biology and Medicine, 75:48-59 (2014)* |
Journal of Clinical and Dianostic Research, 10(7):KE01-LE06 (2016.07.) |
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