WO2009149145A2 - Compositions and methods comprising variant microbial proteases - Google Patents
Compositions and methods comprising variant microbial proteases Download PDFInfo
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- WO2009149145A2 WO2009149145A2 PCT/US2009/046067 US2009046067W WO2009149145A2 WO 2009149145 A2 WO2009149145 A2 WO 2009149145A2 US 2009046067 W US2009046067 W US 2009046067W WO 2009149145 A2 WO2009149145 A2 WO 2009149145A2
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- WIPO (PCT)
- Prior art keywords
- subtilisin
- sequence
- cleaning
- bpn
- variant
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Classifications
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- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12N—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
- C12N9/00—Enzymes; Proenzymes; Compositions thereof; Processes for preparing, activating, inhibiting, separating or purifying enzymes
- C12N9/14—Hydrolases (3)
- C12N9/48—Hydrolases (3) acting on peptide bonds (3.4)
- C12N9/50—Proteinases, e.g. Endopeptidases (3.4.21-3.4.25)
- C12N9/52—Proteinases, e.g. Endopeptidases (3.4.21-3.4.25) derived from bacteria or Archaea
- C12N9/54—Proteinases, e.g. Endopeptidases (3.4.21-3.4.25) derived from bacteria or Archaea bacteria being Bacillus
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- A—HUMAN NECESSITIES
- A23—FOODS OR FOODSTUFFS; TREATMENT THEREOF, NOT COVERED BY OTHER CLASSES
- A23K—FODDER
- A23K20/00—Accessory food factors for animal feeding-stuffs
- A23K20/10—Organic substances
- A23K20/189—Enzymes
-
- C—CHEMISTRY; METALLURGY
- C11—ANIMAL OR VEGETABLE OILS, FATS, FATTY SUBSTANCES OR WAXES; FATTY ACIDS THEREFROM; DETERGENTS; CANDLES
- C11D—DETERGENT COMPOSITIONS; USE OF SINGLE SUBSTANCES AS DETERGENTS; SOAP OR SOAP-MAKING; RESIN SOAPS; RECOVERY OF GLYCEROL
- C11D3/00—Other compounding ingredients of detergent compositions covered in group C11D1/00
- C11D3/16—Organic compounds
- C11D3/38—Products with no well-defined composition, e.g. natural products
- C11D3/386—Preparations containing enzymes, e.g. protease or amylase
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- C—CHEMISTRY; METALLURGY
- C11—ANIMAL OR VEGETABLE OILS, FATS, FATTY SUBSTANCES OR WAXES; FATTY ACIDS THEREFROM; DETERGENTS; CANDLES
- C11D—DETERGENT COMPOSITIONS; USE OF SINGLE SUBSTANCES AS DETERGENTS; SOAP OR SOAP-MAKING; RESIN SOAPS; RECOVERY OF GLYCEROL
- C11D3/00—Other compounding ingredients of detergent compositions covered in group C11D1/00
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- C11D3/38—Products with no well-defined composition, e.g. natural products
- C11D3/386—Preparations containing enzymes, e.g. protease or amylase
- C11D3/38681—Chemically modified or immobilised enzymes
-
- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12N—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
- C12N9/00—Enzymes; Proenzymes; Compositions thereof; Processes for preparing, activating, inhibiting, separating or purifying enzymes
- C12N9/14—Hydrolases (3)
- C12N9/48—Hydrolases (3) acting on peptide bonds (3.4)
- C12N9/50—Proteinases, e.g. Endopeptidases (3.4.21-3.4.25)
- C12N9/52—Proteinases, e.g. Endopeptidases (3.4.21-3.4.25) derived from bacteria or Archaea
-
- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12Y—ENZYMES
- C12Y304/00—Hydrolases acting on peptide bonds, i.e. peptidases (3.4)
- C12Y304/21—Serine endopeptidases (3.4.21)
- C12Y304/21062—Subtilisin (3.4.21.62)
-
- C—CHEMISTRY; METALLURGY
- C11—ANIMAL OR VEGETABLE OILS, FATS, FATTY SUBSTANCES OR WAXES; FATTY ACIDS THEREFROM; DETERGENTS; CANDLES
- C11D—DETERGENT COMPOSITIONS; USE OF SINGLE SUBSTANCES AS DETERGENTS; SOAP OR SOAP-MAKING; RESIN SOAPS; RECOVERY OF GLYCEROL
- C11D2111/00—Cleaning compositions characterised by the objects to be cleaned; Cleaning compositions characterised by non-standard cleaning or washing processes
- C11D2111/10—Objects to be cleaned
- C11D2111/12—Soft surfaces, e.g. textile
Definitions
- the present invention provides variant subtilisins and compositions comprising at least one variant subtilisin set forth herein, as well as methods for using these variants and compositions.
- Serine proteases are a subgroup of carbonyl hydrolases comprising a diverse class of enzymes having a wide range of specificities and biological functions.
- Much research has been conducted on the subtilisins, due largely to their usefulness in cleaning and feed applications. Additional work has been focused on the adverse environmental conditions (e.g., exposure to oxidative agents, chelating agents, extremes of temperature and/or pH) which can adversely impact the functionality of these enzymes in various applications. Nonetheless, there remains a need in the art for enzyme systems that are able to resist these adverse conditions and retain or have improved activity over those currently known in the art.
- the present invention provides variant subtilisins and compositions comprising at least one variant subtilisin set forth herein, as well as methods for using these variants and compositions.
- the present invention provides variant proteases suitable for laundry cleaning applications.
- subtilisin variants comprising at least one modification, wherein the at least one modification is selected from GlOOC, SlOlD, SlOlH, Q103D, M124G, L126G, S132H, S161N, Q275Z, and/or at least one set of modifications selected from GlOOC, SlOlD, SlOlH, Q103D, M124G, L126G, S132H, S161N, Q275Z, and/or at least one set of modifications selected from GlOOC, SlOlD, SlOlH, Q103D, M124G, L126G, S132H, S161N, Q275Z, and/or at least one set of modifications selected from GlOOC, SlOlD, SlOlH, Q103D, M124G, L126G, S132H, S161N, Q275Z, and/or at least one set of modifications selected from GlOOC, SlOlD, SlOlH, Q103D
- AOO 1 T/L096 V/G097S/A098D/D099I AOO 1 V/G097S/A098R/D099G, V004M/A098D/D099G, V004M/D099R/G100S/Z100.01L, V004M/G127C/G128S/P129R, V004M/M119C/D120S, V008I/A098G/D099R, V008I/A098N, V008I/M119C/D120G, Q010L/G097R/A098C/D099S, K012N/A098R/D099V, K012R/G097D/A098H/D099G, A013T/S101R/Q103S, A013V/G097N/A098H/D099G/G160S, A013V/G097S/Z097.01
- N061D/G128R/P129V/Z129.01G S063T/G097D/A098R/D099S, G065R/Z101.01R/Z101.02G, T066S/H067S, V068C/A069G, V068C/A069G/H238Q, V068G/A069G, V068G/A069G/V150I, V068G/A069S, V068I/A069G/A144V, V068I/G097D/A098G/D099Z/G100R, V068L/A069G, V068L/A069S, V068S/A069G, V068S/A069G/A116T, A069G/T071G, A069G/T071I, L075G/N076G/N077Z, L075R/N076G/N0
- G097C/A098N/D099S G097C/A098R, G097C/A098R/D099G, G097C/A098R/D099H, G097C/A098R/D099H, G097C/A098R/D099N, G097C/A098R/D099R, G097C/A098R/D099R/N109D/A114S, G097C/A098S/D099H/A151 V, G097C/A098V/D099S, G097C/Z097.01G/A098H/T253I, G097C/Z097.01S/A098G, G097D/A098C, G097D/A098G/D099G, G097D/A098G/D099R, G097D/A098H/D099R, G097D/A
- G097H/A098R/D099L G097H/A098R/D099N, G097H/A098S/D099G, G097H/A098S/D099I, G097H/A098S/D099L, G097H/A098S/D099S/K237E, G097L/A098C/D099S, G097L/A098G/D099S, G097L/A098G/D099S/G100Z, G097L/A098G/D099Z, G097L/A098H, G097L/A098R/D099N, G097L/A098V, G097N/A098G/D099C, G097N/A098G/D099R, G097N/A098G/D099R, G097N/A098G/D099R/V
- G097N/A098H/D099N G097N/A098R/D099R, G097N/A098R/D099S, G097N/A098R/D099V, G097N/A098S/D099S, G097R/A098C, G097R/A098C/D099S, G097R/A098F/A200V
- G097R/A098G, G097R/A098G/D099C G097R/A098G/D099G, G097R/A098G/D099G/A273T, G097R/A098G/D099S, G097R/A098G/D099S/A133D, G097R/A098G/D099V, G097R/A098H/D099C/S 182N, G097R/A098H/D0
- G097R/A098N/D099Z G097R/A098R, G097R/A098R/D099C, G097R/A098R/D099G, G097R/A098R/D099S, G097R/A098S/D099C, G097R/A098S/D099G, G097R/A098S/D099L, G097R/A098S/D099R, G097R/A098S/D099S, G097R/A098S/D099V, G097R/A098V/D099G, G097R/Z097.01H/A098C, G097R/Z097.01R/A098G, G097R/Z097.01R/A098G/V147I, G097R/Z097.01R/A098S, G097R/Z097.01R/A
- G097S/A098R/D099L G097S/A098R/D099V
- G097S/A098R/D099Y G097S/A098S/D099G
- G097S/A098S/D099Z G097S/Z097.01D/A098G/A144T/Q271H
- G097S/Z097.01G/A098V G097S/Z097.01S/A098G
- G097S/Z097.01S/A098G/A273T G097S/Z097.01Y
- G097V/A098R G097V/A098R/D099G
- A098D/D099H/G100S A098D/D099H/H238Y, A098D/D099R, A098D/D099R/G100D, A098D/D099R/G160S, A098F/D099S/G100L, A098G/D099C, A098G/D099G, A098G/D099G/A228T, A098G/D099G/G100H, A098G/D099G/N243D, A098G/D099G/S101P, A098G/D099G/T244S, A098G/D099G, A098G/D099H, A098G/D099L, A098G/D099R, A098G/D099R/A116T, A098G/D099R/G100D, A098G/D099R/V148I
- A098R/D099G/G100S A098R/D099G/V150I,A098R/D099H, A098R/D099I, A098R/D099L, A098R/D099N, A098R/D099N/G100L, A098R/D099R, A098R/D099R/G100D, A098R/D099R/S101Z, A098R/D099R/S130F, A098R/D099R, A098R/D099S, A098R/D099S/G100L/A153V, A098R/D099S/, A098R/D099V, A098R/D099Z/S101G, A098R/G100C/A137T, A098R/G100S, A098S/D099C, A098S/D099G, A098S/D
- S101H/Q103R/A274Z/Q275Z S101H/Q103S, S101H/Q103V, S101I/Q103R, S101L/G102S/Q103R, S101L/Q103D, S101L/Q103G, S101L/Q103R, S101L/Q103R/A138T, S101L/Q103R/V121I/K213E, S101L/Q103S, S101L/Q103V, S101L/Z101.01R, S101N/Q103R, S101N/Z102.01G, S101R/A151V, S101R/A273V, S101R/E156G, S101R/G102L/Q103G, S101R/G102S, S101R/G102S/Q103R, S101R/G102S/Q103V, S101R/G131D, S101R/Q103C, S101R/Q103D, S101R/Q103D/S248R
- N118G/M119V/D120S/S182N N118H/M119C/D120R, N118H/M119I/D120G, N118H/M119N/V148I, N118H/M119S/D120G, N118H/M119V/D120G, N118R/M119C, N118R/M119C/D120G, N118R/M119C/D120R, N118R/M119S, N118R/M119S/D120G, N118R/M119S/D120R, N118R/M119S/D120S, N118R/M119V/D120C, N118R/M119V/D120G, N118R/M119V/D120G/A232T, N118S/M119C/D120R, M119C/D120G, M119C/D120G/V121I, M119C/D120G/V121L, M119C/D120H, M119C/D120H/A187
- the present invention also provides subtilisin variants comprising at least one set of modifications, wherein said set of modifications is selected from: V072G/G097A/G128A/Y217Q, G097A/G128S/Y217Q, G097A/G128S/P129D/Y217Q, G097A/G128A/A134T/Y217Q, M124V/L126A/Y217Q, G097A/G128A/P129D/Y217Q/A232P, G097A/G128A/P129D/Y217Q, G097A/G128S/P129V/A134T/Y217Q, G097A/G128S/P129V/Y217Q, V068I/G097A/G128S/P129D/Y217Q, G097A/S101D/G128S/S204F/Y217Q/S236F/T254
- G097A/S101D/G128S/Y217Q G097A/G128A/P129V/Y217Q, G097A/S101D/G128A/Y217Q, G097A/S101D/G128S/P129D/Y217Q, G097A/S101D/G128A/A134T/Y217Q, G097A/Z099.01S/A114S/G128S/Y217Q, G097A/S101D/G128A/P194L/Y217Q, G097A/Z099.01S/G128S/Y217Q, G097A/S101D/G128A/P129D/Y217Q, Q019R/G097A/Z099.01S/G128S/P129D/Y217Q, G097A/G100S/G128SA'217Q, G097A/S101D/G1
- V093Z/K094S/V095C/L096S/G097A/G128A/Y217Q G097A/G100S/S101D/G128A/Y217Q/A232P
- Z096.01D/G097A/A098R/S101D/G128A/Y217Q Z096.01D/G097A/A098R/S101D/G128A/Y217Q
- G097A/Z099.01S/G100S/G128A/Y217Q wherein the positions correspond to the positions of BPN' subtilisin of SEQ ID NO:2.
- the present invention further provides subtilisin variants comprising at one set of modifications, wherein said set of modifications is selected from: G097A/G128S/P129T/Y217Q, G097A/G128A/P129SA'217Q, G097A/G128S/P129C/Y217Q, G097A/G128S/P129Q/Y217Q, G097A/G128S/P129E/Y217Q, G097A/P129S/Y217Q, G097A/G128S/P129A/Y217Q, G097A/G128S/P129K/Y217Q, G097A/P129N/Y217Q, G097A/P129E/Y217Q, G097A/G128S/P129K/G131S/Y217Q, G097A/G128S/P129R/Y217Q, G097A/G128S/
- G097A/G128N/P129MA'217Q G097A/G128N/P129VA'217Q
- G097A/G128E/P129KA'217Q G097A/G128N/Z128.01A/P129F/Y217Q
- G097A/G128C/P129R/Y217Q G097A/G128T/P129M/Y217Q
- G097A/G128R/Z128.01A/P129S/Y217Q G097A/G128S/Z128.01A/P129AA'217Q
- G097A/G128D/Y217Q G097A/G128T/P129Y/Y217Q
- G097A/G128R/P129S/Y217Q G097A/G128R/Z128.01A/P129T/Y217Q
- G097A/G128A/Z128.01A/P129H/E195A/Y217Q G097A/G128S/Z128.01A/P129Y/Y217Q
- G097A/G128N/P129L/Y217Q G097A/G128C/P129H/Y217Q
- G097A/G128T/Z128.01A/P129T/Y217Q G097A/G128C/Z128.01A/P129A/Y217Q
- G097A/G128S/Z128.01A/P129I/Y217Q G097A/G128S/Z128.01A/P129E/Y217Q/Q271H
- G097A/G128S/Z128.01A/P129L/Y217Q G097A/G128Y/Z128.01A/P129S/Y217Q
- the present invention also provides subtilisin variants comprising at least one set of modifications, wherein said set of modifications is selected from: G097A/G128A/Y217Q/M222Q, M124V/L126A/P129V/Y217Q, G128A/P129V/Y217Q, G097A/G128A/P129V/Y217Q, N123G/P129V/Y217Q, V30I/Z096.01D/G097A/A098R/G128A/Y217Q,
- Z096.01D/A098R/G128A/Y217Q Z096.01D/A098R/M124V/L126A/Y217Q, G097A/Z098.01S/G128A/Y217Q, Z096.01D/A098R/N123G/Y217Q, Z096.01D/G097A/A098R/G128A/Y217Q/S236F, Z098.01S/M124V/L126A/Y217Q, Z098.01S/G128A/Y217Q, Z096.01D/G097A/A098R/G128A/Y217Q, V093I/Z098.01S/M124V/L126A/Y217Q, A073V/Z098.01S/N123G/Y217Q, G065D/Z098.01S/G128A/Y217Q, I011L/Z098.01S/G
- the present invention also provides subtilisin variants comprising the substitution Y217L and further at least one set of any of the modification sets provided above, wherein the positions correspond to the positions of BPN' subtilisin of SEQ ID NO:2.
- the present invention further provides subtilisin variants comprising the substitutions G97A/G128A/Y217Q and further comprising at least one modification of any of the modifications sets provided herein, wherein the positions correspond to the positions of BPN' subtilisin of SEQ ID NO:2.
- the present invention also provides cleaning compositions comprising at least one subtilisin variant as provided herein.
- the cleaning composition is a laundry detergent.
- the laundry detergent is a heavy duty liquid laundry detergent.
- the cleaning composition is a dish detergent.
- the cleaning compositions further comprise one or more additional enzymes or enzyme derivatives selected from the group consisting of hemicellulases, peroxidases, proteases, cellulases, xylanases, lipases, phospholipases, esterases, cutinases, pectinases, keratinases, reductases, oxidases, phenol oxidases, lipoxygenases, ligninases, pullulanases, tannases, pentosanases, malanases, ⁇ -glucanases, arabinosidases, hyaluronidase, chondroitinase, laccase, and amylases, or mixtures thereof.
- additional enzymes or enzyme derivatives selected from the group consisting of hemicellulases, peroxidases, proteases, cellulases, xylanases, lipases, phospholipases, esterases, cutinases, pectina
- the cleaning compositions further comprise at least one stabilizing agent.
- the cleaning compositions comprise at least 0.0001 weight percent of at least one of any of the subtilisin variants provided herein, and optionally, at least one suitable adjunct ingredient.
- the present invention provides methods of cleaning, the method comprising the steps of: contacting a surface and/or an article comprising a fabric with at least one of the cleaning compositions set forth herein and optionally washing and/or rinsing the surface or article.
- the present invention also provides animal feeds comprising at least one subtilisin variant provided herein, as well as food processing compositions comprising at least one subtilisin variant provided herein.
- FIG. 1 shows a diagram illustrating the method used for creating in-frame deletions and insertions. Library was designed to have 33% of clones with substitutions; 33% of clones with insertions and 33% of clones with deletions.
- FIG. 2A Plasmid map of pAC-FNAlO.
- FIG. 2B provides a map of pHPLT-FNA.
- IG. 2C provides a map of pHPLT-BPN.
- Vector pHPLT contains the LAT promoter (PLAT), a sequence encoding the LAT signal peptide (preLAT).
- preLAT LAT signal peptide
- the origin of replication and neoR are derived from plasmid pUB 110.
- the present invention provides variant subtilisins and compositions comprising at least one variant subtilisin set forth herein, as well as methods for using these variants and compositions.
- the modification of the precursor proteases of the invention to produce these variant subtilisins includes at least one substitution, at least one deletion, or at least one insertion.
- the modification comprises a combination of mutations.
- the modification includes a combination of at least one substitution and at least one deletion.
- the modification includes a combination of at least one substitution and at least one insertion.
- the modification includes a combination of at least one deletion and at least one insertion.
- the modification includes a combination of at least one substitution, at least one deletion, and at least one insertion.
- suitable methods are known in the art for generating modified polynucleotide sequences of the present invention, including but not limited to site-saturation mutagenesis, scanning mutagenesis, insertional mutagenesis, deletion mutagenesis, random mutagenesis, site-directed mutagenesis, and directed-evolution, as well as various other recombinatorial approaches.
- the commonly used methods include DNA shuffling (See, Stemmer, Proc Natl Acad Sci U S A.
- the full-length parent polynucleotide is ligated into an appropriate expression plasmid, and the following mutagenesis method is used to facilitate the construction of the modified protease of the present invention, although other methods may be used.
- the method is based on that described by Pisarchik et al. (Pisarchik et al, Prot. Eng. Des. Select, 20:257-265 [2007]).
- an added advantage is provided, in that the restriction enzyme used herein cuts outside its recognition sequence, which allows digestion of practically any nucleotide sequence and precludes formation of a restriction site scar..
- a naturally- occurring gene encoding the full-length protease is obtained and sequenced and scanned for one or more points at which it is desired to make a mutation (deletion, insertion, substitution, or a combination thereof) at one or more amino acids.
- Mutation of the gene in order to change its sequence to conform to the desired sequence is accomplished by primer extension in accord with generally known methods. Fragments to the left and to the right of the desired point(s) of mutation are amplified by PCR and to include the £ ⁇ ml 1041 restriction site.
- the left and right fragments are digested with EamX 1041 to generate a plurality of fragments having complementary three base overhangs, which are then pooled and ligated to generate a library of modified sequences containing one or more mutations.
- This method avoids the occurrence of frame-shift mutations.
- this method simplifies the mutagenesis process because all of the oligonucleotides can be synthesized so as to have the same restriction site, and no synthetic linkers are necessary to create the restriction sites as is required by some other methods Compositions
- the present invention provides variant proteases and compositions comprising at least one of the variant subtilisins set forth herein.
- the present invention provides means to produce protease with various commercial applications where degradation or synthesis of polypeptides are desired, including cleaning compositions, as well as feed components, textile processing, leather finishing, grain processing, meat processing, food processing, preparation of protein hydrolysates, digestive aids, microbicidal compositions, bacteriostatic compositions, fungistatic compositions, and personal care products (e.g., oral care, hair care, and/or skin care).
- the present invention further provides enzyme compositions have comparable or improved wash performance, as compared to presently used subtilisin proteases.
- the cleaning composition of the present invention are advantageously employed for example, in laundry applications. Indeed, due to the unique advantages of increased effectiveness in lower temperature solutions, the enzymes of the present invention are ideally suited for laundry applications. Furthermore, the enzymes of the present invention may be employed in both granular and liquid compositions.
- the variant proteases of the present invention also find use laundry cleaning additive products.
- low temperature solution cleaning applications find use.
- the additive product may be, in its simplest form, one or more proteases.
- the additive is packaged in dosage form for addition to a cleaning process. Any suitable single dosage form also finds use with the present invention, including but not limited to pills, tablets, gelcaps, or other single dosage units such as pre-measured powders or liquids.
- filler(s) or carrier material(s) are included to increase the volume of such composition. Suitable filler or carrier materials include, but are not limited to, various salts of sulfate, carbonate and silicate as well as talc, clay and the like.
- Suitable filler or carrier materials for liquid compositions include, but are not limited to water or low molecular weight primary and secondary alcohols including polyols and diols. Examples of such alcohols include, but are not limited to, methanol, ethanol, propanol and isopropanol. In some embodiments, the compositions contain from about 5% to about 90% of such materials. Acidic fillers find use to reduce pH. Alternatively, the cleaning additive include adjunct ingredients as more fully described below.
- the present cleaning compositions and cleaning additives require an effective amount of at least one of the protease variants provided herein, alone or in combination with other proteases and/or additional enzymes.
- the required level of enzyme is achieved by the addition of one or more protease variants of the present invention.
- the present cleaning compositions comprise at least about 0.0001 weight percent, from about 0.0001 to about 1, from about 0.001 to about 0.5, or even from about 0.01 to about 0.1 weight percent of at least one of the variant proteases of the present invention.
- the cleaning compositions herein are typically formulated such that, during use in aqueous cleaning operations, the wash water will have a pH of from about 5.0 to about 11.5 or even from about 7.5 to about 10.5.
- Liquid product formulations are typically formulated to have a neat pH from about 3.0 to about 9.0 or even from about 3 to about 5.
- Granular laundry products are typically formulated to have a pH from about 9 to about 11.
- Techniques for controlling pH at recommended usage levels include the use of buffers, alkalis, acids, etc., and are well known to those skilled in the art.
- Suitable low pH cleaning compositions typically have a neat pH of from about 3 to about 5, and are typically free of surfactants that hydrolyze in such a pH environment.
- surfactants include sodium alkyl sulfate surfactants that comprise at least one ethylene oxide moiety or even from about 1 to about 16 moles of ethylene oxide.
- Such cleaning compositions typically comprise a sufficient amount of a pH modifier, such as sodium hydroxide, monoethanolamine or hydrochloric acid, to provide such cleaning composition with a neat pH of from about 3 to about 5.
- Such compositions typically comprise at least one acid stable enzyme.
- the compositions are liquids, while in other embodiments, they are solids.
- the pH of such liquid compositions is typically measured as a neat pH.
- the pH of such solid compositions is measured as a 10% solids solution of said composition wherein the solvent is distilled water. In these embodiments, all pH measurements are taken at 20°C.
- the variant protease(s) when the variant protease(s) is/are employed in a granular composition or liquid, it is desirable for the variant protease to be in the form of an encapsulated particle to protect the variant protease from other components of the granular composition during storage.
- encapsulation is also a means of controlling the availability of the variant protease during the cleaning process.
- encapsulation enhances the performance of the variant protease(s) and/or additional enzymes.
- the variant proteases of the present invention are encapsulated with any suitable encapsulating material known in the art.
- the encapsulating material typically encapsulates at least part of the catalyst for the variant protease(s) of the present invention.
- the encapsulating material is water-soluble and/or water-dispersible.
- the encapsulating material has a glass transition temperature (Tg) of 0 0 C or higher. Glass transition temperature is described in more detail in WO 97/11151.
- the encapsulating material is selected from consisting of carbohydrates, natural or synthetic gums, chitin, chitosan, cellulose and cellulose derivatives, silicates, phosphates, borates, polyvinyl alcohol, polyethylene glycol, paraffin waxes, and combinations thereof.
- the encapsulating material When the encapsulating material is a carbohydrate, it is typically selected from monosaccharides, oligosaccharides, polysaccharides, and combinations thereof. Typically, the encapsulating material is a starch. Suitable starches are described in EP 0 922 499; US 4,977,252; US 5,354,559, and US 5,935,826.
- the encapsulating material is a microsphere made from plastic such as thermoplastics, acrylonitrile, methacrylonitrile, polyacrylonitrile, polymethacrylonitrile and mixtures thereof; commercially available microspheres that find use include those supplied by EXPANCEL® (Stockviksverken, Sweden), and PM 6545, PM 6550, PM 7220, PM 7228, EXTENDOSPHERES®, LUXSIL®, Q-CEL®, and SPHERICEL® (PQ Corp., Valley Forge, PA)>
- plastic such as thermoplastics, acrylonitrile, methacrylonitrile, polyacrylonitrile, polymethacrylonitrile and mixtures thereof
- commercially available microspheres that find use include those supplied by EXPANCEL® (Stockviksverken, Sweden), and PM 6545, PM 6550, PM 7220, PM 7228, EXTENDOSPHERES®, LUXSIL®, Q-CEL®, and SPHERICEL®
- variant proteases of the present invention find particular use in laundry detergents. These applications place enzymes under various environmental stresses.
- the variant proteases of the present invention provide advantages over many currently used enzymes, due to their stability under various conditions.
- wash conditions including varying detergent formulations, wash water volumes, wash water temperatures, and lengths of wash time, to which proteases involved in washing are exposed.
- detergent formulations used in different geographical areas have different concentrations of their relevant components present in the wash water.
- a European detergent typically has about 4500-5000 ppm of detergent components in the wash water
- a Japanese detergent typically has approximately 667 ppm of detergent components in the wash water.
- detergents typically have about 975 ppm of detergent components present in the wash water.
- a low detergent concentration system includes detergents where less than about 800 ppm of detergent components are present in the wash water.
- Japanese detergents are typically considered low detergent concentration system as they have approximately 667 ppm of detergent components present in the wash water.
- a medium detergent concentration includes detergents where between about 800 ppm and about 2000ppm of detergent components are present in the wash water.
- North American detergents are generally considered to be medium detergent concentration systems as they have approximately 975 ppm of detergent components present in the wash water. Brazil typically has approximately 1500 ppm of detergent components present in the wash water.
- a high detergent concentration system includes detergents where greater than about 2000 ppm of detergent components are present in the wash water.
- European detergents are generally considered to be high detergent concentration systems as they have approximately 4500-5000 ppm of detergent components in the wash water.
- Latin American detergents are generally high suds phosphate builder detergents and the range of detergents used in Latin America can fall in both the medium and high detergent concentrations as they range from 1500 ppm to 6000 ppm of detergent components in the wash water. As mentioned above, Brazil typically has approximately 1500 ppm of detergent components present in the wash water. However, other high suds phosphate builder detergent geographies, not limited to other Latin American countries, may have high detergent concentration systems up to about 6000 ppm of detergent components present in the wash water.
- concentrations of detergent compositions in typical wash solutions throughout the world varies from less than about 800 ppm of detergent composition ("low detergent concentration geographies"), for example about 667 ppm in Japan, to between about 800 ppm to about 2000 ppm ("medium detergent concentration geographies” ), for example about 975 ppm in U.S. and about 1500 ppm in Brazil, to greater than about 2000 ppm ("high detergent concentration geographies”), for example about 4500 ppm to about 5000 ppm in Europe and about 6000 ppm in high suds phosphate builder geographies.
- low detergent concentration geographies for example about 667 ppm in Japan
- intermediate detergent concentration geographies for example about 975 ppm in U.S. and about 1500 ppm in Brazil
- high detergent concentration geographies for example about 4500 ppm to about 5000 ppm in Europe and about 6000 ppm in high suds phosphate builder geographies.
- concentrations of the typical wash solutions are determined empirically. For example, in the U.S., a typical washing machine holds a volume of about 64.4 L of wash solution. Accordingly, in order to obtain a concentration of about 975 ppm of detergent within the wash solution about 62.79 g of detergent composition must be added to the 64.4 L of wash solution. This amount is the typical amount measured into the wash water by the consumer using the measuring cup provided with the detergent.
- the temperature of the wash water in Japan is typically less than that used in Europe.
- the temperature of the wash water in North America and Japan is typically between 10 and 30°C (e.g., about 20°C), whereas the temperature of wash water in Europe is typically between 30 and 60°C (e.g., about 40°C).
- Water hardness is usually described in terms of the grains per gallon mixed Ca 2+ Mg 2+ .
- Hardness is a measure of the amount of calcium (Ca 2+ ) and magnesium (Mg 2+ ) in the water. Most water in the United States is hard, but the degree of hardness varies. Moderately hard (60-120 ppm) to hard (121- 181 ppm) water has 60 to 181 parts per million (parts per million converted to grains per U.S. gallon is ppm # divided by 17.1 equals grains per gallon) of hardness minerals.
- European water hardness is typically greater than 10.5 (for example 10.5-20.0) grains per gallon mixed Ca 2+ Mg 2+ (e.g., about 15 grains per gallon mixed Ca 2+ Mg 2+ ).
- North American water hardness is typically greater than Japanese water hardness, but less than European water hardness.
- North American water hardness can be between 3 to 10 grains, 3-8 grains or about 6 grains.
- Japanese water hardness is typically lower than North American water hardness, usually less than 4, for example 3 grains per gallon mixed Ca 2+ Mg 2+ .
- the present invention provides variant proteases that show surprising wash performance in at least one set of wash conditions (e.g., water temperature, water hardness, and/or detergent concentration).
- the variant proteases of the present invention are comparable in wash performance to other subtilisin proteases. In some embodiments, the variant proteases of the present invention exhibit enhanced wash performance as compared to subtilisin proteases currently commercially available. Thus, in some preferred embodiments of the present invention, the variant proteases provided herein exhibit enhanced oxidative stability, enhanced thermal stability, and/or enhanced chelator stability. In addition, the variant proteases of the present invention find use in cleaning compositions that do not include detergents, again either alone or in combination with builders and stabilizers.
- the cleaning compositions comprise at least one variant protease of the present invention at a level from about 0.00001 % to about 10% by weight of the composition and the balance (e.g., about 99.999% to about 90.0%) comprising cleaning adjunct materials by weight of composition.
- the cleaning compositions of the present invention comprises at least one variant protease at a level of about 0.0001 % to about 10%, about 0.001% to about 5%, about 0.001% to about 2%, about 0.005% to about 0.5% by weight of the composition and the balance of the cleaning composition (e.g., about 99.9999% to about 90.0%, about 99.999 % to about 98%, about 99.995% to about 99.5% by weight) comprising cleaning adjunct materials.
- preferred cleaning compositions comprise one or more additional enzymes or enzyme derivatives which provide cleaning performance and/or fabric care benefits, in addition to one or more of the variant proteases provided herein.
- Such enzymes include, but are not limited to other proteases, lipases, cutinases, amylases, cellulases, peroxidases, oxidases (e.g., laccases), and/or mannanases. Any other suitable protease finds use in the compositions of the present invention. Suitable proteases include those of animal, vegetable or microbial origin. In some particularly preferred embodiments, microbial proteases are used. In some embodiments, chemically or genetically modified mutants are included. In some embodiments, the protease is a serine protease, preferably an alkaline microbial protease or a trypsin-like protease.
- alkaline proteases examples include subtilisins, especially those derived from Bacillus (e.g., subtilisin, lentus, amyloliquefaciens, subtilisin Carlsberg, subtilisin 309, subtilisin 147 and subtilisin 168). Additional examples include those mutant proteases described in U.S. Pat. Nos. RE 34,606, 5,955,340, 5,700,676, 6,312,936, and 6,482,628, all of which are incorporated herein by reference. Additional protease examples include, but are not limited to trypsin (e.g., of porcine or bovine origin), and the Fusarium protease described in WO 89/06270. Preferred commercially available protease enzymes include MAXATASE®,
- MAXACALTM, MAXAPEMTM, OPTICLEAN®, OPTIMASE®, PROPERASE®, PURAFECT® and PURAFECT® OXP (Genencor); ALCALASE®, SAVINASE®, PRIMASE®, DURAZYMTM, RELASE® and ESPERASE® (Novozymes); and BLAPTM (Henkel Kilandit GmbH auf Aktien, Duesseldorf, Germany.
- proteases are described in WO95/23221, WO 92/21760, and U.S. Pat. Nos.
- any suitable lipase finds use in the present invention.
- Suitable lipases include, but are not limited to those of bacterial or fungal origin. Chemically or genetically modified mutants are encompassed by the present invention. Examples of useful lipases include Humicola lanuginosa lipase (See e.g., EP 258 068, and EP 305 216), Rhizomucor miehei lipase (See e.g., EP 238 023), Candida lipase, such as C.
- antarctica lipase e.g., the C. antarctica lipase A or B; See e.g., EP 214 761
- a Pseudomonas lipase such as P. alcaligenes and P. pseudoalcaligenes lipase (See e.g., EP 218 272), P. cepacia lipase (See e.g., EP 331 376), P. stutzeri lipase (See e.g., GB 1,372,034), P. fluorescens lipase, Bacillus lipase (e.g., B. subtilis lipase [Dartois et al., Biochem.
- Bacillus lipase e.g., B. subtilis lipase [Dartois et al., Biochem.
- cloned lipases find use in some embodiments of the present invention, including but not limited to Penicillium camembertii lipase (See, Yamaguchi et al., Gene 103:61-67 [1991]), Geotricum candidum lipase (See, Schimn ⁇ n et ai, J.
- Rhizopus lipases such as R. delemar lipase (See, Hass et al., Gene 109: 117-113 [1991]), a R. niveus lipase (Kugimiya et al., Biosci. Biotech. Biochem. 56:716-719 [1992]) and R. oryz ⁇ e lipase.
- cutinases Other types of lipolytic enzymes such as cutinases also find use in some embodiments of the present invention, including but not limited to the cutinase derived from Pseudomonas mendocina (See, WO 88/09367), and the cutinase derived from Fusarium solanipisi (See, WO 90/09446).
- lipases include commercially available lipases such as Ml LIPASETM, LUMA FASTTM, and LIPOMAXTM (Genencor); LIPOLASE® and LIPOLASE® ULTRA (Novozymes); and LIPASE PTM "Amano” (Amano Pharmaceutical Co. Ltd., Japan).
- the cleaning compositions of the present invention further comprise lipases at a level from about 0.00001 % to about 10% of additional lipase by weight of the composition and the balance of cleaning adjunct materials by weight of composition.
- the cleaning compositions of the present invention also comprise, lipases at a level of about 0.0001 % to about 10%, about 0.001% to about 5%, about 0.001% to about 2%, about 0.005% to about 0.5% lipase by weight of the composition.
- amylase alpha and/or beta
- suitable amylases include, but are not limited to those of bacterial or fungal origin. Chemically or genetically modified mutants are included in some embodiments.
- Amylases that find use in the present invention include, but are not limited to ⁇ - amylases obtained from fi. licheniformis (See e.g., GB 1,296,839).
- Commercially available amylases that find use in the present invention include, but are not limited to DURAMYL®, TERM AM YL®, FUNGAM YL® and BANTM (Novozymes) and RAPIDASE® and MAXAMYL® P (Genencor).
- the cleaning compositions of the present invention further comprise amylases at a level from about 0.00001 % to about 10% of additional amylase by weight of the composition and the balance of cleaning adjunct materials by weight of composition.
- the cleaning compositions of the present invention also comprise, amylases at a level of about 0.0001 % to about 10%, about 0.001% to about 5%, about 0.001% to about 2%, about 0.005% to about 0.5% amylase by weight of the composition.
- any suitable cellulase finds used in the cleaning compositions of the present invention. Suitable cellulases include, but are not limited to those of bacterial or fungal origin.
- Suitable cellulases include, but are not limited to Humicola insolens cellulases (See e.g., U.S. Pat. No. 4,435,307). Especially suitable cellulases are the cellulases having color care benefits (See e.g., EP 0 495 257). Commercially available cellulases that find use in the present include, but are not limited to CELLUZYME® (Novozymes), and KAC-500(B)TM (Kao Corporation).
- cellulases are incorporated as portions or fragments of mature wild-type or variant cellulases, wherein a portion of the N-terminus is deleted (See e.g., U.S. Pat. No .5,874,276).
- the cleaning compositions of the present invention further comprise cellulases at a level from about 0.00001 % to about 10% of additional cellulase by weight of the composition and the balance of cleaning adjunct materials by weight of composition.
- the cleaning compositions of the present invention also comprise cellulases at a level of about 0.0001% to about 10%, about 0.001% to about 5%, about 0.001% to about 2%, about 0.005% to about 0.5% cellulase by weight of the composition.
- mannanase suitable for use in detergent compositions also finds use in the present invention.
- Suitable mannanases include, but are not limited to those of bacterial or fungal origin.
- the cleaning compositions of the present invention further comprise mannanases at a level from about 0.00001 % to about 10% of additional mannanase by weight of the composition and the balance of cleaning adjunct materials by weight of composition.
- the cleaning compositions of the present invention also comprise, mannanases at a level of about 0.0001 % to about 10%, about 0.001% to about 5%, about 0.001% to about 2%, about 0.005% to about 0.5% mannanase by weight of the composition.
- peroxidases are used in combination with hydrogen peroxide or a source thereof (e.g., a percarbonate, perborate or persulfate) in the compositions of the present invention.
- oxidases are used in combination with oxygen.
- Both types of enzymes are used for "solution bleaching" (i.e., to prevent transfer of a textile dye from a dyed fabric to another fabric when the fabrics are washed together in a wash liquor), preferably together with an enhancing agent (See e.g., WO 94/12621 and WO 95/01426).
- Suitable peroxidases/oxidases include, but are not limited to those of plant, bacterial or fungal origin. Chemically or genetically modified mutants are included in some embodiments.
- the cleaning compositions of the present invention further comprise peroxidase and/or oxidase enzymes at a level from about 0.00001% to about 10% of additional peroxidase and/or oxidase by weight of the composition and the balance of cleaning adjunct materials by weight of composition.
- the cleaning compositions of the present invention also comprise peroxidase and/or oxidase enzymes at a level of about 0.0001% to about
- additional enzymes find use, including but not limited to perhydrolases (See e.g., WO 05/056782).
- mixtures of the above mentioned enzymes are encompassed herein, in particular one or more additional protease, amylase, lipase, mannanase, and/or at least one cellulase. Indeed, it is contemplated that various mixtures of these enzymes will find use in the present invention.
- the varying levels of the variant protease(s) and one or more additional enzymes may both independently range to about 10%, the balance of the cleaning composition being cleaning adjunct materials. The specific selection of cleaning adjunct materials are readily made by considering the surface, item, or fabric to be cleaned, and the desired form of the composition for the cleaning conditions during use (e.g., through the wash detergent use).
- cleaning adjunct materials include, but are not limited to, surfactants, builders, bleaches, bleach activators, bleach catalysts, other enzymes, enzyme stabilizing systems, chelants, optical brighteners, soil release polymers, dye transfer agents, dispersants, suds suppressors, dyes, perfumes, colorants, filler salts, hydrotropes, photoactivators, fluorescers, fabric conditioners, hydrolyzable surfactants, preservatives, anti-oxidants, anti-shrinkage agents, anti-wrinkle agents, germicides, fungicides, color speckles, silvercare, anti-tarnish and/or anti-corrosion agents, alkalinity sources, solubilizing agents, carriers, processing aids, pigments, and pH control agents (See e.g., U.S. Pat. Nos. 6,610,642, 6,605,458, 5,705,464, 5,710,115, 5,698,504, 5,695,679, 5,686,014 and
- the cleaning compositions of the present invention are formulated as compositions suitable for use in laundry machine washing method(s)
- the compositions of the present invention preferably contain at least one surfactant and at least one builder compound, as well as one or more cleaning adjunct materials preferably selected from organic polymeric compounds, bleaching agents, additional enzymes, suds suppressors, dispersants, lime-soap dispersants, soil suspension and anti-redeposition agents and corrosion inhibitors.
- laundry compositions also contain softening agents (i.e., as additional cleaning adjunct materials).
- the compositions of the present invention also find use detergent additive products in solid or liquid form. Such additive products are intended to supplement and/or boost the performance of conventional detergent compositions and can be added at any stage of the cleaning process.
- the density of the laundry detergent compositions herein ranges from about 400 to about 1200 g/liter, while in other embodiments, it ranges from about 500 to about 950 g/liter of composition measured at 20°C.
- various cleaning compositions such as those provided in U. S, Pat. No.
- the compositions comprising at least one variant protease of the present invention is a compact granular fabric cleaning composition, while in other embodiments, the composition is a granular fabric cleaning composition useful in the laundering of colored fabrics, in further embodiments, the composition is a granular fabric cleaning composition which provides softening through the wash capacity, in additional embodiments, the composition is a heavy duty liquid fabric cleaning composition.
- the compositions comprising at least one variant protease of the present invention are fabric cleaning compositions such as those described in U.S. Pat. Nos. 6,610,642 and 6,376,450.
- the variant proteases of the present invention find use in granular laundry detergent compositions of particular utility under European or Japanese washing conditions (See e.g., U.S. Pat. No. 6,610,642).
- the cleaning compositions of the present invention are formulated into any suitable form and prepared by any process chosen by the formulator, non-limiting examples of which are described in U.S. Pat. Nos. 5,879,584, 5,691,297, 5,574,005, 5,569,645, 5,565,422, 5,516,448, 5,489,392, and 5,486,303, all of which are incorporated herein by reference.
- the pH of such composition is adjusted via the addition of a material such as monoethanolamine or an acidic material such as HCl.
- adjuncts illustrated hereinafter are suitable for use in the instant cleaning compositions.
- these adjuncts are incorporated for example, to assist or enhance cleaning performance, for treatment of the substrate to be cleaned, or to modify the aesthetics of the cleaning composition as is the case with perfumes, colorants, dyes or the like. It is understood that such adjuncts are in addition to the variant proteases of the present invention. The precise nature of these additional components, and levels of incorporation thereof, will depend on the physical form of the composition and the nature of the cleaning operation for which it is to be used.
- Suitable adjunct materials include, but are not limited to, surfactants, builders, chelating agents, dye transfer inhibiting agents, deposition aids, dispersants, additional enzymes, and enzyme stabilizers, catalytic materials, bleach activators, bleach boosters, hydrogen peroxide, sources of hydrogen peroxide, preformed peracids, polymeric dispersing agents, clay soil removal/anti-redeposition agents, brighteners, suds suppressors, dyes, perfumes, structure elasticizing agents, fabric softeners, carriers, hydrotropes, processing aids and/or pigments.
- suitable examples of such other adjuncts and levels of use are found in U.S. Patent Nos. 5,576,282, 6,306,812, and 6,326,348, that are incorporated by reference.
- the aforementioned adjunct ingredients may constitute the balance of the cleaning compositions of the present invention.
- the cleaning compositions according to the present invention comprise a surfactant or surfactant system wherein the surfactant is selected from nonionic surfactants, anionic surfactants, cationic surfactants, ampho lytic surfactants, zwitterionic surfactants, semi-polar nonionic surfactants and mixtures thereof.
- the cleaning compositions of the present invention comprise one or more detergent builders or builder systems.
- Builders include, but are not limited to, the alkali metal, ammonium and alkanolammonium salts of polyphosphates, alkali metal silicates, alkaline earth and alkali metal carbonates, aluminosilicate builders polycarboxylate compounds, ether hydroxypolycarboxylates, copolymers of maleic anhydride with ethylene or vinyl methyl ether, 1, 3, 5-trihydroxy benzene-2, 4, 6-trisulphonic acid, and carboxymethyloxysuccinic acid, the various alkali metal, ammonium and substituted ammonium salts of polyacetic acids such as ethylenediamine tetraacetic acid and nitrilotriacetic acid, as well as polycarboxylates such as mellitic acid, succinic acid, citric acid, oxydisuccinic acid, polymaleic acid, benzene 1,3,5-tric
- the cleaning compositions herein contain a chelating agent. Suitable chelating agents include copper, iron and/or manganese chelating agents and mixtures thereof.
- the cleaning compositions provided herein contain a deposition aid. Suitable deposition aids include, polyethylene glycol, polypropylene glycol, polycarboxylate, soil release polymers such as polytelephthalic acid, clays such as Kaolinite, montmorillonite, atapulgite, illite, bentonite, halloysite, and mixtures thereof.
- the cleaning compositions of the present invention also include one or more dye transfer inhibiting agents.
- Suitable polymeric dye transfer inhibiting agents include, but are not limited to, polyvinylpyrrolidone polymers, polyamine N-oxide polymers, copolymers of N-vinylpyrrolidone and N-vinylimidazole, polyvinyloxazolidones and polyvinylimidazoles or mixtures thereof.
- the cleaning compositions of the present invention also contain dispersants.
- Suitable water-soluble organic materials include the homo- or co-polymeric acids or their salts, in which the polycarboxylic acid comprises at least two carboxyl radicals separated from each other by not more than two carbon atoms.
- the cleaning compositions comprise one or more detergent enzymes which provide cleaning performance and/or fabric care benefits.
- suitable enzymes include, but are not limited to, hemicellulases, peroxidases, proteases, cellulases, xylanases, lipases, phospholipases, esterases, cutinases, pectinases, keratinases, reductases, oxidases, phenol oxidases, lipoxygenases, ligninases, pullulanases, tannases, pentosanases, malanases, ⁇ - glucanases, arabinosidases, hyaluronidase, chondroitinase, laccase, and amylases, or mixtures thereof.
- a typical combination is cocktail of conventional applicable enzymes including at least one protease, at least one lipase, at least one cutinase, and/or at least one cellulase in conjunction with
- the enzymes used in the cleaning compositions are stabilized any suitable technique.
- the enzymes employed herein are stabilized by the presence of water-soluble sources of calcium and/or magnesium ions in the finished compositions that provide such ions to the enzymes.
- the cleaning compositions of the present invention include catalytic metal complexes.
- One type of metal-containing bleach catalyst is a catalyst system comprising a transition metal cation of defined bleach catalytic activity, such as copper, iron, titanium, ruthenium, tungsten, molybdenum, or manganese cations, an auxiliary metal cation having little or no bleach catalytic activity, such as zinc or aluminum cations, and a sequestrate having defined stability constants for the catalytic and auxiliary metal cations, particularly ethylenediaminetetraacetic acid, ethylenediaminetetra (methylenephosphonic acid) and water-soluble salts thereof.
- a transition metal cation of defined bleach catalytic activity such as copper, iron, titanium, ruthenium, tungsten, molybdenum, or manganese cations
- an auxiliary metal cation having little or no bleach catalytic activity such as zinc or aluminum cations
- a sequestrate having defined stability constants for the catalytic and auxiliary metal cations, particularly ethylenediaminetetraace
- compositions herein are catalyzed by means of a manganese compound.
- a manganese compound Such compounds and levels of use are well known in the art and include, for example, the manganese-based catalysts disclosed in U.S. Pat. No. 5,576,282.
- cobalt bleach catalysts useful herein are known, and are described, for example, in U.S. Pat. Nos. 5,597,936, and 5,595,967.
- cobalt bleach catalysts useful herein are known, and are described, for example, in U.S. Pat. Nos. 5,597,936, and 5,595,967.
- Such cobalt catalysts are readily prepared by known procedures, such as taught for example in U.S. Pat. Nos. 5,597,936, and 5,595,967.
- the compositions provided herein also suitably include a transition metal complex of a macropolycyclic rigid ligand (i.e., "MRL").
- MRL macropolycyclic rigid ligand
- the compositions and cleaning processes herein are adjustable, to provide on the order of at least one part per hundred million of the active MRL species in the aqueous washing medium, and will preferably provide from about 0.005 ppm to about 25 ppm, more preferably from about 0.05 ppm to about 10 ppm, and most preferably from about 0.1 ppm to about 5 ppm, of the MRL in the wash liquor.
- Preferred transition-metals in the instant transition- metal bleach catalyst include manganese, iron and chromium.
- Preferred MRLs herein are a special type of ultra-rigid ligand that is cross-bridged such as 5,12-diethyl-l,5,8,12- tetraazabicyclo[6.6.2]hexadecane.
- Suitable transition metal MRLs are readily prepared by known procedures, such as taught for example in WO 00/332601, and U.S. Pat. No.6,225,464.
- the cleaning compositions of the present invention are formulated into any suitable form and prepared by any process chosen by the formulator, non-limiting examples of which are described in U.S. Pat. Nos. 5,879,584, 5,691,297, 5,574,005, 5,569,645, 5,516,448, 5,489,392, and 5,486,303, all of which are incorporated herein by reference.
- the cleaning compositions disclosed herein of find use in cleaning a situs (e.g., a surface, dishware, or fabric).
- a situs e.g., a surface, dishware, or fabric.
- at least a portion of the situs is contacted with an embodiment of the present cleaning composition, in neat form or diluted in a wash liquor, and then the situs is optionally washed and/or rinsed.
- "washing" includes but is not limited to, scrubbing, and mechanical agitation.
- the cleaning compositions are typically employed at concentrations of from about 500 ppm to about 15,000 ppm in solution.
- the wash solvent is water
- the water temperature typically ranges from about 5°C to about 90°C and, when the situs comprises a fabric, the water to fabric mass ratio is typically from about 1 :1 to about 30:1.
- nucleic acids are written left to right in 5' to 3' orientation; amino acid sequences are written left to right in amino to carboxy orientation, respectively. It is to be understood that this invention is not limited to the particular methodology, protocols, and reagents described, as these may vary, depending upon the context they are used by those of skill in the art.
- proteolytic activity refers to a protein or peptide exhibiting the ability to hydrolyze peptides or substrates having peptide linkages.
- Many well known procedures exist for measuring proteolytic activity Kalisz, "Microbial Proteinases,” In: Fiechter (ed.), Advances in Biochemical Engineering/Biotechnology. [1988]).
- proteolytic activity may be ascertained by comparative assays which analyze the respective protease' s ability to hydrolyze a commercial substrate.
- Exemplary substrates useful in the analysis of protease or proteolytic activity include, but are not limited to di-methyl casein (Sigma C-9801), bovine collagen (Sigma C-9879), bovine elastin (Sigma E-1625), and bovine keratin (ICN Biomedical 902111). Colorimetric assays utilizing these substrates are well known in the art (See e.g., WO 99/34011; and U.S. Pat. No.
- the pNA assay (See e.g., Del Mar et al., Anal. Biochem., 99:316-320 [1979]) also finds use in determining the active enzyme concentration for fractions collected during gradient elution. This assay measures the rate at which p- nitroaniline is released as the enzyme hydrolyzes the soluble synthetic substrate, succinyl-alanine- alanine -pro line-phenylalanine-p-nitroanilide (sAAPF-pNA). The rate of production of yellow color from the hydrolysis reaction is measured at 410 nm on a spectrophotometer and is proportional to the active enzyme concentration.
- the genus Bacillus includes all species within the genus "Bacillus,” as known to those of skill in the art, including but not limited to B. subtilis, B. licheniformis, B. lentus, B. brevis, B. stearothermophilus, B. alkalophilus, B. amyloliquefaciens, B. clausii, B. halodurans, B. megaterium, B. coagulans, B. circulans, B. lautus, and B. thuringiensis .
- the genus Bacillus continues to undergo taxonomical reorganization.
- the genus include species that have been reclassified, including but not limited to such organisms as B. stearothermophilus, which is now named "Geobacillus stearothermophilus.”
- the production of resistant endospores in the presence of oxygen is considered the defining feature of the genus Bacillus, although this characteristic also applies to the recently named Alicyclobacillus, Amphibacillus, Aneurinibacillus, Anoxybacillus, Brevibacillus, Filobacillus, Gracilibacillus, Halobacillus, Paenibacillus, Salibacillus, Thermobacillus, Ureibacillus, and Virgibacillus .
- polynucleotide and “nucleic acid”, used interchangeably herein, refer to a polymeric form of nucleotides of any length, either ribonucleotides or deoxyribonucleo tides. These terms include, but are not limited to, a single-, double- or triple-stranded DNA, genomic DNA, cDNA, RNA, DNA-RNA hybrid, or a polymer comprising purine and pyrimidine bases, or other natural, chemically, biochemically modified, non-natural or derivatized nucleotide bases.
- polynucleotides genes, gene fragments, chromosomal fragments, ESTs, exons, introns, mRNA, tRNA, rRNA, ribozymes, cDNA, recombinant polynucleotides, branched polynucleotides, plasmids, vectors, isolated DNA of any sequence, isolated RNA of any sequence, nucleic acid probes, and primers.
- polynucleotides comprise modified nucleotides, such as methylated nucleotides and nucleotide analogs, uracyl, other sugars and linking groups such as fluororibose and thioate, and nucleotide branches.
- the sequence of nucleotides is interrupted by non-nucleotide components.
- DNA construct and "transforming DNA” are used interchangeably to refer to DNA used to introduce sequences into a host cell or organism.
- the DNA may be generated in vitro by PCR or any other suitable technique(s) known to those in the art.
- the DNA construct comprises a sequence of interest (e.g., as an incoming sequence).
- the sequence is operably linked to additional elements such as control elements (e.g., promoters, etc.).
- the DNA construct may further comprise a selectable marker. It may further comprise an incoming sequence flanked by homology boxes.
- the transforming DNA comprises other non-homologous sequences, added to the ends (e.g., staffer sequences or flanks).
- the ends of the incoming sequence are closed such that the transforming DNA forms a closed circle.
- the transforming sequences may be wild-type, mutant or modified.
- the DNA construct comprises sequences homologous to the host cell chromosome. In other embodiments, the DNA construct comprises nonhomologous sequences.
- expression cassette and "expression vector” refer to nucleic acid constructs generated recombinantly or synthetically, with a series of specified nucleic acid elements that permit transcription of a particular nucleic acid in a target cell.
- the recombinant expression cassette can be incorporated into a plasmid, chromosome, mitochondrial DNA, plastid DNA, virus, or nucleic acid fragment.
- the recombinant expression cassette portion of an expression vector includes, among other sequences, a nucleic acid sequence to be transcribed and a promoter.
- expression vectors have the ability to incorporate and express heterologous DNA fragments in a host cell.
- the term "vector” refers to a polynucleotide construct designed to introduce nucleic acids into one or more cell types.
- Vectors include cloning vectors, expression vectors, shuttle vectors, plasmids, cassettes and the like.
- the polynucleotide construct comprises a DNA sequence encoding the protease (e.g., precursor or mature protease) that is operably linked to a suitable prosequence (e.g., secretory, etc.) capable of effecting the expression of the DNA in a suitable host.
- plasmid refers to a circular double-stranded (ds) DNA construct used as a cloning vector, and which forms an extrachromosomal self-replicating genetic element in some eukaryotes or prokaryotes, or integrates into the host chromosome.
- the term "introduced” refers to any method suitable for transferring the nucleic acid sequence into the cell. Such methods for introduction include but are not limited to protoplast fusion, transfection, transformation, conjugation, and transduction (See e.g., Ferrari et al., “Genetics, " in Hardwood et al, (eds.), Bacillus. Plenum Publishing Corp., pages 57-72, [1989]).
- the terms “transformed” and “stably transformed” refers to a cell that has a non-native (heterologous) polynucleotide sequence integrated into its genome or as an episomal plasmid that is maintained for at least two generations.
- a nucleic acid is "operably linked" when it is placed into a functional relationship with another nucleic acid sequence.
- DNA encoding a secretory leader i.e., a signal peptide
- a promoter or enhancer is operably linked to a coding sequence if it affects the transcription of the sequence
- a ribosome binding site is operably linked to a coding sequence if it is positioned so as to facilitate translation.
- operably linked means that the DNA sequences being linked are contiguous, and, in the case of a secretory leader, contiguous and in reading phase. However, enhancers do not have to be contiguous. Linking is accomplished by ligation at convenient restriction sites. If such sites do not exist, the synthetic oligonucleotide adaptors or linkers are used in accordance with conventional practice.
- gene refers to a polynucleotide (e.g., a DNA segment), that encodes a polypeptide and includes regions preceding and following the coding regions as well as intervening sequences (introns) between individual coding segments (exons).
- homologous genes refers to a pair of genes from different, but usually related species, which correspond to each other and which are identical or very similar to each other. The term encompasses genes that are separated by speciation (i.e., the development of new species) (e.g., orthologous genes), as well as genes that have been separated by genetic duplication (e.g., paralogous genes).
- ortholog and “orthologous genes” refer to genes in different species that have evolved from a common ancestral gene (i.e., a homologous gene) by speciation. Typically, orthologs retain the same function during the course of evolution. Identification of orthologs finds use in the reliable prediction of gene function in newly sequenced genomes.
- paralog and “paralogous genes” refer to genes that are related by duplication within a genome. While orthologs retain the same function through the course of evolution, paralogs evolve new functions, even though some functions are often related to the original one. Examples of paralogous genes include, but are not limited to genes encoding trypsin, chymotrypsin, elastase, and thrombin, which are all serine proteinases and occur together within the same species.
- proteins are defined as having a common "fold” if they have the same major secondary structures in the same arrangement and with the same topological connections. Different proteins with the same fold often have peripheral elements of secondary structure and turn regions that differ in size and conformation. In some cases, these differing peripheral regions may comprise half the structure. Proteins placed together in the same fold category do not necessarily have a common evolutionary origin (e.g., structural similarities arising from the physics and chemistry of proteins favoring certain packing arrangements and chain topologies).
- homology refers to sequence similarity or identity, with identity being preferred. This homology is determined using standard techniques known in the art (See e.g., Smith and Waterman, Adv. Appl. Math., 2:482 [1981]; Needleman and Wunsch, J. MoI. Biol., 48:443
- an "analogous sequence” is one wherein the function of the gene is essentially the same as the gene based on the wild-type subtilisin protease. Additionally, analogous genes include at least about 45%, about 50%, about 55%, about 60%, about 65%, about 70%, about 75%, about 80%, about 85%, about 90%, about 95%, about 97%, about 98%, about 99%, or about 100% sequence identity with the sequence of the wild-type subtilisin protease. Alternately, analogous sequences have an alignment of between about 70 to about 100% of the genes found in the B. amyloliquefaciens subtilisin protease region. In additional embodiments more than one of the above properties applies to the sequence. Analogous sequences are determined by known methods of sequence alignment. A commonly used alignment method is BLAST, although as indicated above and below, there are other methods that also find use in aligning sequences.
- PILEUP creates a multiple sequence alignment from a group of related sequences using progressive, pair-wise alignments. It can also plot a tree showing the clustering relationships used to create the alignment. PILEUP uses a simplification of the progressive alignment method of Feng and Doolittle (Feng and Doolittle, J. MoI. Evol., 35:351- 360 [1987]). The method is similar to that described by Higgins and Sharp (Higgins and Sharp, CABIOS 5: 151-153 [1989]).
- Useful PILEUP parameters including a default gap weight of 3.00, a default gap length weight of 0.10, and weighted end gaps.
- Another example of a useful algorithm is the BLAST algorithm, described by Altschul et al.,
- the HSP S and HSP S2 parameters are dynamic values and are established by the program itself depending upon the composition of the particular sequence and composition of the particular database against which the sequence of interest is being searched. However, the values may be adjusted to increase sensitivity.
- a % amino acid sequence identity value is determined by the number of matching identical residues divided by the total number of residues of the "longer" sequence in the aligned region. The "longer" sequence is the one having the most actual residues in the aligned region (gaps introduced by WU- Blast-2 to maximize the alignment score are ignored).
- percent (%) nucleic acid sequence identity is defined as the percentage of nucleotide residues in a candidate sequence that are identical with the nucleotide residues of the starting sequence (i.e., the sequence of interest).
- a preferred method utilizes the BLASTN module of WU- BLAST-2 set to the default parameters, with overlap span and overlap fraction set to 1 and 0.125, respectively.
- recombinant includes reference to a cell or vector, that has been modified by the introduction of a heterologous nucleic acid sequence or that the cell is derived from a cell so modified.
- recombinant cells express genes that are not found in identical form within the native (non-recombinant) form of the cell or express native genes that are otherwise abnormally expressed, under expressed or not expressed at all as a result of deliberate human intervention.
- “Recombination,” “recombining,” and generating a “recombined” nucleic acid are generally the assembly of two or more nucleic acid fragments wherein the assembly gives rise to a chimeric gene.
- mutant DNA sequences are generated with site saturation mutagenesis in at least one codon. In another preferred embodiment, site saturation mutagenesis is performed for two or more codons. In a further embodiment, mutant DNA sequences have more than about 50%, more than about 55%, more than about 60%, more than about 65%, more than about 70%, more than about 75%, more than about 80%, more than about 85%, more than about 90%, more than about 95%, or more than about 98% homology with the wild-type sequence. In alternative embodiments, mutant DNA is generated in vivo using any known mutagenic procedure such as, for example, radiation, nitrosoguanidine and the like. The desired DNA sequence is then isolated and used in the methods provided herein.
- amplification and “gene amplification” refer to a process by which specific DNA sequences are disproportionately replicated such that the amplified gene becomes present in a higher copy number than was initially present in the genome.
- selection of cells by growth in the presence of a drug results in the amplification of either the endogenous gene encoding the gene product required for growth in the presence of the drug or by amplification of exogenous (i.e., input) sequences encoding this gene product, or both.
- a drug e.g., an inhibitor of an inhibitable enzyme
- Template specificity is here distinguished from fidelity of replication (i.e., synthesis of the proper polynucleotide sequence) and nucleotide (ribo- or deoxyribo-) specificity. Template specificity is frequently described in terms of “target” specificity. Target sequences are “targets” in the sense that they are sought to be sorted out from other nucleic acid. Amplification techniques have been designed primarily for this sorting out.
- the term "primer” refers to an oligonucleotide, whether occurring naturally as in a purified restriction digest or produced synthetically, which is capable of acting as a point of initiation of synthesis when placed under conditions in which synthesis of a primer extension product which is complementary to a nucleic acid strand is induced, (i.e., in the presence of nucleotides and an inducing agent such as DNA polymerase and at a suitable temperature and pH).
- the primer is preferably single stranded for maximum efficiency in amplification, but may alternatively be double stranded. If double stranded, the primer is first treated to separate its strands before being used to prepare extension products.
- the primer is an oligodeoxyribonucleotide.
- the primer must be sufficiently long to prime the synthesis of extension products in the presence of the inducing agent. The exact lengths of the primers will depend on many factors, including temperature, source of primer and the use of the method.
- probe refers to an oligonucleotide (i.e., a sequence of nucleotides), whether occurring naturally as in a purified restriction digest or produced synthetically, recombinantly or by PCR amplification, which is capable of hybridizing to another oligonucleotide of interest.
- a probe may be single-stranded or double-stranded. Probes are useful in the detection, identification and isolation of particular gene sequences.
- any probe used in the present invention will be labeled with any "reporter molecule,” so that is detectable in any detection system, including, but not limited to enzyme (e.g., ELISA, as well as enzyme-based histochemical assays), fluorescent, radioactive, and luminescent systems. It is not intended that the present invention be limited to any particular detection system or label.
- the term "target,” when used in reference to the polymerase chain reaction refers to the region of nucleic acid bounded by the primers used for polymerase chain reaction. Thus, the "target” is sought to be sorted out from other nucleic acid sequences.
- a “segment” is defined as a region of nucleic acid within the target sequence.
- PCR polymerase chain reaction
- the mixture is denatured and the primers then annealed to their complementary sequences within the target molecule.
- the primers are extended with a polymerase so as to form a new pair of complementary strands.
- the steps of denaturation, primer annealing and polymerase extension can be repeated many times (i.e., denaturation, annealing and extension constitute one "cycle”; there can be numerous "cycles") to obtain a high concentration of an amplified segment of the desired target sequence.
- the length of the amplified segment of the desired target sequence is determined by the relative positions of the primers with respect to each other, and therefore, this length is a controllable parameter.
- PCR polymerase chain reaction
- amplification reagents refers to those reagents (deoxyribonucleotide triphosphates, buffer, etc.), needed for amplification except for primers, nucleic acid template and the amplification enzyme.
- amplification reagents along with other reaction components are placed and contained in a reaction vessel (test tube, microwell, etc.).
- RT-PCR refers to the replication and amplification of RNA sequences.
- reverse transcription is coupled to PCR, most often using a one enzyme procedure in which a thermostable polymerase is employed, as described in U.S. Patent No. 5,322,770, herein incorporated by reference.
- the RNA template is converted to cDNA due to the reverse transcriptase activity of the polymerase, and then amplified using the polymerizing activity of the polymerase (i.e., as in other PCR methods).
- the terms “restriction endonucleases” and “restriction enzymes” refer to bacterial enzymes, each of which cut double-stranded DNA at or near a specific nucleotide sequence.
- restriction site refers to a nucleotide sequence recognized and cleaved by a given restriction endonuclease and is frequently the site for insertion of DNA fragments.
- restriction sites are engineered into the selective marker and into 5' and 3' ends of the DNA construct.
- “Homologous recombination” means the exchange of DNA fragments between two DNA molecules or paired chromosomes at the site of identical or nearly identical nucleotide sequences. In a preferred embodiment, chromosomal integration is homologous recombination.
- amino acid refers to peptide or protein sequences or portions thereof.
- protein refers to peptide or protein sequences or portions thereof.
- polypeptide are used interchangeably.
- protein of interest and “polypeptide of interest” refer to a protein/polypeptide that is desired and/or being assessed.
- the protein of interest is expressed intracellularly, while in other embodiments, it is a secreted polypeptide.
- these enzymes include the serine proteases of the present invention.
- the protein of interest is a secreted polypeptide which is fused to a signal peptide (i.e., an amino-terminal extension on a protein to be secreted). Nearly all secreted proteins use an amino- terminal protein extension which plays a crucial role in the targeting to and translocation of precursor proteins across the membrane. This extension is proteolytically removed by a signal peptidase during or immediately following membrane transfer.
- a polynucleotide is said to "encode" an RNA or a polypeptide if, in its native state or when manipulated by methods known to those of skill in the art, it can be transcribed and/or translated to produce the RNA, the polypeptide or a fragment thereof.
- the anti-sense strand of such a nucleic acid is also said to encode the sequences.
- a DNA can be transcribed by an RNA polymerase to produce RNA, but an RNA can be reverse transcribed by reverse transcriptase to produce a DNA.
- a DNA can encode a RNA and vice versa.
- “Host strain” or “host cell” refers to a suitable host for an expression vector comprising DNA according to the present invention.
- An enzyme is "overexpressed" in a host cell if the enzyme is expressed in the cell at a higher level that the level at which it is expressed in a corresponding wild-type cell.
- protein and “polypeptide” are used interchangeability herein.
- the 3-letter code for amino acids as defined in conformity with the IUPAC-IUB Joint Commission on Biochemical Nomenclature (JCBN) is used through out this disclosure. It is also understood that a polypeptide may be coded for by more than one nucleotide sequence due to the degeneracy of the genetic code.
- a "prosequence” is an amino acid sequence between the signal sequence and mature protease that is necessary for the secretion of the protease. Cleavage of the pro sequence results in a mature active protease.
- signal sequence refers to any sequence of nucleotides and/or amino acids which may participate in the secretion of the mature or precursor forms of the protein.
- This definition of signal sequence is a functional one, meant to include all those amino acid sequences encoded by the N-terminal portion of the protein gene, which participate in the effectuation of the secretion of protein. They are often, but not universally, bound to the N-terminal portion of a protein or to the N-terminal portion of a precursor protein.
- the signal sequence may be endogenous or exogenous.
- the signal sequence may be that normally associated with the protein (e.g., protease), or may be from a gene encoding another secreted protein.
- One exemplary exogenous signal sequence comprises the first seven amino acid residues of the signal sequence from Bacillus subtilis subtilisin fused to the remainder of the signal sequence of the subtilisin from Bacillus lentus (ATCC 21536).
- hybrid signal sequence refers to signal sequences in which part of sequence is obtained from the expression host fused to the signal sequence of the gene to be expressed. In some embodiments, synthetic sequences are utilized.
- mature form of a protein or peptide refers to the final functional form of the protein or peptide.
- mature form of the BPN' subtilisin protease of the present invention includes at least the amino acid sequence identical to residue positions 1-275 of SEQ ID NO:2, as set forth below:
- precursor form of a protein or peptide refers to a mature form of the protein having a prosequence operably linked to the amino or carbonyl terminus of the protein.
- the precursor may also have a "signal" sequence operably linked, to the amino terminus of the prosequence.
- the precursor may also have additional polynucleotides that are involved in post-translational activity (e.g., polynucleotides cleaved therefrom to leave the mature form of a protein or peptide).
- “Naturally occurring enzyme” refers to an enzyme having the unmodified amino acid sequence identical to that found in nature. Naturally occurring enzymes include native enzymes, those enzymes naturally expressed or found in the particular microorganism.
- derived from and “obtained from” refer to not only a protease produced or producible by a strain of the organism in question, but also a protease encoded by a DNA sequence isolated from such strain and produced in a host organism containing such DNA sequence.
- the term refers to a protease which is encoded by a DNA sequence of synthetic and/or cDNA origin and which has the identifying characteristics of the protease in question.
- a "derivative" within the scope of this definition generally retains the characteristic proteolytic activity observed in the wild-type, native or parent form to the extent that the derivative is useful for similar purposes as the wild-type, native or parent form.
- Functional derivatives of serine protease encompass naturally occurring, synthetically or recombinantly produced peptides or peptide fragments which have the general characteristics of the serine protease of the present invention.
- the term "functional derivative” refers to a derivative of a nucleic acid which has the functional characteristics of a nucleic acid which encodes serine protease.
- Functional derivatives of a nucleic acid which encode serine protease of the present invention encompass naturally occurring, synthetically or recombinantly produced nucleic acids or fragments and encode serine protease characteristic of the present invention.
- Wild type nucleic acid encoding serine proteases according to the invention include naturally occurring alleles and homologues based on the degeneracy of the genetic code known in the art.
- nucleic acids or polypeptide sequences refers to the residues in the two sequences that are the same when aligned for maximum correspondence, as measured using one of the following sequence comparison or analysis algorithms.
- optical alignment refers to the alignment giving the highest percent identity score.
- Percent sequence identity refers to the percentage of residues that are identical in the two sequences when the sequences are optimally aligned. Thus, 80% amino acid sequence identity means that 80% of the amino acids in two optimally aligned polypeptide sequences are identical.
- substantially identical in the context of two nucleic acids or polypeptides thus refers to a polynucleotide or polypeptide that comprising at least about 70% sequence identity, preferably at least about 75%, preferably at least about 80%, preferably at least about 85%, preferably at least about 90%, preferably at least about 95% , preferably at least about 97% , preferably at least about 98%, and preferably at least about 99% sequence identity as compared to a reference sequence using the programs or algorithms (e.g., BLAST, ALIGN, CLUSTAL) using standard parameters.
- One indication that two polypeptides are substantially identical is that the first polypeptide is immunologically cross-reactive with the second polypeptide.
- polypeptides that differ by conservative amino acid substitutions are immunologically cross -re active.
- a polypeptide is substantially identical to a second polypeptide, for example, where the two peptides differ only by a conservative substitution.
- Another indication that two nucleic acid sequences are substantially identical is that the two molecules hybridize to each other under stringent conditions (e.g., within a range of medium to high stringency).
- the phrase "equivalent,” in this context, refers to serine proteases enzymes that are encoded by a polynucleotide capable of hybridizing to the polynucleotide having the sequence as shown in SEQ ID NO:1, under conditions of medium to maximum stringency.
- an equivalent mature serine protease comprises at least about 70%, at least about 75%, at least about 80%, at least about 85%, at least about 90%, at least about 91 %, at least about 92%, at least about 93%, at least about 94%, at least about 95%, at least about 96%, at least about 97%, at least about 98%, and/or at least about 99% sequence identity to the mature subtilisin protease having the amino acid sequence of SEQ ID NO:2.
- isolated refers to a material that is removed from its original environment (e.g., the natural environment if it is naturally occurring).
- the material is said to be “purified” when it is present in a particular composition in a higher or lower concentration than exists in a naturally occurring or wild type organism or in combination with components not normally present upon expression from a naturally occurring or wild type organism.
- a naturally-occurring polynucleotide or polypeptide present in a living animal is not isolated, but the same polynucleotide or polypeptide, separated from some or all of the coexisting materials in the natural system, is isolated.
- such polynucleotides are part of a vector, and/or such polynucleotides or polypeptides are part of a composition, and still be isolated in that such vector or composition is not part of its natural environment.
- a nucleic acid or protein is said to be purified, for example, if it gives rise to essentially one band in an electrophoretic gel or blot.
- isolated when used in reference to a DNA sequence, refers to a DNA sequence that has been removed from its natural genetic milieu and is thus free of other extraneous or unwanted coding sequences, and is in a form suitable for use within genetically engineered protein production systems. Such isolated molecules are those that are separated from their natural environment and include cDNA and genomic clones. Isolated DNA molecules of the present invention are free of other genes with which they are ordinarily associated, but may include naturally occurring 5' and 3' untranslated regions such as promoters and terminators. The identification of associated regions will be evident to one of ordinary skill in the art (See e.g., Dynan and Tijan, Nature 316:774-78 [1985]).
- an isolated DNA sequence is alternatively referred to as "a cloned DNA sequence".
- isolated when used in reference to a protein, refers to a protein that is found in a condition other than its native environment. In a preferred form, the isolated protein is substantially free of other proteins, particularly other homologous proteins.
- An isolated protein is more than about 10% pure, preferably more than about 20% pure, and even more preferably more than about 30% pure, as determined by SDS-PAGE.
- combinatorial mutagenesis refers to methods in which libraries of variants of a starting sequence are generated. In these libraries, the variants contain one or several mutations chosen from a predefined set of mutations. In addition, the methods provide means to introduce random mutations which were not members of the predefined set of mutations. In some embodiments, the methods include those set forth in U.S. Patent Appln. Ser. No. 09/699.250, filed October 26, 2000, hereby incorporated by reference. In alternative embodiments, combinatorial mutagenesis methods encompass commercially available kits (e.g., QuikChange® Multisite, Stratagene, San Diego, CA).
- library of mutants refers to a population of cells which are identical in most of their genome but include different homologues of one or more genes. Such libraries can be used, for example, to identify genes or operons with improved traits.
- starting gene refers to a gene of interest that encodes a protein of interest that is to be improved and/or changed using the present invention.
- MSA multiple sequence alignment
- the terms "consensus sequence” and “canonical sequence” refer to an archetypical amino acid sequence against which all variants of a particular protein or sequence of interest are compared. The terms also refer to a sequence that sets forth the nucleotides that are most often present in a DNA sequence of interest. For each position of a gene, the consensus sequence gives the amino acid that is most abundant in that position in the MSA.
- Consensus mutation refers to a difference in the sequence of a starting gene and a consensus sequence. Consensus mutations are identified by comparing the sequences of the starting gene and the consensus sequence resulting from an MSA. In some embodiments, consensus mutations are introduced into the starting gene such that it becomes more similar to the consensus sequence. Consensus mutations also include amino acid changes that change an amino acid in a starting gene to an amino acid that is more frequently found in an MSA at that position relative to the frequency of that amino acid in the starting gene. Thus, the term consensus mutation comprises all single amino acid changes that replace an amino acid of the starting gene with an amino acid that is more abundant than the amino acid in the MSA. As used herein, the term “enhanced combinatorial consensus mutagenesis library” refers to a
- the enhanced CCM library that is designed and constructed based on screening and/or sequencing results from an earlier round of CCM mutagenesis and screening.
- the enhanced CCM library is based on the sequence of an initial hit resulting from an earlier round of CCM.
- the enhanced CCM is designed such that mutations that were frequently observed in initial hits from earlier rounds of mutagenesis and screening are favored. In some preferred embodiments, this is accomplished by omitting primers that encode performance-reducing mutations or by increasing the concentration of primers that encode performance-enhancing mutations relative to other primers that were used in earlier CCM libraries.
- performance -reducing mutations refer to mutations in the combinatorial consensus mutagenesis library that are less frequently found in hits resulting from screening as compared to an unscreened combinatorial consensus mutagenesis library.
- the screening process removes and/or reduces the abundance of variants that contain
- the term "functional assay” refers to an assay that provides an indication of a protein's activity.
- the term refers to assay systems in which a protein is analyzed for its ability to function in its usual capacity.
- a functional assay involves determining the effectiveness of the enzyme in catalyzing a reaction.
- target property refers to the property of the starting gene that is to be altered. It is not intended that the present invention be limited to any particular target property. However, in some preferred embodiments, the target property is the stability of a gene product (e.g., resistance to denaturation, proteolysis or other degradative factors), while in other embodiments, the level of production in a production host is altered. Indeed, it is contemplated that any property of a starting gene will find use in the present invention.
- nucleic acid refers to any characteristic or attribute of a nucleic acid that can be selected or detected.
- properties include, but are not limited to, a property affecting binding to a polypeptide, a property conferred on a cell comprising a particular nucleic acid, a property affecting gene transcription (e.g., promoter strength, promoter recognition, promoter regulation, enhancer function), a property affecting RNA processing (e.g., RNA splicing, RNA stability, RNA conformation, and post-transcriptional modification), a property affecting translation (e.g., level, regulation, binding of mRNA to ribosomal proteins, post-translational modification).
- a binding site for a transcription factor, polymerase, regulatory factor, etc., of a nucleic acid may be altered to produce desired characteristics or to identify undesirable characteristics.
- polypeptide or grammatical equivalents thereof in the context of a polypeptide (including proteins), as used herein, refer to any characteristic or attribute of a polypeptide that can be selected or detected. These properties include, but are not limited to oxidative stability, substrate specificity, catalytic activity, thermal stability, alkaline stability, pH activity profile, resistance to proteolytic degradation, K M , k ⁇ , k cat /kjyi ratio, protein folding, inducing an immune response, ability to bind to a ligand, ability to bind to a receptor, ability to be secreted, ability to be displayed on the surface of a cell, ability to oligomerize, ability to signal, ability to stimulate cell proliferation, ability to inhibit cell proliferation, ability to induce apoptosis, ability to be modified by phosphorylation or glycosylation, and/or ability to treat disease, etc.
- modified sequence and “modified genes” are used interchangeably herein to refer to a sequence that includes a deletion, insertion or interruption of naturally occurring nucleic acid sequence.
- the expression product of the modified sequence is a truncated protein (e.g., if the modification is a deletion or interruption of the sequence).
- the truncated protein retains biological activity.
- the expression product of the modified sequence is an elongated protein (e.g., modifications comprising an insertion into the nucleic acid sequence).
- an insertion leads to a truncated protein (e.g., when the insertion results in the formation of a stop codon).
- an insertion may result in either a truncated protein or an elongated protein as an expression product.
- mutant sequence and “mutant gene” are used interchangeably and refer to a sequence that has an alteration in at least one codon occurring in a host cell' s wild-type sequence.
- the expression product of the mutant sequence is a protein with an altered amino acid sequence relative to the wild-type.
- the expression product may have an altered functional capacity (e.g., enhanced enzymatic activity).
- mutagenic primer or “mutagenic oligonucleotide” (used interchangeably herein) are intended to refer to oligonucleotide compositions which correspond to a portion of the template sequence and which are capable of hybridizing thereto. With respect to mutagenic primers, the primer will not precisely match the template nucleic acid, the mismatch or mismatches in the primer being used to introduce the desired mutation into the nucleic acid library.
- non-mutagenic primer or “non-mutagenic oligonucleotide” refers to oligonucleotide compositions which will match precisely to the template nucleic acid. In one embodiment of the invention, only mutagenic primers are used.
- the primers are designed so that for at least one region at which a mutagenic primer has been included, there is also non-mutagenic primer included in the oligonucleotide mixture.
- the non- mutagenic primers provide the ability to obtain a specific level of non-mutant members within the nucleic acid library for a given residue.
- the methods of the invention employ mutagenic and non- mutagenic oligonucleotides which are generally between 10-50 bases in length, more preferably about 15-45 bases in length. However, it may be necessary to use primers that are either shorter than 10 bases or longer than 50 bases to obtain the mutagenesis result desired.
- corresponding mutagenic and non-mutagenic primers it is not necessary that the corresponding oligonucleotides be of identical length, but only that there is overlap in the region corresponding to the mutation to be added.
- Primers may be added in a pre-defined ratio according to the present invention. For example, if it is desired that the resulting library have a significant level of a certain specific mutation and a lesser amount of a different mutation at the same or different site, by adjusting the amount of primer added, it is possible to produce the desired biased library. Alternatively, by adding lesser or greater amounts of non-mutagenic primers, it is possible to adjust the frequency with which the corresponding mutation(s) are produced in the mutant nucleic acid library.
- the phrase "contiguous mutations” refers to mutations which are presented within the same oligonucleotide primer. For example, contiguous mutations may be adjacent or nearby each other, however, they will be introduced into the resulting mutant template nucleic acids by the same primer.
- wild-type sequence or “wild-type gene” are used interchangeably herein, to refer to a sequence that is native or naturally occurring in a host cell.
- the wild-type sequence refers to a sequence of interest that is the starting point of a protein engineering project (i.e., the "parent" sequence).
- the wild-type sequence may encode either a homologous or heterologous protein.
- a homologous protein is one the host cell would produce without intervention.
- a heterologous protein is one that the host cell would not produce but for the intervention.
- proteases that are similar to a wild-type subtilisin or a parent protease (e.g. , subtilisin) used as a starting point in protein engineering. These variants are similar to the wild-type or other parent in their function, but have mutations in their amino acid sequence that make them different in sequence from the wild-type or parent protease (e.g. , subtilisin).
- amino acid position numbers refer to those assigned to the mature Bacillus amyloliquefaciens subtilisin sequence of SEQ ID NO:2.
- the invention is not limited to the mutation of this particular subtilisin but extends to precursor proteases containing amino acid residues at positions which are "equivalent" to the particular identified residues in the Bacillus amyloliquefaciens subtilisin.
- modification refers to any change or alteration in an amino acid sequence. It is intended that the term encompass substitutions, deletions, insertions, and/or replacement of amino acid side chains in an amino acid sequence of interest (e.g., a subtilisin sequence). It is also intended that the term encompass chemical modification of an amino acid sequence of interest (e.g., a subtilisin sequence).
- oxidation stable refers to proteases of the present invention that retain a specified amount of enzymatic activity over a given period of time under conditions prevailing during the proteolytic, hydrolyzing, cleaning or other process of the invention, for example while exposed to or contacted with bleaching agents or oxidizing agents.
- the proteases retain at least about 50%, about 60%, about 70%, about 75%, about 80%, about 85%, about 90%, about 92%, about 95%, about 96%, about 97%, about 98%,or about 99% proteolytic activity after contact with a bleaching or oxidizing agent over a given time period, for example, at least about 1 minute, about 3 minutes, about 5 minutes, about 8 minutes, about 12 minutes, about 16 minutes, about 20 minutes, etc.
- the stability is measured as described in the Examples.
- chelator stable refers to proteases of the present invention that retain a specified amount of enzymatic activity over a given period of time under conditions prevailing during the proteolytic, hydrolyzing, cleaning or other process of the invention, for example while exposed to or contacted with chelating agents.
- the proteases retain at least about 50%, about 60%, about 70%, about 75%, about 80%, about 85%, about 90%, about 92%, about 95%, about 96%, about 97%, about 98%,or about 99% proteolytic activity after contact with a chelating agent over a given time period, for example, at least about 10 minutes, about 20 minutes, about 40 minutes, about 60 minutes, about 100 minutes, etc.
- the chelator stability is measured as described in the Examples.
- thermostability refers to proteases of the present invention that retain a specified amount of enzymatic activity after exposure to identified temperatures over a given period of time under conditions prevailing during the proteolytic, hydrolyzing, cleaning or other process of the invention, for example while exposed altered temperatures. Altered temperatures includes increased or decreased temperatures.
- the proteases retain at least about 50%, about 60%, about 70%, about 75%, about 80%, about 85%, about 90%, about 92%, about 95%, about 96%, about 97%, about 98%,or about 99% proteolytic activity after exposure to altered temperatures over a given time period, for example, at least about 60 minutes, about 120 minutes, about 180 minutes, about 240 minutes, about 300 minutes, etc.
- the thermostability is determined as described in the Examples.
- enhanced stability in the context of an oxidation, chelator, thermal and/or pH stable protease refers to a higher retained proteolytic activity over time as compared to other serine proteases (e.g., subtilisin proteases) and/or wild-type enzymes.
- serine proteases e.g., subtilisin proteases
- the term "diminished stability" in the context of an oxidation, chelator, thermal and/or pH stable protease refers to a lower retained proteolytic activity over time as compared to other serine proteases (e.g., subtilisin proteases) and/or wild-type enzymes.
- cleaning activity refers to the cleaning performance achieved by the protease under conditions prevailing during the proteolytic, hydrolyzing, cleaning or other process of the invention. In some embodiments, cleaning performance is determined by the application of various cleaning assays concerning enzyme sensitive stains, for example grass, blood, milk, or egg protein as determined by various chromatographic, spectrophotometric or other quantitative methodologies after subjection of the stains to standard wash conditions.
- Exemplary assays include, but are not limited to those described in WO 99/34011, and U.S. Pat. 6,605,458 (both of which are herein incorporated by reference), as well as those methods included in the Examples.
- cleaning effective amount refers to the quantity of protease described hereinbefore that achieves a desired level of enzymatic activity in a specific cleaning composition. Such effective amounts are readily ascertained by one of ordinary skill in the art and are based on many factors, such as the particular protease used, the cleaning application, the specific composition of the cleaning composition, and whether a liquid or dry (e.g., granular, bar) composition is required, etc.
- cleaning adjunct materials means any liquid, solid or gaseous material selected for the particular type of cleaning composition desired and the form of the product (e.g., liquid, granule, powder, bar, paste, spray, tablet, gel; or foam composition), which materials are also preferably compatible with the protease enzyme used in the composition.
- granular compositions are in "compact” form, while in other embodiments, the liquid compositions are in a "concentrated” form.
- enhanced performance in the context of cleaning activity refers to an increased or greater cleaning activity of certain enzyme sensitive stains such as egg, milk, grass or blood, as determined by usual evaluation after a standard wash cycle and/or multiple wash cycles.
- diminished performance in the context of cleaning activity refers to an decreased or lesser cleaning activity of certain enzyme sensitive stains such as egg, milk, grass or blood, as determined by usual evaluation after a standard wash cycle.
- subtilisin protease e.g., commercially available proteases
- OPTIMASETM protease Genencor
- PURAFECT TM protease products Genencor
- SAVINASE SAVINASE TM protease (Novozymes)
- BPN' -variants See e.g., U.S. Pat. No.
- Re 34,606 RELASETM, DURAZYMETM, EVERLASETM, KANNASE TM protease (Novozymes), MAXACALTM, MAXAPEMTM, PROPERASE TM proteases (Genencor; See also, U.S. Pat. No. Re 34,606, and U.S. Pat. Nos. 5,700,676; 5,955,340; 6,312,936; and 6,482,628), and B. lentus variant protease products (e.g., those described in WO 92/21760, WO 95/23221 and/or WO 97/07770).
- Cleaning performance can be determined by comparing the proteases of the present invention with those subtilisin proteases in various cleaning assays concerning enzyme sensitive stains such as grass, blood or milk as determined by usual spectrophotometric or analytical methodologies after standard wash cycle conditions.
- cleaning compositions and “cleaning formulations” refer to compositions that find use in the removal of undesired compounds from items to be cleaned, such as fabric, dishes, contact lenses, other solid substrates, hair (shampoos), skin (soaps and creams), teeth (mouthwashes, toothpastes) etc.
- the term encompasses any materials/compounds selected for the particular type of cleaning composition desired and the form of the product (e.g., liquid, gel, granule, or spray composition), as long as the composition is compatible with the perhydrolase and other enzyme(s) used in the composition.
- the specific selection of cleaning composition materials are readily made by considering the surface, item or fabric to be cleaned, and the desired form of the composition for the cleaning conditions during use.
- the terms further refer to any composition that is suited for cleaning, bleaching, disinfecting, and/or sterilizing any object and/or surface. It is intended that the terms include, but are not limited to detergent compositions (e.g., liquid and/or solid laundry detergents and fine fabric detergents; hard surface cleaning formulations, such as for glass, wood, ceramic and metal counter tops and windows; carpet cleaners; oven cleaners; fabric fresheners; fabric softeners; and textile and laundry pre-spotters, as well as dish detergents).
- detergent compositions e.g., liquid and/or solid laundry detergents and fine fabric detergents; hard surface cleaning formulations, such as for glass, wood, ceramic and metal counter tops and windows; carpet cleaners; oven cleaners; fabric fresheners; fabric softeners; and textile and laundry pre-spotters, as well as dish detergents).
- cleaning composition includes unless otherwise indicated, granular or powder-form all-purpose or heavy-duty washing agents, especially cleaning detergents; liquid, gel or paste-form all-purpose washing agents, especially the so-called heavy-duty liquid (HDL) types; liquid fine-fabric detergents; hand dishwashing agents or light duty dishwashing agents, especially those of the high-foaming type; machine dishwashing agents, including the various tablet, granular, liquid and rinse-aid types for household and institutional use; liquid cleaning and disinfecting agents, including antibacterial hand-wash types, cleaning bars, mouthwashes, denture cleaners, car or carpet shampoos, bathroom cleaners; hair shampoos and hair-rinses; shower gels and foam baths and metal cleaners; as well as cleaning auxiliaries such as bleach additives and "stain- stick" or pre-treat types.
- HDL heavy-duty liquid
- cleaning and disinfecting agents including antibacterial hand-wash types, cleaning bars, mouthwashes, denture cleaners, car or carpet shampoos, bathroom cleaners; hair shampoos and
- detergent composition and “detergent formulation” are used in reference to mixtures which are intended for use in a wash medium for the cleaning of soiled objects.
- the term is used in reference to laundering fabrics and/or garments (e.g., “laundry detergents”).
- laundry detergents e.g., "laundry detergents”
- the term refers to other detergents, such as those used to clean dishes, cutlery, etc. (e.g., "dishwashing detergents”). It is not intended that the present invention be limited to any particular detergent formulation or composition.
- the term encompasses detergents that contain surfactants, transferase(s), hydrolytic enzymes, oxido reductases, builders, bleaching agents, bleach activators, bluing agents and fluorescent dyes, caking inhibitors, masking agents, enzyme activators, antioxidants, and solubilizers.
- fabric cleaning compositions include hand and machine laundry detergent compositions including laundry additive compositions and compositions suitable for use in the soaking and/or pretreatment of stained fabrics (e.g., clothes, linens, and other textile materials).
- non-fabric cleaning compositions include non-textile (i.e., fabric) surface cleaning compositions, including but not limited to dishwashing detergent compositions, oral cleaning compositions, denture cleaning compositions, and personal cleansing compositions.
- the "compact" form of the cleaning compositions herein is best reflected by density and, in terms of composition, by the amount of inorganic filler salt.
- Inorganic filler salts are conventional ingredients of detergent compositions in powder form. In conventional detergent compositions, the filler salts are present in substantial amounts, typically about 17 to about 35% by weight of the total composition. In contrast, in compact compositions, the filler salt is present in amounts not exceeding about 15% of the total composition.
- the filler salt is present in amounts that do not exceed about 10%, or more preferably, about 5%, by weight of the composition.
- the inorganic filler salts are selected from the alkali and alkaline-earth-metal salts of sulfates and chlorides.
- a preferred filler salt is sodium sulfate.
- surfactant refers to any compound generally recognized in the art as having surface active qualities. Surfactants generally include anionic, cationic, nonionic, and zwitterionic compounds, which are further described, herein.
- SynPep SynPep (SynPep, Dublin, CA); New Objective (New Objective brand; Scientific Instrument Services, Inc., Ringoes, NJ); Waters (Waters, Inc., Milford, MA); Matrix Science (Matrix Science, Boston, MA); Dionex (Dionex, Corp., Sunnyvale, CA); Monsanto (Monsanto Co., St.
- subtilisin numbering corresponds to that of the mature BPN' sequence, as set forth below:
- this assay was started using filtered culture supernatant from microtiter plates grown 3-4 days at 33 0 C with shaking at 230 rpm and humidified aeration. A fresh 96-well flat bottom microtiter plate (MTP) was used for the assay. First, 100 ⁇ L/well of 0.25 N HCl was placed in each well. Then, 50 ⁇ L of filtered culture broth was added. The light scattering/absorbance at 405 nm (use 5 sec mixing mode in the plate reader) was then determined, in order to provide the "blank" reading.
- MTP microtiter plate
- TCA trichloroacetic acid
- the equipment used was a Biomek FX Robot (Beckman Coulter) and a SpectraMAX (type 340; Molecular Devices) MTP Reader; the MTP' s were from Costar (type 9017).
- the equipment used was a Biomek FX Robot (Beckman Coulter) and a SpectraMAX type 340 (Molecular Devices) MTP Reader; and the MTPs were type 9017 (Costar).
- the TCA results are linear with respect to protein concentration from 50 to 500 protein per ml (ppm) and can thus be plotted directly against enzyme performance for the purpose of choosing good-performing variants.
- the turbidity/light scatter increase in the samples correlates to the total amount of precipitable protein in the culture supernatant.
- AAPF-pNA AAPF-pNA
- the reagent solutions used were: 100 mM Tris/HCl, pH 8.6, containing 0.005% TWEEN®-80 (Tris dilution buffer); 100 mM Tris buffer, pH 8.6, containing 10 mM CaCl 2 and 0.005% TWEEN®-80 (Tris/Ca buffer); and 160 mM suc-AAPF-pNA in DMSO (suc-AAPF-pNA stock solution) (Sigma: S-7388).
- suc-AAPF-pNA working solution 1 ml suc-AAPF- pNA stock solution was added to 100 ml Tris/Ca buffer and mixed well for at least 10 seconds.
- C Surfactant and Chelant Stability Assays
- LAS and LAS/EDTA stability was measured after incubation of the test protease in the presence of LAS and LAS/EDTA respectively, as a function of residual activity determined using the AAPF assay.
- TWEEN®-80 Sigma P-8074
- TRIS buffer (free acid) Sigma T-1378); 6.35 g is dissolved in about 960 ml water; pH is adjusted to
- TRIS-Ca buffer pH 8.6 (10OmM Tris/lOmM CaC12/0.005% Tween-®80)
- a 0.063% LAS solution was prepared in 52.5 mM Tris buffer pH 8.2.
- the suc-AAPF-pNA working solution was prepared by adding 1 ml of 100 mg/ml suc-AAPF-pNA stock solution (in
- the AAPF activity was then determined as described above.
- the stability of the samples was determined by calculating the ration of the residual and initial AAPF activity as follows:
- Residual Activity (%) [t-60 value]*100 / [t-l ⁇ value].
- LAS linear alkylbene sulfonate, sodium dodecylbenzenesulfonate-DOBS
- di-sodium EDTA was measured after incubation under defined conditions and the residual activity was determined using the AAPF assay.
- the reagents used were dodecyllbenzene sulfonate, sodium salt (DOBS, Sigma No. D- 2525), TWEEN®-80 (Sigma No. P-8074), di-sodium EDTA (Siegfried Handel No. 164599-02), HEPES (Sigma No.
- V- or U-bottom MTP as dilution plates (Greiner 651101 and 650161 respectively), F-bottom MTP (Corning 9017) for unstress and LAS/EDTA buffer as well as for suc- AAPF-pNA plates, Biomek FX (Beckman Coulter), Spectramax Plus 384 MTP Reader (Molecular
- the iEMS incubator/shaker (Thermo/Labsystems) was set at 29°C. Culture supernatants were diluted into plates containing unstress buffer to a concentration of ⁇ 25 ppm (master dilution plate). 20 ⁇ l of sample from the master dilution plate was added to plates containing 180 ⁇ l unstress buffer to give a final incubation concentration of 2.5 ppm. The contents were mixed and kept at room temperature and a AAPF assay was performed on this plate.
- the stain removal performance of the protease variants was determined in commercially available detergents. Heat inactivation of commercial detergent formulas serves to destroy the enzymatic activity of any protein components while retaining the properties of non-enzymatic components. Thus this method was suitable for preparing commercially purchased detergents for use in testing the enzyme variants of the present invention.
- Microswatches of W circular diameter were obtained from CFT. Single microswatches or two microswatches were placed vertically in each well of a 96-well MTP to expose the whole surface area (i.e., not flat on the bottom of the well).
- BMI Microswatch Assay Microswatches containing blood milk and ink (BMI) of 0.25 inch circular diameter were obtained from CFT. Before cutting of the swatches, the fabric (EMPA 116) was washed with water. One microswatch was vertically placed in each well of a 96-well microtiter plate in order to expose the whole surface area (i.e., not flat on the bottom of the well). The desired detergent solution was prepared as described herein. After equilibrating the Thermomixer at 25°C, 190 ⁇ l of detergent solution was added to each well of the MTP, containing microswatches.
- microswatch was pre-washed in deionised water for 20 minutes at ambient temperature. After the pre-washing step, the swatches were put on top of paper towels to dry. The air- dried swatches were then punched using a 1 A" circular die on an expulsion press. Finally two microswatches were put into each well of a 96-well MTP vertically to expose the whole surface area (i.e. not flat on the bottom of the well).
- Samples of reference serine proteases variants thereof were obtained from filtered culture broth of cultures grown in MTP plates.
- the equipment used was a Biomek FX Robot (Beckman Coulter), a SpectraMAX MTP Reader (type 340; Molecular Devices), an iEMS incubator/shaker (Thermo/Labsystems); F-bottom MTPs (Costar type 9017 used for reading reaction plates after incubation); and V-bottom MTPs (Greiner 651101 used for pre-dilution of supernatant).
- the proteases hydrolyze the substrate and liberate pigment and insoluble particles from the substrate.
- the rate of turbidity is a measure of enzyme activity.
- the stain removal performance of reference serine proteases and variants therefrom on microswatches was determined on a MTP scale in commercially available heat-inactivated detergent.
- the reagents used were: 5 mM HEPES, pH 8.0 or 5 mM MOPS, pH 7 buffer, 3: 1 Ca: Mg for medium water hardness.
- the incubator was set at the desired temperature (16°C or 32°C). 10 ⁇ L samples from the master dilution plate of -10 ppm enzyme was added to BMI 2-swatch plates with 190 ⁇ L working detergent solutions listed above. The volume was adjusted to give final concentration of 0.5 ppm for variants in the assay plates. The plates were immediately transferred to iEMS incubators and incubated for 30 minutes with 1400 rpm shaking at given temperature. Following incubation, 100 ⁇ L of supernatant was transferred into a new 96-well plate and the absorbance was measured in MTP Reader at 405nm and/or 600nm. Control wells, containing 1 or 2 microswatches and detergent without the addition of protease samples were also included in the test. The measurement at 405 nm provides a higher value and tracks pigment removal, while the measurement at 600 nm tracks turbidity and cleaning. Calculation of the Stain Removal Activity for All Microswatch Assay Methods:
- the absorbance value obtained was corrected for the blank value (substrate without enzyme), providing a measure of hydrolytic activity.
- the performance index was calculated.
- the performance index compares the performance of the variant (actual value) and the standard enzyme (theoretical value) at the same protein concentration.
- the theoretical values can be calculated, using the parameters of the Langmuir equation of the standard enzyme.
- suc-AAPF-pNA suc-AAPF-pNA as a substrate, which enabled the comparison and ranking of the variants versus the wild-type or standard protease.
- the specific activity on the suc-AAPF-pNA substrate was determined by dividing the proteolytic activity by the measured TCA-values of each sample, using the assays described above. Using these values, the relative specific activity was calculated (specific activity of variant/specific activity of reference protease).
- the performance index compares the performance of the variant (actual value) and the standard or reference protease (theoretical value) at the same protein concentration.
- the theoretical values can be calculated, using the parameters of the Langmuir equation of the standard protease.
- the PI identifies winners, as well as variants that are less desirable for use under certain circumstances.
- a PCR-based method was used to create a library of modified B. amyloliquefaciens subtilisin BPN'-Y217L (commercially available as PURAFECT® PRIME subtilisin) polynucleotides containing in-frame insertions, deletions and/or substitutions in two regions of BPN'-Y217L (positions 63-77 and 92-132 of the mature region) as shown in Figure 1 (See, Pisarchik et al, Prot. Eng. Des. Select., 20:257-265 [2007]).
- Two sets of oligonucleotides that evenly cover the targeted regions of the BPN'-Y217L gene of a full-length protein of 392 amino acids, in both forward and reverse direction were used to amplify the 5' and 3' segments of the portion of the BPN'-Y217L gene.
- the coding region of the BPN'-Y217L mature protease contains the Kpnl and Xhol restriction sites for cloning purposes: gaattcatctcaaaaaaatgggtctactaaaatattattccatctattataataaattcacagaatagtcttttaagtaagtctactctgaatttttttta aaggagagggtaaagagtgagaagcaaaaattgtgSigs ⁇ gcs ⁇ s ⁇ attgtggatcsigtttgctgtttgctttSigcgtttaRtctttSiCgatggc gttcggcagcacatccagcgcgcaggctgcagggaaatcaaacggggaaaagaaatatattgtcgggtttaaacagacaatgagcacgatgagc
- Each oligonucleotide contained about 20-24 nucleotides necessary for annealing to the template, targeted codons (with or without degeneracy) and the Eaml 1041 recognition sequence. Every following primer was moved 3 bp downstream until the end of the targeted region was reached.
- Two PCR reactions (5' and 3' segments) contained either the 5' forward or the 3' reverse gene sequence flanking oligonucleotides each in combination with the corresponding oppositely priming oligonucleotides.
- the 5' fragments were amplified from pAC-FNAlO plasmid (See, Figure 2A) using a single forward primer (P3203, TGGATCAGTTTGCTGTTTGCT; SEQ ID NO:6) and reverse primers P4385-P4441 (See, Table 2-1) each containing the Eaml 1041 restriction site.
- the 3' fragments were amplified using a single reverse primer (P3435, ATGTATCAAGATAAGAAAGAACAAG; SEQ ID NO:7) and forward primers P4328-P4384 (See, Table 2-1) each containing an EamllOAl restriction site.
- Each amplification reaction contained 30pmol of each oligonucleotide and 100 ng of pAC- FNAlO template DNA. Amplifications were carried out using Vent DNA polymerase (New England Biolabs). The PCR mix (20 ul) was initially heated at 95°C for 2.5 min followed by 30 cycles of denaturation at 94°C for 15s, annealing at 55°C for 15s and extension at 72°C for 40s. Following amplification, left and right fragments generated by the PCR reactions were gel-purified and mixed (about 200 ng of each fragment). Every mix contained three left fragments targeting three adjacent codons and three right fragments targeting same codons.
- the polynucleotide sequence of the expression cassette from the pHPLT vector (Plat promoter-pre-pro-BPN'-Y217L -terminator) (SEQ ID NO. 124) is shown below:
- Ligation mixtures were amplified using rolling circle amplification according to manufacturer's recommendation (Epicentre). One ul of the ligation mixture was mixed with 5 ul of the sample buffer, heated to 95°C for 3 min and cooled on ice. Next, 5 ul of the reaction buffer and 0.2 ul of the enzyme were added to each tube, followed by incubation at 30 0 C for 10 hours. Products of the rolling circle amplification were diluted 100 times and used to transform Bacillus subtilis.
- Bacillus subtilis cells made competent by the induction of the comK gene under control of a xylose inducible promoter (See e.g., Hahn et al., MoI Microbiol, 21 :763-775 [1996]) were transformed with 45 libraries containing DNA sequences encoding BPN'-Y217L protease with mutated regions.
- the cells were grown in 1 ml of Luria Broth (LB) at 37°C for 1 hour and then plated on LB plates containing 1.6% skim milk and 10 mg/1 neomycin, and were incubated overnight at 37°C. At least 2000 clones from each of the 45 libraries were screened for producing halos. When plated on skim milk plates, 0.05% to 20% of clones generated halos. A limited number of the clones generating halos were sequenced. These clones varied in the ratio of insertions and deletions, but none of them had frame shift mutations. Clones generating halos were further screened for AAPF activity using a 96-well plate assay as described in Example 1. The BPN'-Y217L variant proteins were produced by growing the B. subtilis transformants in 96 well microtiter plates as described earlier. Protein concentration of culture supernatants was determined by TCA precipitation as described in Example 1.
- Heat inactivation of commercial detergent formulas serves to destroy the endogenous enzymatic activity of any protein components while retaining the properties of nonenzymatic components.
- Heat inactivation of the detergents was performed by placing pre-weighed amounts of liquid detergent (in a glass bottle) in a water bath at 95°C for 2 hours. The detergent was purchased from local supermarket stores. Both unheated and heated detergents were assayed within 5 minutes of dissolving the detergent to accurately determine percentage deactivated. Enzyme activity was tested by AAPF assay.
- PI performance index
- BPN'-Y217L variants showing a PI value greater or equal than 0.5 for BMI stain removal performance and/or TCA precipitation showed improved cleaning benefits and/or expression.
- Mutations are named by the one letter code for the parent amino acid, followed by a three digit position number and then the one letter code for the variant amino acid.
- mutating glycine (G) at position 87 to serine (S) is represented as “G087S.”
- Multiple mutations are indicated by inserting a "/" between the mutations.
- Mutations at positions 87 and 90 are represented as "G087S/A090Y.”
- the one letter code "Z” is used.
- the one letter code "Z” is on the left side of the position number.
- the one letter code "Z” is on the right side of the position number.
- the position number is the position number before the inserted amino acid(s), plus 0.01 for each amino acid.
- an insertion of three amino acids alanine (A), serine (S) and tyrosine (Y) between position 87 and 88 is shown as "Z087.01 A/Z087.02S/Z087.03Y.”
- Z087.01 A/Z087.02S/Z087.03Y is shown as "Z087.01 A/Z087.02S/Z087.03Y.
- Table 3-2 provides a list of the insertions that make up the combinations.
- BPN'G97A-G128A-Y217Q (BPN'3") as a parent, combinatorial variants were created by a strategy that involved extension (fusion) PCR using four fragments of the gene. Fragment 1 was amplified by primers P4974 and P4977 (See, Table 4-1). Fragment 4 was amplified by primers 4978 and
- the set of Fragment 3 sequences were amplified by the following primers: 01 : P5003 and P5004 (BPN'3 as a template)
- Each amplification reaction contained 30 pmol of each oligonucleotide and 100 ng of the template DNA. Amplifications were carried out using Vent DNA polymerase (New England Biolabs). The PCR mix (20 ul) was initially heated at 95°C for 2.5 min followed by 30 cycles of denaturation at 94°C for 15s, annealing at 55°C for 15s and extension at 72°C for 40s. Following amplification all the fragments were purified by the Gel Band Purification kit (Qiagen) and mixed to serve as templates for a fusion PCR using primers P4975 and P4948.
- Vent DNA polymerase New England Biolabs
- the full-length DNA fragment from the fusion PCR reaction was gel-purified by the QIAGEN gel-band purification kit, digested by the BamHI and HindIII restriction enzymes and ligated in the Bacillus expression plasmid pHPLT-BPN partial opt ( Figure 2C), which was cut with the same restriction enzymes.
- Ligation mixtures were amplified using rolling circle amplification according to manufacturer's recommendation (Epicentre).
- One ul of the ligation mixture was mixed with 5 ul of the sample buffer, heated to 95°C for 3 min and cooled on ice.
- 5 ul of the reaction buffer and 0.2 ul of the enzyme was added to each tube, followed by incubation at 30 0 C for 10 hours.
- Products of the rolling circle amplification were diluted 100 times and 1 ul of this dilution was used to transform Bacillus subtilis cells (genotype: ⁇ aprE, ⁇ nprE, ⁇ spoIIE, amyE: :xylRPxylAcomK-phleo) as described in Example 2.
- Transformations were plated on LB plates containing 1.6% skim milk and 10 ppm Neomycin and incubated overnight at 37°C. Only colonies with halos were picked and grown in microtiter plates for further analysis as described in Example 2. Protein concentration of culture supernatants was determined by TCA precipitation as described in Example 1.
- the stain removal activity of combinatorial variants of BPN' 3 generated as described in Example 4 was tested as described in Example 3.
- functionality of BPN' variants was quantified as a performance index (Pi) , which is the ratio of performance of a variant to parent protein BPN'3.
- Bi performance index
- BPN'3 variants showing a Pi value greater or equal than 0.5 for BMI stain removal performance and/or TCA precipitation showed improved cleaning benefits and/or expression.
- Performance indices less than or equal to 0.05 were fixed to 0.05 and indicated in bold italics in the table. Results are shown in Table 5-1.
- Combinatorial libraries focused around positions 128/129/130 in BPN'G97A-G128A-Y217Q (BPN' 3) were created using site specific saturation mutagenesis and/or site specific insertion and/or deletion.
- the variants generated contain substitution, insertion, and deletion mutations.
- Libraries Ll, L2 and L3 are based on WT position S 130S and L4 is based on S 130A.
- Four saturation libraries focused around positions 128/129 and 130 were constructed as shown in Table 6-1.
- Mutagenesis was performed using methods known in the art (See, Amin et al., Biotechniques 35: 1134-1140, [2003]) using a modified version of the QuikChange multi site-directed mutagenesis (QCMS) kit from Stratagene.
- QCMS QuikChange multi site-directed mutagenesis
- the mutagenesis reaction contained 60 ng template plasmid, 0.5 ul forward primer 128/129 Stop F (25 uM), 0.5 ul reverse primer 128/129 Stop R (25 uM), 1 ul dNTP's (QCMS kit), 2.5 ul 10x QCMS reaction buffer, 18.5 ul deionized water, and 1 ul of enzyme blend (QCMS kit), for a total volume of 25ul.
- the thermocycler program used was 1 cycle at 95° for 1 min., followed by 25 cycles of 95°C for 1 min, 55°C for 1 min., and 68°C for 11 minutes (MJ Research thermocycler).
- the template DNA was digested by Dpnl (QCMS kit, Qiagen) and 1.5uL of the reaction was amplified by rolling circle amplification (RCA) using the Templiphi kit (Amersham) using manufacturer' s protocol.
- One microliter of the amplified DNA was used to transform 100 ⁇ L of competent Bacillus subtilis cells (genotype: ⁇ aprE, ⁇ nprE, AspoIIE, amyE: :xylRPxylAcomK-phleo). Aliquots of 20 uL or 80 uL of the transformation mixture were plated on Luria Agar plates supplemented with 10 ⁇ g/ml neomycin + 1.6% skim milk (Teknova). After growth, 4 colonies not forming halos on the skim milk plates were picked to identify the plasmid with the correct sequence. The correct variant with the two stop codons at positions 128/129, called "pHPLT-BPN' 128/129 Stop" was chosen as the parent plasmid for the construction of combinatorial libraries described in Table 6-1.
- Plasmid pHPLT-BPN' 128/129 Stop was methylated and used as template with the degenerate primer pairs shown in Table 6-3.
- cultures were grown overnight in micro-filter plates (.22um, Millipore) containing 180ul of a enriched semi-defined media based on MOPs buffer, with urea as major nitrogen source, glucose as the main carbon source, 1% soytone for robust cell growth, and supplemented with 2.5ug/ml neomycin. Cultures were grown for 64 hours at 37C, 250rpm, and 70% humidity. Protein concentration of culture supernatants was determined by TCA precipitation as described in Example 1.
- BPN' mutants as parent molecules- BPN' G97A/G128A/Y217Q, BPN' M124V/L126A/Y217Q, BPN' G128A/Y217Q, and BPN' N123G/Y217Q to create insertions or substitutions at positions 96, 98, 129 and/or 222.
- the parent DNA molecule, mutations introduced and PCR primers used are listed in the Table 8-1.
- two fragments 1 and 2 were generated by the PCR primers (Table 8-2) in the 5' and 3' regions of the gene using the respective parent molecule listed in Table 8-1. These fragments were mixed and amplified by the flanking primers P4973 and P4950 (Table 8-2) to restore the full-length gene.
- Each amplification reaction contained 30pmol of each PCR primer and 100 ng of the template DNA. Amplifications were carried out using Vent DNA polymerase (New England Biolabs). The PCR mix (20 ul) was initially heated at 95°C for 2.5 min followed by 30 cycles of denaturation at 94°C for 15s, annealing at 55°C for 15s and extension at 72°C for 40s. Following amplification, the 5' and 3' fragments were gel-purified by the QIAGEN gel-band purification kit, mixed and amplified by the flanking primers P4973 and P4950.
- the full-length DNA fragment produced was gel-purified by the QIAGEN gel-band purification kit, digested by the Bam ⁇ and HincHll restriction enzymes and ligated with the pHPLT- BPN' vector containing the respective parent molecules, which were also cut with the same restriction enzymes.
- Ligation mixtures were amplified using rolling circle amplification according to manufacturer's recommendation (Epicentre).
- One microliter of the ligation mixture was mixed with 5 ul of the sample buffer, heated to 95°C for 3 min and cooled on ice. Next, 5 ul of the reaction buffer and 0.2 ul of the enzyme was added to each tube, followed by incubation at 30 0 C for 10 hours.
- Products of the rolling circle amplification were diluted 100 times and used to transform Bacillus subtilis cells (genotype: ⁇ aprE, ⁇ nprE, AspoIIE, amyE: :xylRPxylAcomK-phleo) as described in Example 2. Transformations were plated on LB plates containing 1.6% skim milk and 10 ppm Neomycin and incubated overnight at 37°C. Only colonies with halos were picked and grown in microtiter plates for further analysis as described in Example 2. Protein concentration of culture supernatants was determined by TCA precipitation as described in Example 1.
- Example 3 The stain removal activity of combinatorial variants of BPN' generated as described in Example I was tested as described in Example 3. As described throughout, functionality of BPN' variants was quantified as a performance index (Pi) , which is the ratio of performance of a variant to B PN '3 (BPN' G97A-G128A-Y217Q). Variants showing a Pi value greater or equal than 0.5 for BMI stain removal performance and/or TCA precipitation showed improved cleaning benefits and/or expression. Performance indices less than or equal to 0.05 were fixed to 0.05 and indicated in bold italics in the table. Results are shown in Table 9-1.
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Priority Applications (15)
Application Number | Priority Date | Filing Date | Title |
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AU2009256295A AU2009256295A1 (en) | 2008-06-06 | 2009-06-03 | Compositions and methods comprising variant microbial proteases |
BRPI0915681-0A BRPI0915681A2 (en) | 2008-06-06 | 2009-06-03 | Compositions and methods comprising variant microbial proteases |
MX2010013100A MX2010013100A (en) | 2008-06-06 | 2009-06-03 | Compositions and methods comprising variant microbial proteases. |
EP09759304A EP2297315A2 (en) | 2008-06-06 | 2009-06-03 | Compositions and methods comprising variant microbial proteases |
CA2726451A CA2726451A1 (en) | 2008-06-06 | 2009-06-03 | Compositions and methods comprising variant microbial proteases |
RU2010154103/10A RU2541786C2 (en) | 2008-06-06 | 2009-06-03 | Compositions and methods including versions of microbial proteases |
MX2014009338A MX360255B (en) | 2008-06-06 | 2009-06-03 | Compositions and methods comprising variant microbial proteases. |
US12/996,576 US20110256610A1 (en) | 2008-06-06 | 2009-06-03 | Compositions And Methods Comprising Variant Microbial Proteases |
JP2011512604A JP2011524166A (en) | 2008-06-06 | 2009-06-03 | Compositions and methods comprising mutant microbial proteases |
CN200980130352.6A CN102112607B (en) | 2008-06-06 | 2009-06-03 | Compositions and methods comprising microbial proteases variant |
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US14/635,832 US20150247140A1 (en) | 2008-06-06 | 2015-03-02 | Compositions and Methods Comprising Variant Microbial Proteases |
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