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Optimized 3-phytase and its use in food or feed production

20210317427 · 2021-10-14

    Inventors

    Cpc classification

    International classification

    Abstract

    The present invention refers to an optimized 3-phytase which is a bio-efficacious phytase mutant having sequence identity of at least 95% around 3-phytase (SEQ ID NO. 1) comprising a sequence of SEQ ID NO. 2 and one or more mutations. The invention is further directed to the use of such optimized 3-phytase in the production of a food or feed product.

    Claims

    1. Bio-efficacious phytase mutant having sequence identity of at least 96.25% around SEQ ID NO. 2, wherein the mutant comprises a sequence of SEQ ID NO. 2 and a mutation selected from the group consisting of D149N, S189D, K190N, K191N, R210Q, L211E, L211M, K25E, K25A, G26N, G26S, N193H, N193K, N193S, N193R, D1E, P3T, G26K, K29A, T30S, T30A, T30K, D36N, Q45N, Q45R, V58E, S75C, Q76R, P107S, A112G, D120K, T129K, Q136R, Q144L, D149N, K187E, D189N, G192R, S195R, S195Y, S195T, S195N, N204I, N204T, N204S, S214A, N216D, A230T, M237L, N243K, N248K, R255H, G257S, F264Y, A275P, D276G, K295Y, K295M, Q332D, A352S, V383M, R393H, A395T and combinations thereof.

    2. Bio-efficacious phytase mutant according to claim 1 comprising mutations D149N, S189D, K190N and K191N.

    3. Bio-efficacious phytase mutant according to claim 1 comprising mutations R210Q and L211M.

    4. Bio-efficacious phytase mutant according to claim 1 comprising mutations K25E or K25A, and G26N or G26S, and N193S or N193R.

    5. Bio-efficacious phytase mutant according to claim 1 comprising mutations at positions 25, 26, 193, 210 and/or 211.

    6. Bio-efficacious phytase mutant according to claim 1 comprising mutations at positions D149N, S189D, K190N, K191N, K25E or K25A, G26S or G26N, N193S, N193R or N193K, R210Q and L211M.

    7. Bio-efficacious phytase mutant according to claim 1, which is active up to 90° C.

    8. Bio-efficacious phytase mutant according to claim 1, which is active at a pH from 3 to 5.5.

    9. Use of the bio-efficacious phytase mutant according to claim 1 for the production of a food or feed product.

    Description

    DESCRIPTION OF FIGURES

    [0017] The following figures show the invention in more detail, however, the invention is not limited to these figures.

    [0018] FIG. 1: Improvement of 3-phytase mutants of SEQ ID NO: 2 regarding their catalytic performance in an application setup and their IC.sub.50 values as a measure for thermostability; •wildtype SEQ ID NO: 2, •3-phytase mutants of SEQ ID: NO: 47, SEQ ID: NO: 4, SEQ ID: NO: 6, SEQ ID: NO: 7, SEQ ID: NO: 8, SEQ ID: NO: 10, SEQ ID: NO: 14, SEQ ID: NO: 19, SEQ ID: NO: 20, SEQ ID: NO: 21, SEQ ID: NO: 26, SEQ ID: NO: 28, SEQ ID: NO: 29, SEQ ID: NO: 30, SEQ ID: NO: 31, SEQ ID: NO: 34, SEQ ID: NO: 1, SEQ ID: NO: 37, SEQ ID: NO: 38, SEQ ID: NO: 39, SEQ ID: NO: 40, SEQ ID: NO: 41, SEQ ID: NO: 45, and SEQ ID: NO: 46.

    [0019] FIG. 2: pH profiles of wildtype SEQ ID NO:2 and 3-phytase mutants of SEQ ID: NO: 19, SEQ ID: NO: 20, SEQ ID: NO: 21, SEQ ID: NO: 28, SEQ ID: NO: 30, SEQ ID: NO: 34, SEQ ID: NO: 1 at pH 2 to 5.5.

    [0020] FIG. 3: Bio-efficiency Index of 3-phytase mutants SEQ ID: NO: 1, SEQ ID: NO: 3, SEQ ID: NO: 4, SEQ ID: NO: 5, SEQ ID: NO: 6, SEQ ID: NO: 7, SEQ ID: NO: 8, SEQ ID: NO: 9, SEQ ID: NO: 10, SEQ ID: NO: 11, SEQ ID: NO: 12, SEQ ID: NO: 13, SEQ ID: NO: 14, SEQ ID: NO: 15, SEQ ID: NO: 16, SEQ ID: NO: 17, SEQ ID: NO: 18, SEQ ID: NO: 19, SEQ ID: NO: 20, SEQ ID: NO: 21, SEQ ID: NO: 22, SEQ ID: NO: 23, SEQ ID: NO: 24, SEQ ID: NO: 25, SEQ ID: NO: 26, SEQ ID: NO: 27, SEQ ID: NO: 28, SEQ ID: NO: 29, SEQ ID: NO: 30, SEQ ID: NO: 31, SEQ ID: NO: 32, SEQ ID: NO: 33, SEQ ID: NO: 34, SEQ ID: NO: 35, SEQ ID: NO: 36, SEQ ID: NO: 37, SEQ ID: NO: 38, SEQ ID: NO: 39, SEQ ID: NO: 40, SEQ ID: NO: 41, SEQ ID: NO: 42, SEQ ID: NO: 43, SEQ ID: NO: 44, SEQ ID: NO: 45, SEQ ID: NO: 46, SEQ ID: NO: 47 in comparison to SEQ ID NO:2.

    DETAILED DESCRIPTION

    [0021] The present invention is directed to a phytase mutant, such as a 3-phytase mutant having sequence identity to SEQ ID NO: 1 of 90% to 97%, 91% to 96%, 92% to 95%, at least 90%, at least 91%, at least 92%, at least 93%, at least 94%, at least 95%, at least 96.25% or at least 97% comprising or consisting of the sequence of SEQ ID NO.2 and one or more, e.g., at least two, at least three, at least four, at least five, at least six, at least seven, at least eight, at least nine or at least ten mutations.

    [0022] Within the present invention, the term “phytase mutant” is to be understood as referring to any sequence which does not as such occur in nature but is the result of a genetic modification of at least one amino acid compared to a natural occurring phytase enzyme sequence.

    [0023] The mutation of the phytase such as the 3-phytase of the present invention is selected from the group consisting of D149N, S189D, K190N, K191N, R210Q, L211E, L211M, K25E, K25A, G26N, G26S, N193H, N193K, N193S, N193R, D1E, P3T, G26K, K29A, T30S, T30A, T30K, D36N, Q45N, Q45R, V58E, S75C, Q76R, P107S, A112G, D120K, T129K, Q136R, Q144L, D149N, K187E, D189N, G192R, S195R, S195Y, S195T, S195N, N204I, N204T, N204S, S214A, N216D, A230T, M237L, N243K, N248K, R255H, G257S, F264Y, A275P, D276G, K295Y, K295M, Q332D, A352S, V383M, R393H, A395T and combinations thereof. The combinations comprise one or more mutations.

    [0024] The resulting phytase mutant is bio-efficacious, i.e., the phytase mutant is consistently active under varying conditions which are in the present invention high temperatures for example up to 90° C. and acidic to basic pH for example in the range from pH 2.5 to 5.5.

    [0025] In the following, the elements of the present invention will be described in more detail. These elements are listed with specific embodiments, however, it should be understood that they may be combined in any manner and in any number to create additional embodiments. The variously described examples and embodiments should not be construed to limit the present invention to only the explicitly described embodiments. This description should be understood to support and encompass embodiments which combine the explicitly described embodiments with any number of the disclosed elements. Furthermore, any permutations and combinations of all described elements in this application should be considered disclosed by the description of the present application unless the context indicates otherwise.

    [0026] Throughout this specification and the claims, unless the context requires otherwise, the word “comprise”, and variations such as “comprises” and “comprising”, will be understood to imply the inclusion of a stated member, integer or step or group of members, integers or steps but not the exclusion of any other member, integer or step or group of members, integers or steps. The terms “a” and “an” and “the” and similar reference used in the context of describing the invention (especially in the context of the claims) are to be construed to cover both the singular and the plural, unless otherwise indicated herein or clearly contradicted by the context. Recitation of ranges of values herein is merely intended to serve as a shorthand method of referring individually to each separate value falling within the range. Unless otherwise indicated herein, each individual value is incorporated into the specification as if it were individually recited herein. All methods described herein can be performed in any suitable order unless otherwise indicated herein or otherwise clearly contradicted by context. The use of any and all examples, or exemplary language (e.g., “such as”, “for example”), provided herein is intended merely to better illustrate the invention and does not pose a limitation on the scope of the invention otherwise claimed. No language in the specification should be construed as indicating any non-claimed element essential to the practice of the invention.

    [0027] The temperature for example of a food or feed product and thus, of a phytase mutant for example contained in the food or feed product varies significantly with a storage temperature for example of −18° C., 4° C. or room temperature, the temperature in a subject such as a human or animal which is for example 37° C., and the temperature for the preparation of food or feed product for example in decontamination processes with temperatures, e.g., of up to 90° C. The bio-efficacious phytase mutant of the present invention is stable and active from 4° C., 10° C., 15° C., 20° C., 25° C., 28° C., 30° C., 35° C., 37° C., 40° C., 45° C., 50° C., 55° C., 60° C., 65° C., 70° C., or 75° C. to 90° C., or is stable and active up to 40° C., 45° C., 50° C., 55° C., 60° C., 65° C., 70° C., 75° C., 80° C., 85° C. or 90° C.

    [0028] In addition, a phytase passing through the intestinal tract of a human or an animal is exposed to different pH ranges for example in humans the saliva has a pH of about 6.5 to 7.5, the upper stomach has a pH of about 4.0 to 6.5, the lower stomach has a pH of about 1.5 to 4.0, the duodenum has a pH of about 7.0 to 8.5 and the small and large intestine have a pH of about 4.0 to 7.0. A highly efficient phytase mutant such as a 3-phytase mutant resulting in a high cleavage rate of phosphate from a phytate has to be active in a broad pH range. The bio-efficacious phytase mutant of the present invention is stable and active in a range from pH 2.5 to 5.5, from pH 3.0 to 5.0, from pH 3.5 to 4.5, from 3.0 to 5.5 or from pH 5.0 to 5.5 and for example at any of the previously disclosed temperatures and temperature ranges, respectively.

    [0029] The activity of a phytase and the phytase mutants of the present invention is determined by measuring the phosphate release which is indicated in mmol/L phytate at a specific pH. The Performance Index, which provides information about the activity of the phytase mutant at different pH in comparison to a reference such as SEQ ID NO: 2, is defined as [(Released phosphate [mM] at pH X).sub.mutant/released phosphate [mM] at pH X).sub.reference]×[(released phosphate [mM] at pH Y).sub.mutant/(released phosphate [mM] at pH Y).sub.referenc], wherein X and Y are different pH values, i.e., for example [(Released phosphate [mM] at pH 3).sub.mutant/released phosphate [mM] at pH 3).sub.SEQ ID NO 2]×[(released phosphate [mM] at pH 5).sub.mutant (released phosphate [mM] at pH 5).sub.SEQ ID NO 2].

    [0030] The Bio-efficiency Index determines the correlation of performance and thermostability of a phytase mutant in comparison to a reference, e.g., SEQ ID NO.2, and is defined as IC.sub.50(variant)/IC.sub.50(reference)×[(Released phosphate [mM] at pH X).sub.mutant/released phosphate [mM] at pH X).sub.reference]×[(released phosphate [mM] at pH Y).sub.mutant/(released phosphate [mM] at pH Y).sub.reference], wherein X and Y are different pH values, i.e., for example IC.sub.50(variant)/IC.sub.50(SEQ ID NO: 2)×[(Released phosphate [mM] at pH 3).sub.mutant/released phosphate [mM] at pH 3).sub.SEQ ID NO: 2]×[(released phosphate [mM] at pH 5).sub.mutant/(released phosphate [mM] at pH 5).sub.SEQ ID NO: 2].

    [0031] The term “feed” or “feed product” as used according to the present invention pertains to any product known to a person skilled in the art as suitable for feeding any kind of animal, for example mammals and birds, such as but not limited to ruminants, pigs, deer, poultry but also comprises fish or other aquatic livestock generally referred to as seafood. Included are feed products for non-ruminant animals, e.g. poultry, broilers, birds, chickens, turkeys, ducks, geese, and fowl; ruminant animals e.g. cows, cattle, horses, and sheep; pigs, swine, piglets, growing pigs, and sows; companion animals including but not limited to: cats, dogs, rodents, and rabbits; fish including but not limited to salmon, trout, tilapia, catfish and carp; and crustaceans including but not limited to shrimp and prawn.

    [0032] The term “food” or “food product” as used according to the present invention pertains to any product known to a person skilled in the art as suitable for human consumption.

    [0033] The feed or food product of the present invention for example contains starch. The starch-containing feed components typically include vegetable material such as cereal(s), e.g., one or more of corn (maize), wheat, barley, rye, rice, sorghum and millet, and/or tubers such as potatoes, cassava and sweet potato. The vegetable material may be milled, e.g., wet or dry milled grain, or distillers dry grain solids.

    [0034] The feed or food product of the present invention for example contains protein-rich feed ingredients such as soybean (preferably soybean meal), rapeseed, palm kernel, cotton seed and sunflower.

    [0035] Further, the feed or food product comprises for example at least one compound selected from the group consisting of vitamins, minerals, organic acids, probiotic components, oils, fats, pigments, growth factors and antimicrobial agents.

    [0036] Optionally the feed or food product comprises at least one or more enzymes in addition to the 3-phytase mutant, for example food or feed enzymes which improve the digestibility of the feed and/or degrade intermediate products produced by the 3-phytase mutant such as inositol-tetraphosphate, e.g. another phytase such as 6-phytase, an amylase or a protease, aminopeptidase, carbohydrase, carboxypeptidase, catalase, cellulase, chitinase, cutinase, cyclodextrin glycosyltransferase, deoxyribonuclease, esterase, alpha-galactosidase, beta-galactosidase, glucoamylase, alpha-glucosidase, beta-glucosidase, haloperoxidase, invertase, laccase, lipase, mannosidase, oxidase, pectinolytic enzyme, peptidogluta-minase, peroxidase, polyphenoloxidase, proteolytic enzyme, ribonuclease, transglutaminase, or xylanase. The food or feed enzyme(s) are for example derived from microorganisms such as bacteria or fungi or from plants or animals.

    [0037] The feed or food product is for example in form of a granulate, compactate, extrudate or liquid form.

    [0038] The phytase mutant of the present invention is administered to a subject for example in a food or feed product, or directly without a food or feed product for example in form of a tablet, powder, liquid, an extrudate or granulate such as a coated granulate, e.g. with a coating comprising a salt, e.g. at least 60% w/w of the salt for example selected from the group consisting of NaCl, KCl, Na.sub.2S0.sub.4, K.sub.2S0.sub.4 and MgS0.sub.4.

    [0039] The phytase mutant of the present invention is used for example for the production of a food or feed product such as pelleted or extrudated mixtures of grains, corn, hay, molasses and straw for example in dry or liquid form.

    [0040] As used herein “liquid form” pertains to a composition for example comprising a buffer, a stabilizer, and an anti-microbial agent and optionally at least one further enzyme, wherein the enzyme is an amylase, a cellulase, a lactase, a lipase, a protease, a catalase, a xylanase, a beta-glucanase, a mannanase, an amylase, an amidase, an epoxide hydrolase, an esterase, a phospholipase, a transaminase, an amine oxidase, a cellobiohydrolase, an ammonia lyase, or any combination thereof.

    [0041] As used herein “dry form” pertains to a composition for example comprising one or more of the following components: a carrier, a buffer, a stabilizer, a binding agent, a plasticizer, an anti-microbial agent. Dry forms of a food or feed product comprise for example sucrose, sodium chloride, sorbitol, sodium citrate, potassium sorbate, sodium benzoate, sodium propionate, guar gum and/or wheat flour.

    [0042] Sequences of phytase mutants of the present invention are for example the following, which were partially tested in the Examples:

    TABLE-US-00001 SEQ ID NO: 1 DTPSSGWTLEKVVEVSRHGVRPPTENNVKTIQEGTNRQWPTWLTQYGELTG HGYAAAVLKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFSGCGVAIQGPEDEDNDPLFHAEKAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGRIYLHGPEVLAN IAETIQMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTAKYDFTNDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAYLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 2 DTPSSGWTLEKVVEVSRHGVRPPTKGNVKTIQEGTDRQWPTWLTQYGELTG HGYAAAVLKGHYEGQYLRQHGLLSQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAETAGVTLDQQQVKADLQNAMQDKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKESKKGNISLHGPEVLAN IAETIRLSYSNNNPLSEVAFGHAKTAAEVAALMPLLTANYDFTNDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAKLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 3 DTPSSGWTLEKVVEVSRHGVRPPTENNVKTIQEGTNRQWPTWLTQYGELTG HGYAAAVLKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAETAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGSISLHGPEVLAI IAETIQMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTANYDFTNDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAKLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAMMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 4 DTPSSGWTLEKVVEVSRHGVRPPTESNVKTIQEGTNRQWPTWLTQYGELTG HGYAAAVLKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAETAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGSISLHGPEVLAI IAETIQMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTANYDFTNDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAKLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 5 DTPSSGWTLEKVVEVSRHGVRPPTENNVKTIQEGTNRQWPTWLTQYGELTG HGYAAAVLKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFSGCGVAIQGPEDEDNDPLFHAETAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGSISLHGPEVLAI IAETIQMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTANYDFTNDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAKLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 6 DTPSSGWTLEKVVEVSRHGVRPPTESNVKTIQEGTDRQWPTWLTRYGELTG HGYAAAVLKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAETAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGSISLHGPEVLAI IAETIQMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTANYDFTNDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAKLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 7 DTPSSGWTLEKVVEVSRHGVRPPTESNVKTIQEGTDRQWPTWLTQYGELTG HGYAAAVLKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAETAGVTLDQQQVKADLLNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGSISLHGPEVLAI IAETIQMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTANYDFTNDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAKLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 8 DTPSSGWTLEKVVEVSRHGVRPPTESNVKTIQEGTNRQWPTWLTQYGELTG HGYAAAVLKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAETAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGSISLHGPEVLAI IAETIQMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTANYDFTNDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAKLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDHTALLPVHYTPHHHHH H SEQ ID NO: 9 DTPSSGWTLEKVVEVSRHGVRPPTESNVKTIQEGTDRQWPTWLTQYGELTG HGYAAAVLKGHYEGQYLRQHGLLSQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAEKAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGSISLHGPEVLAI IAETIQMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTANYDFTNDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAKLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 10 DTPSSGWTLEKVVEVSRHGVRPPTESNVKTIQEGTDRQWPTWLTQYGELTG HGYAAAVLKGHYEGQYLRQHGLLCRACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAETAGVTLDRQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGSISLHGPEVLAT IAETIQMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTANYDYTNDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAKLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 11 DTPSSGWTLEKVVEVSRHGVRPPTESNVKTIQEGTDRQWPTWLTQYGELTG HGYAAAVLKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAETAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNRSISLHGPEVLAI IAETIQMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTANYDFTNDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAKLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 12 DTPSSGWTLEKVVEVSRHGVRPPTESNVKTIQEGTDRQWPTWLTQYGELTG HGYAAAVLKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAETAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNRSISLHGPEVLAI IAETIQMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTANYDFTNDLPYVAH RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAKLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 13 DTPSSGWTLEKVVEVSRHGVRPPTESNVKTIQEGTDRQWPTWLTQYGELTG HGYAAAVLKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAETAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGSISLHGPEVLAI IAETIRMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTANYDFTNDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAKLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 14 DTPSSGWTLEKVVEVSRHGVRPPTESNVKTIQEGTDRQWPTWLTQYGELTG HGYAAAVLKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAETAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGSISLHGPEVLAI IAETIQMSYSNNNPLSEVAFGHAKTTAEVAALMPLLTANYDFTKDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAKLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTTLLPVHYTPHHHHH H SEQ ID NO: 15 DTPSSGWTLEKVVEVSRHGVRPPTESNVKTIQEGTDRQWPTWLTQYGELTG HGYAAAVLKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAETAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGSISLHGPEVLAI IAETIRMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTANYDFTNDLPYVAR RSASVLMNQIALALNTEHQAGAPPDAKWLLYVAHDTNIAKLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 16 DTPSSGWTLEKVVEVSRHGVRPPTESNVKTIQEGTDRQWPTWLTQYGELTG HGYAAAVLKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAETAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGHISLHGPEVLAI IAETIQMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTANYDFTNDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAKLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 17 DTPSSGWTLEKVVEVSRHGVRPPTESNVKTIQEGTDRQWPTWLTRYGELTG HGYAAAVLKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAETAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGSISLHGPEVLAI IAETIQMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTANYDFTNDLPYVAR RGASVLMNQIALALNTEHQPDAPPDAKWLLYVAHDTNIAKLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 18 DTPSSGWTLEKVVEVSRHGVRPPTESNVKTIQEGTDRQWPTWLTNYGELTG HGYAAAVLKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAETAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGSISLHGPEVLAI IAETIQMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTANYDFTNDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAKLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 19 DTPSSGWTLEKVVEVSRHGVRPPTESNVKTIQEGTDRQWPTWLTQYGELTG HGYAAAELKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAETAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGSIRLHGPEVLAI IAETIQMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTANYDFTNDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAKLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 20 DTPSSGWTLEKVVEVSRHGVRPPTESNVKTIQEGTDRQWPTWLTQYGELTG HGYAAAVLKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAETAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGSISLHGPEVLAI IAETIQMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTANYDFTKDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAKLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 21 DTPSSGWTLEKVVEVSRHGVRPPTESNVKSIQEGTDRQWPTWLTQYGELTG HGYAAAVLKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAETAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGSISLHGPEVLAI IAETIQMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTANYDFTKDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAKLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 22 DTPSSGWTLEKVVEVSRHGVRPPTESNVKTIQEGTDRQWPTWLTQYGELTG HGYAAAVLKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAETAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGSISLHGPEVLAI IAETIRMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTANYDFTNDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAKLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLASLDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 23 DTPSSGWTLEKVVEVSRHGVRPPTEKNVKTIQEGTDRQWPTWLTQYGELTG HGYAAAVLKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAETAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGSISLHGPEVLAI IAETIRESYSNNNPLSEVAFGHAKTAAEVAALMPLLTANYDFTNDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAKLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 24 DTPSSGWTLEKVVEVSRHGVRPPTESNVKTIQEGTDRQWPTWLTQYGELTG HGYAAAVLKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEKNDPLFHAETAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGRIYLHGPEVLAN IAETIQMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTAKYDFTNDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAYLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 25 DTPSSGWTLEKVVEVSRHGVRPPTESNVKAIQEGTDRQWPTWLTQYGELTG HGYAAAVLKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAETAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGRIYLHGPEVLAN IAETIQMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTAKYDFTNDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAYLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 26 DTPSSGWTLEKVVEVSRHGVRPPTESNVKEIQEGTDRQWPTWLTQYGELTG HGYAAAVLKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEKNDPLFHAETAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGKIYLHGPEVLAS IAETIQMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTAKYDFTNDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAYLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 27 DTPSSGWTLEKVVEVSRHGVRPPTESNVKTIQEGTDRQWPTWLTQYGELTG HGYAAAVLKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAEKAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGSISLHGPEVLAI IAETIQMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTANYDFTNDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAKLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 28 DTPSSGWTLEKVVEVSRHGVRPPTESNVKTIQEGTNRQWPTWLTQYGELTG HGYAAAVLKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEKNDPLFHAETAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGRIYLHGPEVLAN IAETIQMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTAKYDFTNDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAYLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 29 DTPSSGWTLEKVVEVSRHGVRPPTESNVKAIQEGTDRQWPTWLTQYGELTG HGYAAAVLKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAEKAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGRIYLHGPEVLAN IAETIQMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTAKYDFTNDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAYLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 30 DTPSSGWTLEKVVEVSRHGVRPPTESNVKTIQEGTNRQWPTWLTQYGELTG HGYAAAVLKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAEKAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGRIYLHGPEVLAN IAETIQMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTAKYDFTNDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAYLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 31 DTPSSGWTLEKVVEVSRHGVRPPTESNVKTIQEGTDRQWPTWLTQYGELTG HGYAAAVLKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAEKAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGRIYLHGPEVLAN IAETIQMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTAKYDFTNDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAYLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 32 DTPSSGWTLEKVVEVSRHGVRPPTENNVKTIQEGTNRQWPTWLTQYGELTG HGYAAAVLKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAEKAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGSISLHGPEVLAI IAETIQMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTANYDFTNDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAKLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 33 DTPSSGWTLEKVVEVSRHGVRPPTASNVKKIQEGTDRQWPTWLTQYGELTG HGYAAAVLKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAETAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGHISLHGPEVLAI IAETIQMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTANYDFTNDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAKLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 34 DTPSSGWTLEKVVEVSRHGVRPPTESNVKTIQEGTDRQWPTWLTQYGELTG HGYAAAELKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAEKAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGRIYLHGPEVLAN IAETIQMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTAKYDFTNDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAYLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 35 DTPSSGWTLEKVVEVSRHGVRPPTENNVKTIQEGTNRQWPTWLTQYGELTG HGYAAAVLKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFSGCGVAIQGPEDEDNDPLFHAEKAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGSISLHGPEVLAI IAETIQMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTANYDFTNDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAKLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 36 DTPSSGWTLEKVVEVSRHGVRPPTESNVKTIQEGTDRQWPTWLTQYGELTG HGYAAAELKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAEKAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGKIYLHGPEVLAI IAETIQMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTANYDFTNDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAKLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 37 DTPSSGWTLEKVVEVSRHGVRPPTESNVKTIQEGTDRQWPTWLTQYGELTG HGYAAAELKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAETAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGSIRLHGPEVLAI IAETIQMSYSNNNPLSEVAFGHAKTAAEVAALLPLLTANYDFTNDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAKLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 38 DTPSSGWTLEKVVEVSRHGVRPPTESNVKTIQEGTDRQWPTWLTQYGELTG HGYAAAELKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVGIQGPEDEDNDPLFHAETAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGSIRLHGPEVLAI IAETIQMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTANYDFTNDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAKLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 39 DTPSSGWTLEKVVEVSRHGVRPPTASNVAKIQEGTDRQWPTWLTQYGELTG HGYAAAVLKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAETAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGSITLHGPEVLAI IAETIQMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTANYDFTKDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAMLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVRYTPHHHHH H SEQ ID NO: 40 DTPSSGWTLEKVVEVSRHGVRPPTASNVAKIQEGTDRQWPTWLTQYGELTG HGYAAAVLKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAETAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVEEDNNGSISLHGPEVLAI IAETIQMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTANYDFTKDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAMLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 41 ETTSSGWTLEKVVEVSRHGVRPPTASNVAKIQEGTDRQWPTWLTQYGELTG HGYAAAVLKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAETAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGSITLHGPEVLAN IAETIQMSYSNDNPLSEVAFGHAKTAAEVAALMPLLTAKYDFTNDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAMLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVRYTPHHHHH H SEQ ID NO: 42 DTPSSGWTLEKVVEVSRHGVRPPTESNVKTIQEGTDRQWPTWLTQYGELTG HGYAAAELKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAETAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGSIRLHGPEVLAI IAETIQMSYANNNPLSEVAFGHAKTAAEVAALMPLLTANYDFTNDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAKLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 43 DTPSSGWTLEKVVEVSRHGVRPPTEGNVKAIQEGTDRQWPTWLTQYGELTG HGYAAAELKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAETAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGSIRLHGPEVLAI IAETIQMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTANYDFTKDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAKLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGDRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 44 DTPSSGWTLEKVVEVSRHGVRPPTESNVKTIQEGTDRQWPTWLTQYGELTG HGYAAAELKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAETAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGSIRLHGPEVLAI IAETIRMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTANYDFTNDLPYVAR RGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAKLRTMLGFTWQM GDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAALDDSH PPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTPHHHHH H SEQ ID NO: 45 DTPSAAAPSSGWTLEKVVEVSRHGVRPPTESNVKTIQEGTDRQWPTWLTQY GELTGHGYAAAELKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRET AMALMDGVFPGCGVAIQGPEDEDNDPLFHAETAGVTLDQQQVKADLQNAMQ NKSAAQIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGSIRLHGP EVLAIIAETIQMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTANYDFTNDL PYVARRGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAKLRTMLG FTWQMGDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAA LDDSHPPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTP HHHHHH SEQ ID NO: 46 DTPSSGWTLEKVVEVSRHGVRPPTESNVKTIQEGTDRQWPTWLTQYGELTG HGYAAAELKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAETAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGSIRLHGPEVLAI IAETIQMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTANYDFTNDLPYVAR RGASVLMNQIALALNTEHQAAAAQADAPPDAKWLLYVAHDTNIAKLRTMLG FTWQMGDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAA LDDSHPPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTP HHHHHH SEQ ID NO: 47 DTPSSGWTLEKVVEVSRHGVRPPTESNVKTIQEGTDRQWPTWLTQYGELTG HGYAAAELKGHYEGQYLRQHGLLCQACPAPGDVFVWASPLQRTRETAMALM DGVFPGCGVAIQGPEDEDNDPLFHAETAGVTLDQQQVKADLQNAMQNKSAA QIQAQWQPAIDRLKQAVCLPDKPCPAFSTPWEVKEDNNGSIRLHGPEVAAA EVLAIIAETIQMSYSNNNPLSEVAFGHAKTAAEVAALMPLLTANYDFTNDL PYVARRGASVLMNQIALALNTEHQADAPPDAKWLLYVAHDTNIAKLRTMLG FTWQMGDYPRGNIPPAGSLIFERWRNQQSGQRVVRIYFQAQSLDQIRGLAA LDDSHPPLRSEFSMPDCQKTDIGTLCPYDAVMKRLNDAVDRTALLPVHYTP HHHHHH

    EXAMPLES

    [0043] In the following the present invention is described by the examples. The examples are considered for illustrative purpose only and do not limit the scope of the present invention and claims in any respect.

    Example 1: Thermostability of 3-Phytase Mutants

    [0044] Characterization of 3-phytase mutants regarding their thermostability was done by measuring the volumetric activity at pH 5.5 in acetate buffer before and after heat treatment. Heat treatment was done for 15 minutes at different temperatures (58 to 85° C.) and the enzymatic activity was determined by measuring the phosphate release at different time points using the photometric assay according to Example 4. Using the activities before and after heat treatment IC.sub.50 values were determined, wherein IC.sub.50 is defined as the temperature at which the enzyme shows 50% residual activity after 25 min. of incubation. All 3-phytase mutants of SEQ ID NO: 2 show significantly higher thermostability than the wildtype SEQ ID NO: 2 as presented in the following:

    TABLE-US-00002 SEQ ID NO IC.sub.50 [° C.] SEQ ID. NO: 2  58 SEQ ID. NO: 1  81 SEQ ID. NO: 3  80 SEQ ID. NO: 4  80 SEQ ID. NO: 5  79 SEQ ID. NO: 6  79 SEQ ID. NO: 7  79 SEQ ID. NO: 8  79 SEQ ID. NO: 9  78 SEQ ID. NO: 10 77 SEQ ID. NO: 11 77 SEQ ID. NO: 12 74 SEQ ID. NO: 13 73 SEQ ID. NO: 14 73 SEQ ID. NO: 15 71 SEQ ID. NO: 16 79 SEQ ID. NO: 17 79 SEQ ID. NO: 18 79 SEQ ID. NO: 19 78 SEQ ID. NO: 20 76 SEQ ID. NO: 21 75 SEQ ID. NO: 22 74 SEQ ID. NO: 23 73 SEQ ID. NO: 24 79 SEQ ID. NO: 25 79 SEQ ID. NO: 26 80 SEQ ID. NO: 27 78 SEQ ID. NO: 28 81 SEQ ID. NO: 29 80 SEQ ID. NO: 30 81 SEQ ID. NO: 31 79 SEQ ID. NO: 32 80 SEQ ID. NO: 33 79 SEQ ID. NO: 34 79 SEQ ID. NO: 35 79 SEQ ID. NO: 36 79 SEQ ID. NO: 37 79 SEQ ID. NO: 38 78 SEQ ID. NO: 39 76 SEQ ID. NO: 40 75 SEQ ID. NO: 41 73 SEQ ID. NO: 42 76 SEQ ID. NO: 43 75 SEQ ID. NO: 44 73 SEQ ID. NO: 45 76 SEQ ID. NO: 46 75 SEQ ID. NO: 47 64

    Example 2: Phosphate Release in Application Testing of Thermostable 3-Phytase Mutants Comprising the Mutations D149N, S189D, K190N, K191N, R210Q and L211M

    [0045] The phosphate release of each 3-phytase mutant of SEQ ID NO: 2 comprising the mutations D149N, S189D, K190N, K191N, R210Q and L211M was determined in a close-to-application testing and compared to the wildtype SEQ ID NO:2. Therefore, 3-phytase mutants were expressed in Pichia pastoris and the volumetric activity was determined according to DIN EN ISO 30024:2009 (https://www.iso.org/standard/45787.html) with minor changes (format downscaled by a factor of 5). The enzymes were applied with 500 units/kg feed in the application testing. Here, 15 g of a 70/30 mixture of corn and soy was incubated at 41° C. using 25% dry matter for 60 minutes at pH 3 and 5. Afterwards, the released phosphate was measured using the ammonium molybdate assay according to Example 4. The Performance Index was calculated as follows: [(Released phosphate [mM] at pH 3).sub.variant/released phosphate [mM] at pH 3).sub.SEQ ID NO: 2]×[(released phosphate [mM] at pH 5).sub.variant/(released phosphate [mM] at pH 5).sub.SEQ ID NO: 2]. All 3-phytase mutants show an improved performance index compared to the wildtype SEQ ID NO: 2 as presented in the following Table:

    TABLE-US-00003 SEQ ID NO Performance Index SEQ ID. NO: 2  1.00 SEQ ID. NO: 47 2.92 SEQ ID. NO: 4  1.88 SEQ ID. NO: 6  1.88 SEQ ID. NO: 7  1.89 SEQ ID. NO: 8  1.96 SEQ ID. NO: 10 2.18 SEQ ID. NO: 14 2.09 SEQ ID. NO: 19 2.02 SEQ ID. NO: 20 1.93 SEQ ID. NO: 21 1.94 SEQ ID. NO: 26 2.43 SEQ ID. NO: 28 2.39 SEQ ID. NO: 29 2.08 SEQ ID. NO: 30 1.90 SEQ ID. NO: 31 1.95 SEQ ID. NO: 34 1.94 SEQ ID. NO: 1  2.00 SEQ ID. NO: 37 2.49 SEQ ID. NO: 38 1.97 SEQ ID. NO: 39 2.11 SEQ ID. NO: 40 2.27 SEQ ID. NO: 41 1.89 SEQ ID. NO: 45 1.94 SEQ ID. NO: 46 1.88

    Example 3: Determination of the pH Profile of Thermostable 3-Phytase Mutants of SEQ ID NO: 2

    [0046] The improved performance of the 3-phytase mutants is majorly founded by a shifted pH profile towards a lower pH. Therefore, the pH profile of selected 3-phytase mutants of SEQ ID NO: 2 was determined by measuring the activity at different pH values using the photometric assay according to Example 4. Fig. shows a shift in pH optimum for all variants compared to the wildtype SEQ ID NO: 2.

    Example 4: Determination of the Enzymatic Activity of 3-Phytase Mutants

    [0047] 5 μL enzyme solution (in 100 mmol/L sodium acetate buffer, pH 5.5, 0.05% (w/v) Triton X-100) were incubated with 95 μL 2.88 mmol/L sodium phytate (Sigma 68388, lot BCBM4006V) in 100 mmol/L sodium acetate buffer, pH 5.5 at for 25 min. The reaction was stopped by adding 100 μL 10% (w/v) trichloroacetic acid. Subsequently, 100 μL of the stopped enzymatic reaction was mixed with 100 μL molybdate reagent (aqueous solution of 1.2% (w/v) ammonium molybdate; 4.4% (v/v) sulfuric acid, and 27 mg/mL (w/v) ferrous sulfate) and the solution was incubated for 15 min at room temperature. Absorbance at 700 nm was determined and the amount of released inorganic phosphate was calculated using inorganic phosphate standard solutions (0-1.5 mmol/L). One unit of phytase activity was defined as the amount of enzyme that releases 1 μmol phosphate per min at 37° C.