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旨在优化菌株Bacillus sp.50-3产角蛋白酶的发酵工艺及纯化。研究不同发酵条件对菌株Bacillus sp.50-3产角蛋白酶的影响,采用硫酸铵沉淀和阴离子交换柱层析对酶进行分离纯化。结果:角蛋白酶最佳发酵条件为60 mL/300 mL、pH=8.0、种龄12 h、接种量2%、温度37℃、140 r/min摇床培养36 h; 40%~80%的硫酸铵沉淀可以去除发酵酶液中的大部分杂蛋白,通过DEAE-Sephadex-A50阴离子交换柱层析,经SDS-PAGE,考马斯亮蓝染色得到一条电泳条带,分子量约为30 kDa,经酶活性电泳检测具有角蛋白酶活力。综上,该研究结果对角蛋白酶在工业生产中的推广应用具有重要的参考价值。
Abstract:This experiment aimed to optimize the fermentation process of keratinase production by the Bacillus sp. 50-3 strain and to purify the enzyme. Different fermentation conditions were studied for effects of keratinase from the strain Bacillus sp. 50-3. Ammonium sulfate precipitation and anion-exchange column chromatography were used to separate and purify the keratinase. The results showed that the optimal fermentation conditions were 60 mL/300 mL, pH=8.0, seed age 12 h, inoculation amount 2%, temperature 37 ℃, and 140 r/min shaker culture for 36 h. The keratianse was purified through 40%-80% of(NH4)_2SO4 precipitation and DEAE-Sephadex-A50 ion exchange column. It was found that the co-omassie brilliant blue R-250 stain obtained one band with keratinase activity determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Its molecular weight was about 30 kDa. In summary, this study is of important reference significance for the application of keratinase in industrial production.
[1] AKRAM F,AQEEL A,SHOAIB M,et al.Multifarious revolutionary aspects of microbial keratinases:an efficient green technology for future generation with prospective applications[J].Environ Sci Pollut Res Int,2022,29(58):86913-86932.
[2] NNOLIM N E,UDENIGWE C C,OKOH A I,et al.Microbial keratinase:next generation green catalyst and prospective applications[J].Front Microbiol,2020,11:580164.
[3] BARMAN N C,ZOHORA F T,DAS K C,et al.Production,partial optimization and characterization of keratinase enzyme by Arthrobacter sp.NFH5 isolated from soil samples[J].AMB Express,2017,7(1):181.
[4] SHARMA I,KANGO N.Production and characterization of keratinase by Ochrobactrum intermedium for feather keratin utilization[J].Int J Biol Macromol,2021,166:1046-1056.
[5] AKRAM F,HAQ I U,HAYAT A K,et al.Keratinolytic enzyme from a thermotolerant isolate Bacillus sp.NDS-10:an efficient green biocatalyst for poultry waste management,laundry and hide-dehairing applications[J].Waste Biomass Valorization,2021,12(9):5001-5018.
[6] EL-REFAI H A,ABDELNABY M A,GABALLA A,et al.Improvement of the newly isolated Bacillus pumilus FH9 keratinolytic activity[J].Process Biochem,2005,40(7):2325-2332.
[7] 岳晓禹,常惟丹,崔丽伟,等.产角蛋白酶芽胞杆菌50-3的分离与初步鉴定[J].食品研究与开发,2024,45(23):203-208.
[8] ALAHYARIBEIK S,SHARIFI S D,TABANDEH F,et al.Bioconversion of chicken feather wastes by keratinolytic bacteria[J].Process Saf Environ Prot,2020,135:171-178.
[9] NNOLIM N E,OKOH A I,NWODO U U.Proteolytic bacteria isolated from agro-waste dumpsites produced keratinolytic enzymes[J].Biotechnol Rep,2020,27:e00483.
[10] BOHACZ J,KORNI??OWICZ-KOWALSKA T,KITOWSKI I,et al.Degradation of chicken feathers by Aphanoascus keratinophilus and Chrysosporium tropicum strains from pellets of predatory birds and its practical aspect[J].Int Biodeterior Biodegrad,2020,151:104968.
[11] ABIRAMI S,RAGAVI R,ANTONY V S.Utilization of keratinolytic Lichtheimia corymbifera AS1 for degradation of cattle hoove-a slaughter house waste to use in plant growth[J].Biointerface Res Appl Chem,2020,10(5):6417-6426.
[12] KEROUAZ B,JAOUADI B,BRANS A,et al.Purification and biochemical characterization of two novel extracellular keratinases with feather-degradation and hide-dehairing potential[J].Process Biochem,2021,106:137-148.
[13] RIFFEL A,LUCAS F,HEEB P,et al.Characterization of a new keratinolytic bacterium that completely degrades native feather keratin[J].Arch Microbiol,2003,179(4):258-265.
[14] BRADFORD M M.A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding[J].Anal Biochem,1976,72(1/2):248-254.
[15] SCH?GGER H,VON JAGOW G.Tricine-sodium dodecyl sulfate-polyacrylamide gel electrophoresis for the separation of proteins in the range from 1 to 100 kDa[J].Anal Biochem,1987,166(2):368-379.
[16] RIFFEL A,BRANDELLI A,DE M BELLATO C,et al.Purification and characterization of a keratinolytic metalloprotease from Chryseobacterium sp.Kr6[J].J Biotechnol,2007,128(3):693-703.
[17] NAM G W,LEE D W,LEE H S,et al.Native-feather degradation by Fervidobacterium islandicum AW-1,a newly isolated keratinase-producing thermophilic anaerobe[J].Arch Microbiol,2002,178(6):538-547.
[18] SANGALI S,BRANDELLI A.Feather keratin hydrolysis by a Vibrio sp.strain Kr2[J].J Appl Microbiol,2000,89(5):735-743.
[19] PLOWMAN J E,HARLAND D P,DEB-CHOUDHURY S.The hair fibre:proteins,structure and development[M].Singapore:Springer Singapore,2018:89-96.
[20] SHAD A A,AHMAD T,IQBAL M F,et al.Production,partial purification and characterization of protease through response surface methodology by Bacillus subtilis K-5[J].Braz Arch Biol Technol,2024,67:e24210355.
[21] KHAN A,MEHMOOD K,NADHMAN A,et al.Microbial production of keratinase from Bacillus velezensis strain MAMA:a novel enzyme for eco-friendly degradation of keratin waste[J].Heliyon,2024,10(12):e32338.
[22] REVANKAR A G,BAGEWADI Z K.Keratinase from Bacillus velezensis strain ZBE1:purification,structural characterization,immobilization and its multi-faceted applications[J].J Indian Chem Soc,2025,102(1):101522.
[23] AL-KADMY I M S,AZIZ S N,SUHAIL A,et al.Enhancing the anti-biofilm activity of novel keratinase isolated from Acinetobacter baumannii using Reduced Graphene oxide:a way to recycle feather waste pollution[J].Clean Waste Syst,2023,5:100087.
[24] GEGECKAS A,GUDIUKAITè R,CITAVICIUS D.Keratinolytic proteinase from Bacillus thuringiensis AD-12[J].Int J Biol Macromol,2014,69:46-51.
基本信息:
中图分类号:TQ925
引用信息:
[1]岳晓禹,崔丽伟,常惟丹,等.菌株Bacillus sp.50-3产角蛋白酶的发酵工艺优化及纯化[J].畜牧与兽医,2025,57(12):27-33.
基金信息:
河南省科技发展计划项目(232102111068); 河南省高等学校重点科研项目计划项目(22A550012)