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对弗氏链霉菌S-221变种降解角蛋白的生化机制进行了初步研究。该菌在角蛋白底物作用下诱导产生角蛋白酶。它是一种复合蛋白酶,含有二硫键还原酶和多肽水解酶等多种酶活性组分。硫酸钠、亚硫酸钠和巯基乙醇对角蛋白酶具有强烈的激活作用,其主要表现作用于角蛋白酶中的二硫键还原酶。亚硫酸钠在0·01mol/L浓度下不仅作用于二硫键还原酶,而且还作用于多肽水解酶。硫代硫酸钠对二硫键还原酶有强烈的抑制作用。角蛋白酶降解羽毛角蛋白首先是角蛋白酶中的二硫键还原酶使角蛋白中二硫键裂解产生变性角蛋白,然后变性角蛋白在多肽水解酶的共同 相似文献
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采用Stenotrophomonas maltophilia产角蛋白酶降解羊毛角朊蛋白,通过测定反应前后残液中巯基和肽键的变化探讨角蛋白酶作用机理。结果表明,角蛋白酶主要作用是断裂角蛋白中的二硫键,也能降解大分子蛋白质,但作用效果不强。羊毛胱氨酸分析结果进一步证明角蛋白酶能断裂羊毛鳞片层中胱氨酸二硫键。SEM结果显示单独使用角蛋白酶对羊毛鳞片去除效果不佳,但角蛋白酶和蛋白酶二浴法工艺能有效降解、剥离羊毛鳞片。 相似文献
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《微生物学通报》2006,(6)
角蛋白酶研究进展角蛋白酶(keratinase)是分解角蛋白的一类蛋白酶,应用广泛,如分解含角蛋白的毛发、羽毛、角蹄、鳞等等,而角蛋白的化学结构稳定,不溶于水,一般的蛋白酶对它们降解不起什么作用。只有角蛋白酶对角蛋白有分解活性,所以称这种酶为角蛋白酶。除某些真菌、放线菌具有产生角蛋白酶能力之外,在细菌中某些细菌菌种具有分解角蛋白的活力,如黄杆菌属Chryseobacterium、Bacillus等属的某些种产生角蛋白酶均有分解角蛋白酶能力,其中有两种细菌值得注意:一是地衣芽孢杆菌(Bac.lincheniformis),它似乎以羽毛为唯一有机底物生长繁殖,从分… 相似文献
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角蛋白酶及其研究进展 总被引:2,自引:0,他引:2
角蛋白在一般情况下很难被降解,工业上用高温、高压的办法降解角蛋白。然而,角蛋白酶能在温和的条件下降解角蛋白。本文对角蛋白的理化性质、发酵条件和分子生物学进行了综述。 相似文献
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硫氧还蛋白(Trx)属于巯基-二硫键氧化还原酶家族, 通过作用于底物蛋白侧链2个半胱氨酸残基之间的二硫键(还原、异构和转移)来调控胞内蛋白的结构和功能。叶绿体Trx系统包括Trx及Trx类似蛋白、铁氧还蛋白(Fd)依赖的硫氧还蛋白还原酶(FTR)和还原型烟酰腺嘌呤二核苷磷酸(NADPH)依赖的硫氧还蛋白还原酶C (NTRC)。除了基质蛋白酶类活性变化及叶绿体蛋白的转运受Trx系统调控之外, 在叶绿体中还存在1条跨类囊体膜的还原势传递途径, 把基质Trx的还原势经跨膜转运蛋白介导, 最终传递给类囊体腔蛋白。FTR和NTRC共同作用维持叶绿体的氧化还原平衡。该文对叶绿体硫氧还蛋白系统的调节机制进行了综述, 同时讨论了叶绿体硫氧还蛋白系统对维持植物光合效率的重要意义。 相似文献
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The keratinase production by the thermophilic actinomycete strain Thermoactinomyces candidus was induced by sheep wool as the sole source of carbon and nitrogen in the cultivation medium. For complete digestion of wool by the above strain, both keratinolytic serine proteinase and cellular reduction of disulfide bonds were involved. Evidence was presented that substrate induction was a major regulatory mechanism and the keratinase biosynthesis was not completely repressed by addition of other carbon (glucose) and nitrogen (NH4C1) sources. The enzyme was purified 62-fold by diethylaminoethyl-anion exchange and Sephadex G-75 gel permeation chromatographies. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis indicated that the purified keratinase is a monomeric enzyme with a molecular mass of 30 kDa. The pH and temperature optima were determined to be 8.6 and 70 degrees C, respectively. The purified thermophilic keratinase catalyses the hydrolysis of a broad range of substrates and displays higher proteolytic activity against native keratins than other proteinases. Ca2+ was found to have a stabilizing effect on the enzyme activity at elevated temperatures. 相似文献
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Baihong liu Juan Zhang Zhen Fang Lei Gu Xiangru Liao Guocheng Du Jian Chen 《Journal of industrial microbiology & biotechnology》2013,40(7):697-704
Keratinases are proteolytic enzymes capable of degrading insoluble keratins. The importance of these enzymes is being increasingly recognized in fields as diverse as animal feed production, textile processing, detergent formulation, leather manufacture, and medicine. To enhance the thermostability of Bacillus licheniformis BBE11-1 keratinase, the PoPMuSiC algorithm was applied to predict the folding free energy change (ΔΔG) of amino acid substitutions. Use of the algorithm in combination with molecular modification of homologous subtilisin allowed the introduction of four amino acid substitutions (N122Y, N217S, A193P, N160C) into the enzyme by site-directed mutagenesis, and the mutant genes were expressed in Bacillus subtilis WB600. The quadruple mutant displayed synergistic or additive effects with an 8.6-fold increase in the t 1/2 value at 60 °C. The N122Y substitution also led to an approximately 5.6-fold increase in catalytic efficiency compared to that of the wild-type keratinase. These results provide further insight into the thermostability of keratinase and suggest further potential industrial applications. 相似文献
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Keratinolytic potential of Bacillus licheniformis RG1: structural and biochemical mechanism of feather degradation 总被引:2,自引:0,他引:2
Keratinolytic Bacillus licheniformis RG1 was used to study the mechanism of keratinolysis. Scanning electron microscopy studies revealed that bacterial cells grew closely adhered to the barbules of feathers, completely degrading them within 24 h. Biochemical studies indicated that the Bacillus strain produced an extracellular protease, which had keratinolytic potential. The extracellular keratinolytic activity (425 U) was synergistically enhanced by the addition of intracellular disulfide reductases (1712 U). However, these enzymes alone (keratinase and disulfide reductase), without live bacterial cells, failed to degrade the feather. Complete feather degradation was obtained only when living bacterial cells were present, emphasizing that bacterial adhesion plays a key role during the degradation process. The bacterial cells probably provide a continuous supply of reductant to break disulfide bridges. In addition, sulfite detected in the extracellular broth during feather degradation indicated that sulfitolysis may also play a role in feather degradation by the bacterium. 相似文献
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M Bilzer R L Krauth-Siegel R H Schirmer T P Akerboom H Sies G E Schulz 《European journal of biochemistry》1984,138(2):373-378
S-Conjugates of glutathione influence the glutathione/glutathione disulfide (GSH/GSSG) status of hepatocytes in at least two ways, namely by inhibition of GSSG transport into the bile [Akerboom et al. (1982) FEBS Lett. 140, 73-76] and by inhibition of the enzyme GSSG reductase (EC 1.6.4.2). The interaction of GSSG reductase with a well-studied conjugate, namely S-(2,4-dinitrophenyl)-glutathione and its electrophilic precursor 1-chloro-2,4-dinitrobenzene are described. For short exposures both compounds are reversible inhibitors of the enzyme, the Ki values being 30 microM and 22 microM respectively. After prolonged incubation, 1-chloro-2,4-dinitrobenzene blocks GSSG reductase irreversibly, which emphasizes the need for rapid conjugate formation in situ. As shown by X-ray crystallography the major binding site of S-(2,4-dinitrophenyl)-glutathione in GSSG reductase overlaps the binding site of the substrate, glutathione disulfide. However, the glutathione moiety of the conjugate does not bind in the same manner as either of the glutathiones in the disulfide. 相似文献
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《Biophysical journal》2022,121(11):2168-2179
Cysteine residues perform a dual role in mammalian hairs. The majority help stabilize the overall assembly of keratins and their associated proteins, but a proportion of inter-molecular disulfide bonds are assumed to be associated with hair mechanical flexibility. Hair cortical microstructure is hierarchical, with a complex macro-molecular organization resulting in arrays of intermediate filaments at a scale of micrometres. Intermolecular disulfide bonds occur within filaments and between them and the surrounding matrix. Wool fibers provide a good model for studying various contributions of differently situated disulfide bonds to fiber mechanics. Within this context, it is not known if all intermolecular disulfide bonds contribute equally, and, if not, then do the disproportionally involved cysteine residues occur at common locations on proteins? In this study, fibers from Romney sheep were subjected to stretching or to their breaking point under wet or dry conditions to detect, through labeling, disulfide bonds that were broken more often than randomly. We found that some cysteines were labeled more often than randomly and that these vary with fiber water content (water disrupts protein-protein hydrogen bonds). Many of the identified cysteine residues were located close to the terminal ends of keratins (head or tail domains) and keratin-associated proteins. Some cysteines in the head and tail domains of type II keratin K85 were labeled in all experimental conditions. When inter-protein hydrogen bonds were disrupted under wet conditions, disulfide labeling occurred in the head domains of type II keratins, likely affecting keratin-keratin-associated protein interactions, and tail domains of the type I keratins, likely affecting keratin-keratin interactions. In contrast, in dry fibers (containing more protein-protein hydrogen bonding), disulfide labeling was also observed in the central domains of affected keratins. This central “rod” region is associated with keratin-keratin interactions between anti-parallel heterodimers in the tetramer of the intermediate filament. 相似文献
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盐胁迫对扁桃光合特性和叶绿体超微结构的影响 总被引:14,自引:0,他引:14
温室条件下,分别用浓度为150、300、350 mmol/L的NaCl和Na2SO4处理‘石头扁桃’和‘桃扁桃’实生苗植株,处理10 d后分别测定其叶片叶绿素含量、净光合速率、气孔导度、细胞间隙CO2浓度,并观察叶绿体超微结构的变化。研究发现:(1)盐胁迫下,‘石头扁桃’和‘桃扁桃’chl a、chl b均在低浓度盐区含量最高,而在高浓度盐区含量最低,Na2SO4处理区chl a、chl b含量均低于NaCl处理区;(2)‘石头扁桃’和‘桃扁桃’叶片净光合速率随盐浓度的增加而下降,‘石头扁桃’下降的幅度较大;(3)‘桃扁桃’叶片细胞间隙CO2浓度随盐浓度的增加而升高,但‘石头扁桃’叶片细胞间隙的CO2浓度变化没有稳定的规律;(4)2个品种的叶片气孔导度均随盐浓度的增加而降低;(5)盐胁迫后,叶绿体基粒、基质片层扭曲,类囊体肿胀;随盐浓度的增加,形变加剧,叶绿体由椭圆形肿胀成圆形,叶绿体膜解体,且‘石头扁桃’叶绿体对盐胁迫比较敏感。综合分析发现,2种盐胁迫对植物造成伤害的机理不同,‘石头扁桃’的耐盐能力较差。 相似文献
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Wang H Parry DA Jones LN Idler WW Marekov LN Steinert PM 《The Journal of cell biology》2000,151(7):1459-1468
Intermediate filaments (IF) have been recognized as ubiquitous components of the cytoskeletons of eukaryotic cells for 25 yr. Historically, the first IF proteins to be characterized were those from wool in the 1960s, when they were defined as low sulfur keratins derived from "microfibrils." These proteins are now known as the type Ia/type IIa trichocyte keratins that constitute keratin IF of several hardened epithelial cell types. However, to date, of the entire class of >40 IF proteins, the trichocyte keratins remain the only ones for which efficient in vitro assembly remains unavailable. In this paper, we describe the assembly of expressed mouse type Ia and type IIa trichocyte keratins into IF in high yield. In cross-linking experiments, we document that the alignments of molecules within reduced trichocyte IF are the same as in type Ib/IIb cytokeratins. However, when oxidized in vitro, several intermolecular disulfide bonds form and the molecular alignments rearrange into the pattern shown earlier by x-ray diffraction analyses of intact wool. We suggest the realignments occur because the disulfide bonds confer substantially increased stability to trichocyte keratin IF. Our data suggest a novel role for disulfide bond cross linking in stabilization of these IF and the tissues containing them. 相似文献
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Pathange Prakash Senigala K. Jayalakshmi Kuruba Sreeramulu 《Applied microbiology and biotechnology》2010,87(2):625-633
Two alkaline keratinases-I and II secreted by Bacillus halodurans PPKS-2 were purified and characterized. Both the keratinases were purified using ammonium sulfate, DEAE-Sephadex followed
by Sephadex G-200 column chromatography. The purification was 21.5-fold and 11.17% yield for keratinase-I and 23.7-fold with
yield 18.46 for keratinase-II and its molecular weights 30 and 66 kDa. Both purified enzymes were relatively stable over a
broad pH range 7.0–13.0 and optimally active at pH 11.0 and 60–70 °C. Keratinase-II was found to be more stable at 70 °C for
3 h and retained 100% of its activity, whereas keratinase-I lost 10% activity. Keratinase-I had high keratin disulfide reductase
activity with low keratinase activity whereas keratinase-II had high keratinase activity with low keratin disulfide reductase
activity. Keratinase activities of both the enzymes were completely inhibited by PMSF at 1 mM, whereas keratin disulfide reductase
activity of keratinase-I was not affected. Enzymes were active and stable in the presence of the surfactants, bleaching agents
(20% H2O2), commercial detergents (1%), and SDS (20%). Both the enzymes were partially sequenced and found that keratinase-I and II
had a homology with disulfide reductases and serine type of proteases, respectively. 相似文献
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The NADPH-dependent enzymic reduction of disulfide bonds in human choriogonadotropin and its two subunits, alpha and beta, was examined with thioredoxin and thioredoxin reductase from Escherichia coli. With 12 muM thioredoxin and 0.1 muM thioredoxin reductase at pH 7 all disulfide bonds in the alpha subunit could be reduced in 15 min. The reduction of disulfide bonds was recorded by a simple spectrophotometric assay at 340 nm, which allowed quantitation of the reduction rate and the number of disulfide bonds reduced. Partial reduction of the alpha subunit with thioredoxin followed by S-carboxymethylation with iodol[2-3H]acetic acid and analysis of tryptic peptides indicated that all S-S bonds in the alpha subunit were surface oriented and equally reactive. The usefulness of thioredoxin reduction of disulfide bonds as a chemical probe of protein structure was shown by the much slower reaction of disulfide bonds in the intact hormone as compared to its two biologically inactive subunits. 相似文献