一株羽毛降解菌产酶特性的初步研究

通过富集培养从土壤中分离到一株能降解羽毛角蛋白的芽孢八叠球菌（编号为GIMN1.015）。以天然羽毛为底物,初步研究了温度、起始pH、辅助碳源以及羽毛底物含量对该菌株的蛋白酶水解活性的影响。结果表明,在羽毛发酵培养基中,菌株GIMN1.015在初始pH 11.0、温度30℃时,蛋白酶活力最强;与培养基中只含有羽毛的发酵过程相比,添加葡萄糖有利于提高蛋白酶的活性;底物浓度为1.5%时蛋白酶活性最高。本试验结果为进一步利用角蛋白降解微生物实现羽毛角蛋白的资源化利用奠定了基础。     

五株乳酸菌和三株芽孢杆菌的生物学特性和功能

【背景】乳酸菌和芽孢杆菌是应用于生产最多的益生菌,但不同菌株间的生长特性均不相同,因此了解菌株的生物学特性具有重要意义。【目的】研究菌株的生物学特性,能合理地开发和利用菌株,以保证菌株生产应用的安全性。【方法】活化后鉴定5株乳酸菌和3株芽孢杆菌并对其形态进行观察,探究菌株的生长曲线、产酸能力及最适生长条件,测定菌株的抑菌活性和产酶性能,同时探究菌株的益生性和安全性。【结果】五株乳酸菌分别编号鉴定为干酪乳杆菌R1、副干酪乳杆菌R2、香肠乳杆菌R3、福莱乳杆菌R4和唾液乳杆菌R5;3株芽孢杆菌分别编号命名为贝莱斯芽孢杆菌Y1、枯草芽孢杆菌Y2和地衣芽孢杆菌Y3。八株菌形态结构均不相同但都为杆状,均在2–10 h为对数生长期,18–24 h为稳定期,培养24 h时乳酸菌和芽孢杆菌的活菌数均保持在10⁹和10⁸ CFU/mL,最适生长温度为37.0℃。乳酸菌具有较强的产酸能力和抑菌活性,芽孢杆菌有较强的产酶性,在人工胃液中都有较强的耐受性。八株菌都无溶血活性、无毒力基因、对抗生素都保持中度敏感以上;其中唾液乳杆菌有四环素耐药基因,但对四环素抗性为中度敏感。【结论】八株菌生长繁殖速度快,乳酸菌产酸能力和抑菌活性较强,芽孢杆菌具有较强的产酶性能,在体外具有较好的益生性和安全性,可应用于生产实践。     

除草剂氟磺胺草醚降解菌FB8的分离鉴定与土壤修复

【目的】从氟磺胺草醚污染土壤分离高效降解菌株,进行分类学鉴定、降解特性及土壤修复能力初步研究,为氟磺胺草醚污染土壤微生物修复提供新的菌株。【方法】通过形态特征、生理生化特征和16S rRNA序列分析方法进行菌株鉴定;通过农药初始浓度、pH值、温度等环境因素的研究得到菌株的最适生长条件;通过敏感作物和靶标杂草的盆栽生测试验,验证菌株对氟磺胺草醚污染土壤的修复能力。【结果】本试验从黑龙江省长期施用氟磺胺草醚的大豆田地中分离出一株能以氟磺胺草醚为唯一碳源生长的细菌FB8,初步鉴定为假单胞菌属(Pseudomonas),该菌株在96 h内对500 mg/L氟磺胺草醚的降解率高达86.75%,其最适生长条件为500 mg/L农药初始浓度、初始pH6.0-8.0、35-37℃,该菌株处理30 d能够显著恢复敏感作物玉米和高粱的各项生物量指标,对氟磺胺草醚浓度为5 mg/kg的土壤修复效果明显。【结论】从黑龙江省污染土壤中筛选得到的高效降解氟磺胺草醚的门多萨假单胞菌Pseudomonas mendocina FB8,盆栽生测试验表明该菌株具有很好的土壤修复作用,可为氟磺胺草醚的生物修复研究提供适宜的菌种资源。     

产大米蛋白水解酶的菌株筛选、酶学性质及制备大米寡肽

【目的】旨在分离、筛选并鉴定具有大米蛋白降解作用的菌株及其关键蛋白酶,为高效制备大米寡肽提供制备酶及最优制备条件。【方法】以"水解圈"为评价指标,从粮食仓库附近土壤筛选获得具有降解大米蛋白能力的菌株;通过16S rRNA序列分析确定菌株归属;利用单因素实验获得最佳氮源并初步分析酶学性质;利用HPLC检测寡肽得率,并对制备条件进一步优化。【结果】经鉴定具有大米蛋白降解作用的菌株为沙雷氏菌(Serratia sp. JWG-D15),以大米蛋白为氮源培养菌株JWG-D15,蛋白酶So PRO产量最高,其最适温度40℃,最适pH 8.0;在加酶量20 U/mg,大米蛋白浓度40 mg/mL,40℃,4 h条件下寡肽得率最高72.38%。【结论】以大米蛋白为氮源培养菌株JWG-D15,蛋白酶So PRO产量最高;蛋白酶So PRO制得的大米寡肽,其得率是目前行业最高。本研究既丰富了大米寡肽的制备用酶的种类,又为深入大米寡肽产业化提供一定理论基础。     

羽毛降解菌的分离鉴定及角蛋白酶基因克隆

为了从废弃羽毛堆积土壤中分离筛选具有高效降解羽毛角蛋白的细菌,采用形态学观察、生化测定和16S rDNA序列分析鉴定菌株,测定蛋白水解研究酶活性及酶特性,鉴定该菌为假单胞菌属的嗜麦芽窄食单胞菌,降解羽毛的最适发酵培养温度为30℃,最适pH 7.0,最适接种量1%,最适发酵时间48 h,羽毛含量在0.25~0.5 g/50m L时产酶酶活性最高且较稳定,适合降解羽毛和头发。嗜麦芽窄食单胞菌角蛋白酶的作用温度和pH宽泛、稳定性好,具有良好的开发价值和应用前景。     

一株可高效降解羽毛的铜绿假单胞菌的分离、鉴定、产酶条件优化及其酶活研究

【目的】筛选海洋环境产角蛋白酶菌株,研究其发酵条件及酶学性质,为后续开发和利用海洋微生物降解废弃羽毛提供菌种资源和理论依据。【方法】采集广西北部湾某海鸭养殖场淤泥,用酪蛋白平板初筛和角蛋白酶活复筛获得羽毛降解效果好的菌株,并进行形态学和分子生物学鉴定;利用单因素和正交试验对菌株产酶条件进行优化,最后对酶学性质及羽毛降解产物的游离氨基酸组成进行研究。【结果】筛选到1株可高效降解羽毛的菌株,经鉴定为铜绿假单胞菌(Pseudomonas aeruginosa Gxun-7)。最佳产酶条件为：羽毛25 g/L,Zn2+0.10 g/L、初始pH 8.0、发酵温度32.5°C、发酵时间48 h,酶活力达124.03 U/mL,较优化前提高了2.3倍;酶学性质分析表明,该角蛋白酶最适作用温度和pH分别为70°C和8.0,化学试剂巯基乙醇可使酶活提高6.16倍,而苯甲基磺酰氟(PMSF)使相对酶活降至15.00%,该酶耐盐性较好(20%NaCl中相对酶活为74.29%);羽毛降解产物中检测到16种氨基酸,7种为必需氨基酸,总的游离氨基酸含量高达2 329.80 mg/L,其中缬氨酸含量最高为575....     

产碱性蛋白酶芽孢杆菌的鉴定

通过测量比较在碱性蛋白平板上产生的蛋白水解圈直径,从土壤中筛选到一株高产蛋白酶菌株Bacillus sp.HFBL0079,根据生理生化特性、16S rDNA序列,鉴定为B.amyloliquefaciens。其最适培养温度为35°C-37°C,最适生长pH 8.0,在特定培养条件下16 h达到稳定期,菌体生长和蛋白酶合成同步进行。以大豆分离蛋白为氮源时发酵液具有最高酶活。发酵液在pH 10时具有最高酶活,表明为碱性蛋白酶。该菌株产生的碱性蛋白酶可水解多种天然蛋白质,对胶原蛋白水解度高于其他蛋白质,对羽毛角蛋白也有一定水解能力,提示该酶具有一定新颖性。     

一株水稻纹枯菌拮抗细菌的分离与鉴定

【目的】从土壤中分离并鉴定水稻纹枯菌拮抗细菌,测定其体外抑菌和温室防治效果。【方法】采用系列稀释法和平板对峙法筛选拮抗细菌,基于形态、生理特征及16S rDNA序列鉴定其分类地位,采用种子细菌化温室试验测定其防效。【结果】从蔬菜根际土壤中筛选出一株纹枯菌拮抗细菌,命名为kwkjT4。菌株具有明显的体外抑菌活性,对水稻纹枯病的温室防效与井冈霉素相当,初步鉴定为假紫色色杆菌(Chromobacterium pseudoviolaceum)。最适生长条件为pH 7.0,温度32°C,培养时间为36 h;抑菌活性物质产生的最适培养条件为pH 6.0,温度28°C,培养时间为48 h;表明两者并不一致。【结论】kwkjT4菌株在水稻纹枯病的生物防治中具有潜在的应用价值。这是C.pseudoviolaceum拮抗纹枯菌的首次报道。     

一株培菌白蚁后肠木聚糖降解细菌的分离与鉴定

【目的】从培菌白蚁——黄翅大白蚁肠道微生物菌群中分离能降解木聚糖的细菌。【方法】以木聚糖为唯一碳源,利用刚果红染色,根据透明圈大小进行筛选。通过显微形态,革兰氏染色及16S r RNA基因序列分析进行菌株鉴定。二硝基水杨酸(DNS)法测定细菌生长过程中木聚糖酶酶活变化,比较酶活与菌株生长状况的关系。【结果】从黄翅大白蚁肠道中筛选到一株具有较高木聚糖降解活性的革兰氏阳性菌Mb1,16S r RNA基因序列分析表明为类芽孢杆菌属细菌,命名为Paenibacillus sp.Mb1。该菌培养72 h后菌体浓度达到最高,木聚糖酶酶活主要存在于培养液上清中,酶活在对数期增长快,在培养96 h时达到最高值,之后趋于稳定。【结论】从黄翅大白蚁肠道中分离出一株具有较高木聚糖酶活的类芽孢杆菌,可作为产细菌木聚糖酶的潜在优良菌株。     

土壤中蓖麻碱降解菌的分离及脱毒效果的初步研究

以蓖麻碱为底物,从蓖麻种植地土壤中筛选出脱毒能力强、生长旺盛的菌株6-6t,经初步鉴定为假单胞菌,其最适生长温度为30℃,最适pH为7.0。经脱毒实验,6-6t菌降解蓖麻碱的脱除率达到71.63%,且该菌并不降解蓖麻饼粕中的蛋白质。     

Feather keratin hydrolysis by a Vibrio sp. strain kr2

The aim of the study was to characterize feather-degrading bacteria isolated from poultry industry waste. A Vibrio sp. strain kr2 producing a high keratinolytic activity when cultured on native feather-containing broth was isolated. The bacterium grew with an optimum at pH 6.0 and 30 degrees C, where maximum featherdegrading activity was also observed. Keratinase production was similar at both 25 and 30 degrees C, while the maximum concentration of soluble protein was reached at 30 degrees C. Reduction of disulphide bridges was also observed, increasing with cultivation time. The keratinase of strain kr2 was active on azokeratin, azocasein, benzoyl-arginine-p-nitroanilide and Ala-Ala-p-nitroanilide as substrates. The amino acid composition of the feather hydrolysate was determined, presenting similarities with that reported for feather lysate, feather meal and raw feathers. A novel feather-degrading bacterium was isolated and characterized, showing high keratinolytic activity. Complete feather degradation was achieved during cultivation. Strain kr2 shows potential for use for biotechnological processes involving keratin hydrolysis.     

Production of keratinolytic enzyme by a newly isolated feather-degrading Stenotrophomonas maltophilia that produces plant growth-promoting activity

A novel feather-degrading Stenotrophomonas maltophilia R13 was isolated from rhizospheric soil of reed. The strain R13 produces keratinolytic enzyme using chicken feather as the sole carbon and nitrogen source. Addition of 0.1% glucose and 0.12% polypeptone to the feather medium increased the enzyme production. The optimum temperature and initial pH for the enzyme production were 30 °C and 7.0. The maximum yield of the enzyme was 82.3 ± 1.0 U/ml in the optimal feather medium; this value was about 5.5-fold higher than the yield in the basal feather medium. S. maltophilia R13 possessed disulfide reductase activity along with keratinolytic activity. As a result of feather degradation, 18 free amino acids were produced in the culture; the concentration of total amino acid was 2298.8 μM. The strain R13 produced IAA in the optimal feather medium without l-tryptophan supplementation, indicating simultaneous production of keratinolytic activity and IAA by S. maltophilia R13. The strain R13 grown in the optimal feather medium also inhibited mycelial growth of some phytopathogenic fungi. This result suggests that antifungal activity of the strain R13 could be produced in the same conditions observed for keratinolytic activity. Thus, S. maltophilia R13 could be not only used to enhance the nutritional value of feather meal but is also a potential bioinoculant in agricultural environments.     

Characterization of a protease of a feather-degrading Microbacterium species

AIMS: To characterize a new feather-degrading bacterium. METHODS AND RESULTS: The strain kr10 producing a high keratinolytic activity when cultured on native feather broth was identified as Microbacterium sp., based on phenotypical characteristics and 16S rDNA sequence. The bacterium presented optimum growth and feather-degrading activity at pH 7.0 and 30 degrees C. Complete feather degradation was achieved during cultivation. The keratinase was partially purified by gel filtration chromatography. It was optimally active at pH 7.0 and 55 degrees C. The enzyme was inhibited by 1,10-phenanthroline, EDTA, p-chloromercuribenzoic acid, 2-mercaptoethanol and metal ions like Hg(2+), Cu(2+) and Zn(2+). SIGNIFICANCE AND IMPACT OF THE STUDY: A new Microbacterium sp. strain was characterized presenting high feather-degrading activity, which appears to be associated to a metalloprotease-type keratinase. This micro-organism has enormous potential for use in biotechnological processes involving keratin hydrolysis.     

Characterization of a novel <Emphasis Type="Italic">Stenotrophomonas</Emphasis> isolate with high keratinase activity and purification of the enzyme

A feather-degrading bacterium was isolated from poultry decomposition feathers in China. The strain, named L1, showed significant feather-degrading activity because it grew and reproduced quickly on basal medium containing 10 g/L of native feather as the source of energy, carbon, and nitrogen. According to the phenotypic characteristics and 16S rRNA profile, the isolate belongs to Stenotrophomonas maltophilia. Keratinase activity of the isolate was determined during cultivation on raw feathers at different temperatures and initial pH. Maximum growth and feather-degrading activity of the bacterium were observed at 40°C and initial pH ranging from 7.5 to 8.0. The crude enzyme was purified by ammonium sulphate precipitation, Sephadex G-100 chromatographic and ceramic hydroxyapatite (CHT) chromatographic. Its molecular mass estimated as 35.2 kDa in SDS-PAGE. The enzyme had an optimum activity at the pH was 7.8 and the temperature was 40°C. The keratinase was wholly inhibited by a serine protease inhibitor, PMSF. Its activity was activated or inhibited by different metal ions. The keratinase activity of enzyme from strain L1 functioned on different keratins, such as feather, hair, wool, horn, and so on.     

地衣芽孢杆菌TG116胞外蛋白酶产酶条件与酶学性质

【背景】从独角莲中分离得到的地衣芽孢杆菌TG116是一株对植物病原菌具有广谱抗性作用的生防菌株。【目的】优化TG116的产酶条件并探索其酶学性质,进一步了解其抗菌机制。【方法】采用Folin-Phenol显色法与响应曲面法,优化菌株TG116的产酶条件并研究其蛋白酶的酶学性质。【结果】菌株TG116产酶最适条件为:温度40.83°C,p H 8.01,发酵时间53.74 h,增加通气量可以显著提高酶活力。按照优化后的条件培养48 h后,上清液蛋白酶活力从57.46 U/mL达到了254.07 U/mL。酶学性质研究表明:该酶为碱性蛋白酶,最适反应pH为8.5,最适反应温度为50°C,具有良好的温度和pH稳定性,EDTA对酶活具有强烈的抑制作用,金属离子Mg~(2+)、Ca~(2+)、Na~+、Co~(2+)、K~+等对酶活也具有一定的抑制作用。【结论】菌株TG116具有良好的p H与温度稳定性,在实际应用中蛋白酶不易失活,可以分解真菌的细胞壁蛋白成分,破坏细胞壁结构,从而抑制甚至杀死病原菌,达到抗菌作用。     

Characterization of a new keratinolytic bacterium that completely degrades native feather keratin

A novel feather-degrading microorganism was isolated from poultry waste, producing a high keratinolytic activity when cultured on broth containing native feather. Complete feather degradation was achieved during cultivation. The bacterium presents potential use for biotechnological processes involving keratin hydrolysis. Chryseobacterium sp. strain kr6 was identified based on morphological and biochemical tests and 16S rRNA sequencing. The bacterium presented optimum growth at pH 8.0 and 30 degrees C; under these conditions, maximum feather-degrading activity was also achieved. Maximum keratinase production was reached at 25 degrees C, while concentration of soluble protein was similar at both 25 and 30 degrees C. Reduction of disulfide bridges was also observed, increasing with cultivation time. The keratinase of strain kr6 was active on azokeratin and azocasein as substrates, and presented optimum pH and temperature of 7.5 and 55 degrees C, respectively. The keratinase activity was inhibited by 1,10-phenanthroline, EDTA, Hg(2+), and Cu(2+) and stimulated by Ca(2+).     

Fermentation characteristics and secretion of proteases of a new keratinolytic strain of Bacillus licheniformis

A keratin-degrading strain of Bacillus licheniformis (K-508) was isolated from partially-degraded feathers and characterised. It had high chicken feather-degrading activity when cultured in feather-containing broth, with a growth optimum at pH 7 and 47 °C. Broth filtrates were active towards N-Bz-Phe-Val-Arg-p-nitroanilide and N-Suc-Ala-Ala-Pro-Phe-p-nitroanilide, as chromogenic protease substrates at pH 8. Strain K-508 displays keratinolytic activity against native feather keratin (without any pretreatment) in the presence of SH-reducing compounds. It constitutively secreted both trypsin-like and chymotrypsin-like proteases.     

一株产脂肽类表面活性剂的碱性Dietzia菌及特性研究

【目的】筛选降解性能良好的产生物表面活性剂的菌株,对其进行分类学鉴定,确定所产表面活性剂物质并对各影响因素进行评价。【方法】利用液体石蜡为底物筛选降解性能良好的产生物表面活性剂菌株,通过形态特征观察、生理生化测定、16S rRNA基因序列分析等实验确定菌株的分类地位。通过排油圈活性、表面张力值、薄层层析等方法确定生物表面活性剂的性质,分析碳、氮源和温度、pH、盐浓度各因素对菌株产生物表面活性剂的影响。【结果】从大连新港采集的样品中分离得到一株产表面活性剂的嗜碱菌株3372,经分类鉴定表明其是Dietzia cercidiphylli的新菌株。嗜碱菌3372发酵液粗提物的排油直径为6.1 cm,表面张力可从67.62 mN/m降到32.95 mN/m,经薄层层析分析,初步鉴定为脂肽类表面活性剂。综合各因素对发酵液表面活性的影响,菌株3372在pH为9.0、适盐浓度为3%的培养基中,经30°C培养可将发酵液表面张力值降到最低。【结论】嗜碱菌3372是脂肽类生物表面活性剂产生菌的新成员,其在高盐碱条件下产生表面活性剂的特性在工业应用上有一定的潜力。