纤维素分解菌的选育及酶活测定

纤维素是地球上最丰富的有机物质,这些丰富的宝贵资源大部分被浪费了,而且由于部分地区焚烧秸杆造成了严重的环境污染。为了充分利用纤维素,纤维素分解菌的筛选研究逐步展开。通过新华滤纸为唯一碳源的杜氏培养基和刚果红纤维素培养基,从堆肥、污泥、马粪和土壤中分离得到7株纤维素分解菌。以5号菌株为出发菌株,经过紫外线诱变,用刚果红纤维素平板透明圈选育法得到8号菌株。为了评价筛选工作,对8株纤维素分解菌进行酶活测定。结果表明,8号菌株具有最高的CMC酶活和FPA酶活。     

稻草秸秆纤维素分解菌的分离筛选

本研究基于获得高效木质纤维素分解菌的目的,以刚果红纤维素琼脂和滤纸条培养基为初筛培养基,从分离获得的124株真菌中筛选出透明圈与菌落直径比值较大、滤纸条分解能力较强的11个菌株.经液体发酵,测定其酶活力,复筛得到羧甲基纤维素酶活和滤纸酶活均较高的4个菌株;并进行了不同碳源和不同pH对筛选菌株产酶能力的影响试验,发现不同菌株对不同纤维素物质的分解能力不一样,同一菌株对不同纤维素碳源的利用能力也不相同.     

土壤和空气中纤维素酶高产菌株的筛选

目的:分别从土壤和空气中分离纤维素分解菌株,以提高纤维素利用率。方法:将分离得到的菌株进行纯培养,并用刚果红染色,找出能出现透明圈的菌株,测定透明圈直径与菌落直径比,筛选产纤维素酶的菌株。结果:通过对比,从分离到的6株菌株中选出产纤维素酶活力高的2株,并对其进行鉴定,初步确定一株为曲霉属真菌,一株为放线菌。结论:本研究为提高纤维素利用率提供了微生物资源,为相关后续研究提供了物质和实验基础。     

嗜热放线菌的分离及其产酶与抗菌活性调查

从云南、宁波、南京、山东、北京等地采集的土样,树叶中分离到68株嗜热放线菌,对它们产淀粉酶、纤维素酶,蛋白酶及抗生素的情况进行了调查。结果表明:88％的菌株能产生水解淀粉透明圈,97％的菌株能产生水解蛋白透明圈,37％的菌株能在纤维素培养基上生长,5株菌具有抑制金黄色葡萄球菌生长的能力,5株菌能抑制水稻纹枯病菌,仅检查出一株菌能抑制大肠杆菌的生长.令人感兴趣的是Ⅲ_3’菌株对金黄色葡萄球菌的抑制能力极强,并能分泌紫色色素。其中,V_4’菌株产β-淀粉酶,经鉴定属于高温放线菌属(Thermoactinomy(?)ete),并命名为高温放线菌菌株V_4’)(Thermoactinomyces sp.)。     

一株耐高温纤维素酶产生菌的分离和鉴定

为获得耐高温的纤维素酶产生菌,从农田旁稻草堆底取样,采用液体滤纸条试管法和纤维素刚果红平板法,分离到6株能够在45℃生长良好且降解纤维素的耐高温菌株,分别标为A1-A6,其中菌株A1透明圈直径和菌落直径比值为4,DNS法测定还原糖浓度较高,确定为实验菌株。菌体呈短杆状,G+,易褪色,具有运动性,过氧化氢酶、淀粉水解、明胶液化、甲基红试验、硫化氢、葡萄糖氧化发酵、P HB类脂粒、异染粒、纤维素分解、反硝化试验呈阳性,乙酰甲基甲醇试验、吲哚试验、硝酸盐还原试验、卵磷脂酶实验呈阴性,以FP A酶活为主,羧甲基纤维素酶活为辅。根据细菌形态、生理生化特征,参照《伯杰氏细菌系统鉴定手册》初步鉴定为纤维单胞菌属,即Cellulomonas。     

秸秆纤维素分解菌的酶活力测定

目的:测定秸秆纤维素分解菌的酶活力。方法:从土壤中分离出具有分解纤维素能力的菌株,采用刚果红染色法进行粗选,得到7株透明圈较大的菌株。将这7株菌株液体发酵培养6d,再分别用滤纸分解度观察、羧甲基纤维素酶活法(CMC)、滤纸酶活法(FPA)和天然纤维素酶活法测定其酶活力。结果:在7株菌株中,F-1、F-2、F-3、F-5的酶活力测定结果与其溶解圈的测定结果、滤纸分解结果基本相同。且天然纤维素酶活力高的菌株,其CMC酶活、FPA酶活也高,滤纸分解效果也比较明显。结论:CMC法、FPA法和天然纤维素酶活法适于测定秸秆纤维素分解菌的酶活力。     

亚麻纤维脱胶菌的筛选及脱胶效果研究

为筛选亚麻纤维脱胶菌株,从麻脱胶废水、废麻堆积物等7个含麻胶质样品中分离得到39株能分解果胶的菌株.采用水解圈法复筛选出8株果胶酶活性较高的菌株,经果胶酶、纤维素酶活性测定和菌体脱胶试验,最终确定8-1是优良的亚麻脱胶菌株,该菌株果胶酶活可达663.17 u/mL,而纤维素酶活仅为9.13 u/mL.菌株8-1经形态观察、Biolog菌种鉴定系统鉴定以及基于16S rDNA序列构建的系统进化树分析为一株芽孢杆菌.     

一组降解纤维素细菌的分离筛选及产酶特性研究

用稀释法从腐殖泥中分离菌株,根据它们在羧甲基纤维素钠(CMC-Na)-刚果红培养基上的透明圈直径及对滤纸的崩解能力,获得7株纤维素分解细菌(编号:B-37、B-35、B-31、B-25、B-17、Z-a和Z-b),其中菌株Z-b的纤维素崩解能力最强,分子鉴定结果表明它与Stenotrophomonas maltophilia的16S rDNA序列有99.8%的同源性,初步确定为嗜麦芽窄食单胞菌。适合7个菌株生长的C源为马铃薯浸出液,无机盐组分为:CaCl_2 0.20、MgSO_4 1.25、NaCl 5.00、(NH_4)_2SO_4 1.30、KH_2PO_4 1.35、FeSO_4·7H_2O 0.015、Na-EDTA 0.02g/L。在滤纸为唯一碳源的培养基中,菌株Z-b的滤纸酶(FPase)和CMC酶(CMCase)活性最大,为0.099 U/mL和0.075 U/mL,而在固体PSA上,菌株B-31和B-37的FPase和CMCase活性最高,为0.131 U/mL和0.175 U/mL。7个细菌单独发酵,Z-b对滤纸的崩解能力最强,滤纸块完全崩解成粉未状;与真菌34混合发酵,菌株组合Z-a+34、Z-b+34、B-31+34、B-25+34将滤纸完全水解为水溶性物质。可见,各菌株的纤维素酶活与培养条件密切相关,某些真菌、细菌间存在协同作用,它们混合发酵可大大提高纤维素的水解效率。     

一株多功能分解菌的分离和筛选

本实验在“分解纤维素的微生物的分离实验”基础上，进行了淀粉分解菌、脂肪分解菌及蛋白质分解菌的分离和筛选等一系列拓展实验，并分离出了一株能同时分解纤维素、脂肪、淀粉和蛋白质的多功能分解菌。在用该多功能分解菌进行厨余垃圾分解的模拟实验中效果明显。     

一株纤维素降解真菌的筛选及鉴定

[目的]分离筛选高效降解纤维素的真菌菌株,并研究其产酶能力.[方法]利用刚果红染色法从甘蔗地土壤中分离纤维素降解真菌,再通过测定滤纸的降解率及发酵酶活复筛.[结果]综合考虑水解圈,水解圈和菌株直径的比值(HC值),滤纸的降解率和复筛酶活,对试验真菌降解纤维素的能力进行综合评价,筛选到具有较强纤维素降解能力的真菌菌株SJ1,经形态学观察及分子生物学鉴定,该菌属于草酸青霉.其滤纸酶活、内切葡聚糖酶酶活(CMC酶活)、β-葡聚糖苷酶酶活和外切葡聚糖酶酶活(CBH酶活)分别为25.15、740.42、58.03和2.442 U/mL.[结论]菌株SJ1是一株十分具有研究开发潜力的纤维素酶生产菌株.     

Experiments on the microbiology of cellulose decomposition in a municipal sewage plant

Summary Analyses of sewage solids show cellulose to be one of the chief components. Culture counts of cellulolytic bacteria in a primary anaerobic sewage digestor show them to be present in numbers as high as 1 million per ml. The tendency of cellulolytic bacteria to cling to cellulose fibers makes it highly probable that the number of cellulolytic cells is much larger. All 10 cellulolytic strains isolated in pure culture show better growth in solid than in liquid media, and for some of them agar possesses growth promoting properties. For some strains, phytone and trypticase can replace the agar but other strains could not be grown in media containing no agar. Hydrogen, carbon dioxide, ethanol, formic acid, acetic acid, and lactic acid have been identified as fermentation products and glucose shown to be a product of cellulose digestion. Cellobiose, starch, dextrin, and maltose were fermented by 5 tested strains, inulin and esculin by one of them, but none of 17 other carbohydrates, including glucose, were attacked. The rate of cellulose fermentation by a mixed culture of aClostridium sp. and a cellulose decomposer is much greater than the rate by the latter alone. The rate of fermentation by a pure culture is not affected by acetate concentrations up to 5000 parts per million. It is postulated that the rate of fermentation of cellulose may be the factor limiting the rate of sewage fermentation though more evidence regarding rates of fermentation of other constituents of sewage is needed before final conclusions can be drawn. This investigation was supported in part by a research grant from the National Institute of Health, U.S. Public Health Service.     

Protein enrichment of potato processing waste through yeast fermentation

Potato starch obtained from waste waters of chips manufacturing was used as a fermentation substrate for yeast protein enrichment. Among 18 yeast strains, 6 strains were screened according to their biomass yield and protein content after fermentation for 16 h at 30 degrees C in an aerated glucose-based liquid media (4.5 Ls). Using concentrated media (25% solids) made from potato starch pre-hydrolyzed with malt flour and batch-fermented for 20 h at 26 degrees C under aerobic conditions, Candida utilis ATCC 9256 was the most efficient protein-forming strain. Scaled-up at the 100 Ls level, the aerobic batch process was improved under fed-batch conditions with molasses supplementation. After drying, fermented starch contained 11-12% protein, including 7-8% yeast protein.     

城市污泥生物好氧发酵对有机污染物的降解及其影响因素

分析了国内部分城市脱水污泥中几种主要有机污染物浓度,PAHs含量为1.156—34.940mg/kg,PCBs含量为0—115.730mg/kg;PCDD/Fs含量为9.530—22.900 ngTEQ/g干泥,NP含量为177.000mg/kg。提出要实现污泥安全、环保的土地利用,可采用生物好氧发酵技术降解污泥中的有机污染物,降低污泥在土地利用时有机污染物带来的环境风险。同时通过优化污泥生物好氧发酵控制条件:C/N值范围为25∶1—40∶1,温度在30—55℃,氧气浓度5%—15%,强制通风量控制在1.5—2.0m3.min-1.t-1(干泥)左右,pH6—9,混料含水率为50%—65%,经生物好氧发酵后的污泥施用土地,可以大大降低污泥在土地利用时的环境风险,避免污泥资源化利用带来的二次污染问题。     

Comparison of autochthonous bacteria and commercially available cultures with respect to their effectiveness in fuel oil degradation

Summary This study examined the microbial degradation of fuel oil by nine highly adapted different commercially available mixed bacterial cultures (DBC-plus, Flow Laboratories, Meckenheim, F.R.G.) and a bacterial community from a domestic sewage sludge sample. All mixed cultures were cultivated under aerobic batch conditions shaking (110 rpm) at 20°C in a mineral base medium containing 1 or 5% (v/v) fuel oil as the sole carbon source. Percent degradation of fuel oil and the n-alkane fraction was recorded for the nine DBC-plus cultures and the mixed population of the activated sludge sample. The increase in colony counts, protein, and optical density was studied during a 31-day incubation period for DBC-plus culture A, DBC-plus culture A2 and the activated sludge sample. The activated sludge mixed culture was most effective in degrading fuel oil, but various isolated bacterial strains from this bacterial community were not able to grow on fuel oil as the sole carbon source. In contrast, the n-alkane degradation rates of the DBC-cultures were lower, but single strains from the commercially available mixed cultures were able to mineralize fuel oil hydrocarbons. Strains ofPseudomonas aeruginosa were isolated most frequently and these organisms were able to grow very rapidly on fuel oil as a complex sole carbon source. The results indicate that fuel oil degradation in domestic sewage sludge is performed by mixed populations of naturally occurring bacteria and does not depend on the application of highly adapted commercially available cultures.     

几株啤酒酵母的筛选及发酵性能比较*

啤酒酵母是啤酒酿造的灵魂,可以直接影响啤酒品质。在啤酒酿造过程中,由于啤酒酵母被多次传代和保藏,造成优良菌种发酵性能衰退等问题,导致发酵不彻底,影响最后啤酒的风味质量。为此以8株Lager型啤酒酵母为出发菌株,通过平板分离纯化获得80株分离菌株,再经过三角瓶发酵初筛和复筛、发酵罐中试发酵实验最终获得了8株发酵性能优良的啤酒酵母。其中,6株酵母可应用于酿造双乙酰含量低于0.1 mg/L的啤酒;3株酵母发酵度高于70%,适合酿造干啤酒;1株酵母发酵度低于50%,适合酿造低醇啤酒。在风味方面:1株酵母酿造的啤酒醇酯比为3.3,啤酒酯香味较突出;另1株酵母酿造的啤酒醇酯比为4.5,啤酒高级醇含量较高。8株经过选育的啤酒酵母发酵特征明显,便于精酿啤酒厂实际应用。     

高效产氢菌株Enterococcus sp. LG1的分离及产氢特性

采用Hungate厌氧培养技术分别从厌氧污泥、好氧污泥及河底泥中分离出12株厌氧产氢细菌,并对其中的Enterococcus sp.LG1(注册号:EU258743)进行了研究.结果表明,该株细菌为专性厌氧菌,经革兰氏染色结果为阴性.通过16S rDNA碱基测序和比对证实,该菌株是目前尚未报道过的1个新菌种,初步确定其细菌学上的分类地位.同时,以灭菌预处理的污泥为底物培养基,对该菌的产氢能力及污泥发酵过程中底物性质变化(SCOD、可溶性蛋白质、总糖和pH值等)进行了探讨.实验结果显示,产氢茵Enterococcus sp.LG1的发酵过程中只有H2和CO2产生,无CH4产生.产气量最高为36.48 mL/g TCOD,氢气含量高达73.5%,为已报道文献中以污泥为底物发酵制氢中之最高.根据污泥发酵产物分析得知,该菌的发酵类行为典型的丁酸型发酵.     

Fermentation of corn starch to ethanol with genetically engineered yeast

Expression of the glucoamylase gene from Aspergillus awamori by laboratory and distiller's strains of Saccharomyces cerevisiae allowed them to ferment soluble starch. Approximately 95% of the carbohydrates in the starch were utilized. Glycerol production was significantly decreased when soluble starch was used instead of glucose. Ethanol yield on soluble starch was higher than that on glucose. The rate of starch fermentation was directly related to the level of glucoamylase activity. Strains with higher levels of glucoamylase expression fermented starch faster. The decline in starch fermentation rates toward the end of the fermentation was associated with accumulation of disaccharides and limit dextrins, poor substrates for glucoamylase. The buildup of these products in continuous fermentations inhibited glucoamylase activity and complete utilization of the starch. Under these conditions maltose-fermenting strains had a significant advantage over nonfermenting strains. The synthesis and secretion of glucoamylase showed no deleterious effects on cell growth rates, fermetation rates, and fermentation products.     

Removal of heavy metals from contaminated sewage sludge using Aspergillus niger fermented raw liquid from pineapple wastes

The environmental benefits derived from using citric acid in the removal of heavy metals from contaminated sewage sludge have made it promising as an extracting agent in the chemical extraction process. At present, citric acid is produced commercially by fermentation of sucrose using mutant strains of Aspergillus niger (A. niger), and chemical synthesis. In recent years, various carbohydrates and wastes (such as pineapple wastes) have been considered experimentally, to produce citric acid by A. niger. This study investigated the potential of using A. niger fermented raw liquid from pineapple wastes as a source of citric acid, in extracting chromium (Cr), copper (Cu), lead (Pb), nickel (Ni) and zinc (Zn) from anaerobically digested sewage sludge. Results of the study revealed that metal removal efficiencies varied with pH, forms of metals in sludge and contact time. At pH approaching 4, and contact time of 11 days, A. niger fermented liquid seemed to remove all Cr and Zn while removing 94% of Ni. Moreover, chemical speciation studies revealed that metals which are predominantly in the exchangeable and oxidizable phases seemed to exhibit ease of leachability (e.g., Zn). The by-products of the process such as pineapple pulp and mycelium which are rich in protein, can still be used as animal feed. It can be said therefore that this novel process provides a sustainable way of managing contaminated sewage sludge.     

Microbial Ecology of Activated Sludge: I. Dominant Bacteria

Over 300 bacterial strains were isolated from seven samples of activated sludge by plating on sewage agar. Gram-negative bacteria of the genera Zoogloea and Comamonas predominated. Many isolates (51%) showed sudanophilic inclusions of poly-β-hydroxybutyric acid, whereas 34% accumulated iodophilic material on media containing starch. A large number required either vitamins or amino acids, or both, for growth. None of the isolates tested for their ability to bring about changes in autoclaved sewage produced an effluent comparable in quality to the activated sludge control, although the Zoogloea did produce activated sludgelike flocs. A study of 150 bacterial strains isolated from raw sewage revealed that they differed from the sludge isolates in several respects. Coliforms, which constitute nearly a quarter of the sewage isolates, were rarely encountered in sludge.