甘蔗渣纤维素降解菌株的筛选与鉴定

甘蔗渣是制糖工业的主要副产物。筛选甘蔗渣纤维素降解菌株对甘蔗渣乙醇产业具有重要的意义。以甘蔗渣为原料,通过分离和纯化得到14株菌株,对其进行纤维素刚果红平板染色实验和滤纸崩解实验,最终获得3株可以生产纤维素酶的菌株02-2-2、21-1-2和40-1-1。酶活性测定结果表明,菌株40-1-1的酶活力在培养3 d后达到最高,为27.26 U/mg。通过形态学和分子生物学鉴定,菌株02-2-2为枝顶孢属(Acremonium sp.),菌株21-1-2和40-1-1为光滑短梗霉属(Acrophialophora sp.)。研究筛选的菌株将为开展甘蔗渣纤维素降解利用提供参考。     

从海水环境分离筛选甘蔗渣纤维素降解菌

【目的】筛选海水环境高效甘蔗渣纤维素降解菌,并研究不同菌株间的混合发酵对甘蔗渣纤维素酶活力的影响,为纤维素降解菌在海水养殖中的应用提供理论基础。【方法】采用刚果红染色法进行菌株初筛,利用DNS法测定各菌株胞外纤维素酶活力及不同菌株间的混合酶液与混合发酵酶液的纤维素酶活力。【结果】筛选得到两株具有较强纤维素分解能力的细菌菌株Z4和S5,经16S rRNA基因序列分析,初步鉴定为地衣芽孢杆菌(Bacillus licheniformis)。菌株S5具有最高的全酶活和甘蔗渣纤维素酶活,分别为1.16 U/mL和2.80 U/mL。菌株Z4与S5间混合发酵能明显提高菌株的纤维素酶活力,比S5单独发酵时全酶活、甘蔗渣纤维素酶活分别提高40.60%、14.21%。同时菌株S5与芽孢杆菌BZ5混合发酵也能提高其纤维素酶活力,比S5单独发酵时全酶活、甘蔗渣纤维素酶活分别提高6.23%、25.92%。【结论】筛选得到两株酶系较全且酶活较高的纤维素降解菌Z4、S5,适宜的混合发酵可明显提高纤维素降解能力,在海水养殖中有较大的应用前景。     

甘蔗渣和糖蜜混合发酵制备燃料丁醇

以抗逆突变株Clostridium beijerinckii IB4为研究对象,葡萄糖为C源,对其进行补料分批发酵过程的优化,同时将该优化工艺应用于甘蔗渣和糖蜜混合发酵制备燃料丁醇。结果表明:在5 L发酵罐中,先加入作为还原糖的甘蔗渣酸解糖液10 g/L,16 h后补加甘蔗糖蜜30 g/L,于35℃、100 r/min发酵50 h,丁醇和总溶剂产量分别达到11.1和15.3 g/L,丁醇比例高达72.5%。     

慢性前列腺炎患者前列腺菌群的调查与分析

本文对１６９例慢性前列腺炎患者前列腺进行了微生物的分离与药物敏感试验,证实慢性前列腺炎患者前列腺内可有多种微生物混合感染,绝大多数为条件致病性或非病原性的耐药性或多重耐药性微生物。其中细菌２１８株占８０４％,含革兰氏阳性细菌９２２％株,革兰氏阴性细菌７８％株,真菌１１株占４１％;支原体４０株占１４８％;衣原体２株占０７％。我们又根据所检出的各种病原体的药物敏感性选用不同的抗菌药物以常规途径给药（口服、肌肉或静脉注射）治疗,获得了良好的治愈效果。因此认为,机体抵抗力降低或抗菌药物的滥用是导致前列腺微生态紊乱而发生前列腺炎症状的主要原因,前列腺复杂的菌群及其耐药性则是导致前列腺炎难以治愈的的关键因素。     

蛇毒类凝血酶鼠单克隆抗体的制备

采用杂交瘤技术,获得了４株稳定分泌抗蛇毒类凝血酶的单克隆抗体杂交瘤细胞株,均属ＩｇＧ１ｋ链,４株杂交瘤细胞培养上清液效价为 ４ × １０－１～４ × １０－２,腹水效价为 ４ × １０－１～３．２ ×１０－５。     

丙型肝炎病毒C33_c单克隆抗体的研制和鉴定

用丙型肝炎病毒重组蛋白Ｃ３３_ｃ抗原免疫ＢＡＬＢ／ｃ小鼠,运用杂交瘤技术成功地建立了７株能稳定分泌抗Ｃ３３_ｃ单克隆抗体的杂交瘤细胞１Ｈ６Ｄ２、２Ｇ１Ａ６、３Ａ４Ａ８、３Ｅ３Ｅ７、４Ｇ１２Ｃ１０、４Ａ１０Ｃ２、５Ｆ４Ｂ６．试验结果表明,７株ＭｃＡｂｓ具有良好的ＨＣＶ特异性,间接ＥＬＩＳＡ法测得小鼠腹水ＭｃＡｂ效价为１：１０￣４－１：４×１０￣４;竞争抑制实验和相加指数测定证实７株ＭｃＡｂｓ识别相关的抗原表位;７株ＭｃＡｂｓ中１株为ＩｇＭ（５Ｆ４Ｂ６）,其它６株为ＩｇＧ（２ａ）。     

康氏木霉B－7纤维素酶的产生条件及酶学性质研究

野生型康氏木霉（Ｔｒｉｃｈｏｄｅｒｍａｋｏｎｉｎｇｉ）８５４－Ｂ２经多种理化诱变因子及空间微重力辐射等因素的处理,选育到１株高活力纤维素酶变异株Ｂ－７。其固体培养物的纤维素酶,以滤纸为底物酶活力为３４μ／ｇ,以羧甲基纤维素（ＣＭＣ）为底物酶力为１４７２μ／ｇ。与野生菌８５４－Ｂ２相比,产酶活力水平分别提高５倍和７倍多。酶在滤纸上作用的最适条件为ｐＨ４．５—５．０,温度５５—６０°Ｃ;２５°Ｃ,保温２４ｈ,ｐＨ稳定范围为ｐＨ４．０—６．５;７０°Ｃ保温３０分钟,剩余酶活力３４．４％。     

3—脱氧铺糖松代谢酶产生菌的筛选及产酶条件

从霉菌和酵母中筛选到一株酵母,该菌株具有能够代谢３－脱氧葡糖松的酶,且活性较高,研究了该菌株的最适产酶条件：培养温度２８℃,培养基起的ＰＨ７．０,培养时间１２ｈ,氮源分别为蔗糖,牛肉膏、添加ＫＨ２ＰＯ４、Ｃａ（Ｈ２ＰＯ４）２,Ｈ２Ｏ能促进产酶。     

以葡萄渣为原料,固体发酵生产单细胞蛋白的初步研究

本文报道以葡萄渣为唯一碳源,利用微生物混合培养固体发酵技术生产单细胞蛋白的初步尝试。将自分的３株霉菌、（Ａｓｐｅｒｇｉｌｕｓ）４株酵母（Ｓａｃｈａｒｏｍｙｃｅｓ）和１株细菌（Ｃｅｌｕｌｏｍｏｎａｓ）进行了不同组合的培养,并用正交试验法作了培养基配方试验,同时对培养基含水量和发酵时间也进行了一些摸索。初步结果表明,培养基在未经灭菌的条件下,以尿素为氮源,培养基含水量６０％,于２８℃—３０℃,培养４８ｈ,发酵产物的粗蛋白含量可提高一倍。     

吉林省黑土土著大豆根瘤菌的生态特性及与不同豆种的共生效应

黑土土壤中有丰富的土著大豆根瘤菌,为了稳定和提高大豆根瘤菌在黑土区的接种效果,我们从１９８８年起,对吉林省黑土土著大豆根瘤菌的类型、血清型、固氮酶活性、快慢生型的分布、结瘤竞争能力以及与不同大豆品种的共生效应等进行了测定,并提出了吉林省黑土区高固氮力和低固氮力种质。以菌体本身的固氮酶活性来看,榆树黑土为２４．８１６Ｃ２Ｈ４μｍｏｌ／克干瘤·小时,公主岭黑土为２４．８２７Ｃ２Ｈ４μｍｏｌ／克干瘤．小时．榆树黑土用４０株进行土著大豆根瘤菌血清型的测定,其中３４株属于４４７－２８血清型,６株为其它血清型。公主岭黑土用１６４株进行测定的,有１４３株属４７７－２８血清型,１７株属１１３血清型,有４株属其它血清型。榆树黑土和公主岭黑土中以慢生型大豆根瘤菌为主．共生效应测定结果,吉林２３固氮力最强,固氮量为４．２４９０８ｇ／盆;其次是长８２１０—４,固氮量为２．００９８ｇ／盆;长农５最低,为０．５４１９ｇ／盆。     

Single cell protein from bagasse pith by a mixed bacterial culture

A spontaneous association of Cellulomomas sp. with another bacterial strain was studied for its capabilities for single cell protein (SCP) production from bagasse pith. The associated strain was identified as Pseudomonas sp. and further characterized for its physiological properties. The effect of the initial proportions of both strains, the way of propagation, and the effect of pH on the growth of the mixed culture on bagasse pith was studied. Separate propagation of both strains before the fermentation step (“controlled mixed culture”), a range of proportions Cellulomonas-Pseudomonas from 4:1 to 100: 1, and pH 7.0, were found to be the most appropriate conditions of growth. A mutualistic symbiotic relationship was demonstrated to take place between both strains during the mixed growth on bagasse pith, the Cellulomonas supplying the carbon source (glucose produced from bagasse degradation) to the Pseudomonas, and the latter producing the vitamin supplements necessary for the Cellulomonas growth, allowing the growth of the mixed culture in a minimal medium, without any growth factor supplement. Fed-batch cultivation of the mixed culture on this substrate was successful, giving rise to high biomass production (19.4 g/l), thus increasing the productivity of the system. Due to its improved productivity, high biomass production, inexpensiveness of the culture medium, (without any vitamin supplement), and good stability, this culture presents economical advantages and constitutes an attractive choice for lignocellulosic substrate utilization.     

Synergism of cellulase enzymes in mixed culture solid substrate fermentation

Sugar cane bagasse was subjected to a mixed culture, solid substrate fermentation with Trichoderma reesei QM9414 and Aspergillus terreus SUK-1 to produce cellulase and reducing sugars. The highest cellulase activity and reducing sugar amount were obtained in mixed culture. The percentage of substrate degradation achieved employing mixed culture was 26% compared to 50% using separate cultures of the two molds. This suggests that the synergism of enzymes in mixed culture solid substrate fermentation have lower synergism than in pure culture.     

四种添加物对铁皮石斛原球茎生长及多糖含量的影响

为探讨铁皮石斛(Dendrobium officinale)培养基中添加物的作用,在1/2MS培养基中加入椰肉、甘蔗渣、香蕉皮和麦麸等4种添加物,研究不同浓度添加物和培养时间对原球茎生长和多糖含量的影响。结果表明,4种添加物对铁皮石斛原球茎的增殖、分化和多糖含量均有一定影响,其中添加15.0 g L–1甘蔗渣,培养60 d能明显促进铁皮石斛原球茎的增殖与分化(146.1%);而添加20.0 g L–1甘蔗渣,培养40 d能显著提高铁皮石斛原球茎多糖含量(50.4%)。这说明甘蔗渣是培养铁皮石斛原球茎的适宜添加物,既能促进铁皮石斛原球茎的生长发育,还能降低生产成本。     

Isolation and characterization of a symbiotic cellulolytic mixed bacterial culture

Summary By using batch-culture enrichment techniques a mixed culture of two bacterial spe cies identified as Cellulomonas flavigena and Xanthomonas sp was isolated. The capacity of both bacteria to grow as pure cultures in a min eral medium with alkaline pretreated sugar cane bagasse or cellobiose was tested. C. flavigena as pure culture was able to grow on both substrates only when yeast extract or biotin and thiamine were added to the culture medium, while Xanthomonas sp. could not grow on sugar cane ba gasse, but assimilated cellobiose if yeast extract was supplied. However, both bacteria in mixed culture grew very well on both substrates and did not require any growth factor. It was concluded that the interaction was favourable to both species. The mixed culture had the capacity to degrade a number of different agricul tural wastes and to use them as the sole carbon and energy source for the production mainly of biomass. More than 80% of pineapple bagasse, without chemical pretreatment, was used up by the microbial system.     

Continuous cellulase production by immobilized Sporotrichum cellulophilum and continuous saccharification of bagasse

Immobilized Sporotrichum cellulophilum with nonwoven materials was cultured continuously by a rotating-disk fermentor to supply cellulase into the saccharification system. The filter paper activity (5.0) was retained after 696 h under conditions of 250 rpm stirring and 0.014 h(-1) dilution rate. The product of the culture was supplied continuously to the saccharification reactor and used for the saccharification of bagasse. A glucose solution of ca. 0.9% was obtained continuously from 5% bagasse slurry during 610 h saccharification by this method.     

Chemical and gamma-ray-modified bagasse as substrates for bioproduction of cellulases and protein

Production of enzymes in the cellulolytic complex was determined in culture filtrates of six fungal isolates grown on chemically treated or gamma-irradiated bagasse. The enzymatic activities of the filtrates were determined by measurement of glucose release from cotton, filter paper, carboxymethylcellulose, cellobiose, and cellobiose octaacetate. Cultures grown on base-treated and gamma-irradiated plus acid-treated bagasse provided culture filtrates with the highest enzymatic activities whereas alpha-cellulose, untreated, and acid-treated bagasse were the poorest substrates for enzyme production. Filtrates of Trichoderma reesei QM 9414 yielded the highest cellulolytic activity in all test media. The largest accumulation of fungal-derived, extracellular protein was observed in media containing gamma-irradiated bagasse as the carbon substrate.     

Enzymatic saccharification of sugar cane bagasse by continuous xylanase and cellulase production from cellulomonas flavigena PR‐22

Cellulase (CMCase) and xylanase enzyme production and saccharification of sugar cane bagasse were coupled into two stages and named enzyme production and sugar cane bagasse saccharification. The performance of Cellulomonas flavigena (Cf) PR‐22 cultured in a bubble column reactor (BCR) was compared to that in a stirred tank reactor (STR). Cells cultured in the BCR presented higher yields and productivity of both CMCase and xylanase activities than those grown in the STR configuration. A continuous culture with Cf PR‐22 was run in the BCR using 1% alkali‐pretreated sugar cane bagasse and mineral media, at dilution rates ranging from 0.04 to 0.22 1/h. The highest enzymatic productivity values were found at 0.08 1/h with 1846.4 ± 126.4 and 101.6 ± 5.6 U/L·h for xylanase and CMCase, respectively. Effluent from the BCR in steady state was transferred to an enzymatic reactor operated in fed‐batch mode with an initial load of 75 g of pretreated sugar cane bagasse; saccharification was then performed in an STR at 55°C and 300 rpm for 90 h. The constant addition of fresh enzyme as well as the increase in time of contact with the substrate increased the total soluble sugar concentration 83% compared to the value obtained in a batch enzymatic reactor. This advantageous strategy may be used for industrial enzyme pretreatment and saccharification of lignocellulosic wastes to be used in bioethanol and chemicals production from lignocellulose. © 2016 American Institute of Chemical Engineers Biotechnol. Prog., 32:321–326, 2016     

中温（37℃）纤维素分解菌的筛选及混合培养研究

目的:筛选纤维素分解菌,构建复合微生物菌系进行混合培养,获得降解纤维素能力强的复合菌系.方法:从高温阶段堆肥样品、腐熟肥料、牛粪和土壤中筛选出能较好降解纤维素的菌株,进行单独与混合发酵培养,测其酶活.结果:获得降解纤维素能力较强的细菌3株、霉菌4株、放线菌2株.按不同的接种比例构建了4组复合微生物菌系,4个组合的滤纸失重率分别达到41.52%、44.94%、41.82%、37.11%,液体发酵的平均CMC酶活分别为624U/g、988U/g、769U/g、1041U/g,固体发酵的平均CMC酶活分别为4240U/g、5289U/g、4807U/g、5344U/g.结论:综合分析复合菌系滤纸条降解能力、CMC酶活、FAP酶活表明,组合二分解纤维素能力明显强于其他几个组合.     

Biochemical properties of xylanases from a thermophilic fungus,Melanocarpus albomyces, and their action on plant cell walls

Melanocarpus albomyces, a thermophilic fungus isolated from compost by enrichment culture in a liquid medium containing sugarcane bagasse, produced cellulase-free xylanase in culture medium. The fungus was unusual in that xylanase activity was inducible not only by hemicellulosic material but also by the monomeric pentosan unit of xylan but not by glucose. Concentration of bagasse-grown culture filtrate protein followed by size-exclusion and anion-exchange chromatography separated four xylanase activities. Under identical conditions of protein purification, xylanase I was absent in the xylose-grown culture filtrate. Two xylanase activities, a minor xylanase IA and a major xylanase IIIA, were purified to apparent homogeneity from bagasse-grown cultures. Both xylanases were specific forβ-1,4 xylose-rich polymer, optimally active, respectively, at pH 6.6 and 5.6, and at 65°C. The xylanases were stable between pH 5 to 10 at 50°C for 24 h. Xylanases released xylobiose, xylotriose and higher oligomers from xylans from different sources. Xylanase IA had a M_r of 38 kDa and contained 7% carbohydrate whereas xylanase IIIA had a M_r of 24 kDa and no detectable carbohydrate. The K_m for larchwood xylan (mg ml⁻¹) and V_max (μmol xylose min⁻¹ mg⁻¹ protein) of xylanase IA were 0.33 and 311, and of xylanase IIIA 1.69 and 500, respectively. Xylanases IA, II and IIIA showed no synergism in the hydrolysis of larchwood glucuronoxylan or oat spelt and sugarcane bagasse arabinoxylans. They had different reactivity on untreated and delignified bagasse. The xylanases were more reactive than cellulase on delignified bagasse. Simultaneous treatment of delignified bagasse by xylanase and cellulase released more sugar than individual enzyme treatments. By contrast, the primary cell walls of a plant, particularly from the region of elongation, were more susceptible to the action of cellulase than xylanase. The effects of xylanase and cellulase on plant cell walls were consistent with the view that hemicellulose surrounds cellulose in plant cell walls.