添加NH4HCO3对亚麻生物脱胶的影响

研究了在亚麻生物脱胶过程中，向沤麻水中添加NH4HCO3后沤麻液中pH值、氨基氮、NH4^ 、果胶酶活性和细菌数量的变化规律．与天然沤麻相比，亚麻生物脱胶过程中添加NH4HCO3，缩短了沤麻周期，并提高了打成麻纤维质量．图2表3参9     

一株碱性果胶酶高产细菌的分离、系统发育分析和产酶条件的初步优化

从腐烂的苹果表皮筛选到一株碱性果胶酶的高产菌株,命名为WSHB04-02.分离菌株为革兰氏阳性细菌,有芽孢,菌落颜色为乳白色.分离菌株WSHB04-02的16SrDNA全序列分析表明,该菌株与Bacillussubtilus具有99%的相似性,并与其他13株产碱性果胶酶菌株的16SrDNA结果进行同源性分析,并构建系统发育树.发现菌株WSHB04-02在不含果胶类物质与Mg2 的培养基上能高产碱性果胶酶,在优化的培养条件下,碱性果胶酶的酶活达到34U/mL,在国内还未见报道.图6表2参15     

一株高效凤眼莲脱胶菌的筛选及鉴定

预处理是生物质能源产品制备中最昂贵、最关键的环节,生物预处理因环境友好和能耗低而受到广泛关注。为获得较好的生物预处理菌株,以脱胶效率为出发点筛选菌株,从凤眼莲(Eichhornia crassipes)生长环境介质中分离菌株,通过富集培养、刚果红平板染色法初筛,获得一株对凤眼莲脱胶效果较好的A_1菌株。在最佳条件下A_1菌株分泌的果胶酶活性、木聚糖酶活性和纤维素酶活性分别为3 925.00、8 331.67和4 883.62 nmol·s~(-1)·mL~(-1);A_1菌株对凤眼莲的1次脱胶减重率为33.37%,3次连续脱胶的累计减重率为49.26%。通过16S rRNA序列鉴定,构建系统发育树分析,该菌株为解淀粉芽孢杆菌(Bacillus amyloliquefaciens)。     

亚麻温水脱胶液中细菌菌群结构分析

为了探讨实验室条件下模拟的工厂亚麻温水脱胶液中细菌菌群结构,采用纯培养技术和PCR-DGGE技术(Denaturing gradient gel electrophoresis)对细菌菌群结构进行了研究.用纯培养方法分离获得9类菌落,其中假单胞菌属(Pseudomonas)在有氧培养条件下总是处于优势.梭菌属(Clostridium)在厌氧培养过程中总是处于优势.微球菌属(Micrococcus)和葡萄球菌属(Staphylococcus)只有亚麻脱胶初期才有发现.PCR-DGGE指纹图谱显示,亚麻温水脱胶过程中条带数量较少且没有明显种群群落结构演替过程.通过对不同时期沤麻液中16S rDNAV3片段PCR产物d、e两个DGGE条带进行分子克隆、序列测定和Blas份析,发现e条带包含的16S rDNAV3片段除e 35外均属于假单胞菌属.d条带包含着较多不同的16S rDNAV3片段,其中有传统方法没有分离到的泛菌属(Pantoea)细菌、一些NCBI未收录的序列及一些非可培养微生物序列.纯培养技术和PCR-DGGE技术的共同使用,可以更全面准确地提供细菌多样性方面的信息.图4参15     

大熊猫肠道产果胶酶细菌的多样性及产酶特性

为探究大熊猫肠道微生物与消化的相互关系,利用果胶筛选培养基,从大熊猫新鲜粪便中分离具有产果胶酶活性的细菌,对获得的菌株采用生理生化特征和16S r DNA进行鉴定分类,探讨产果胶酶细菌多样性,并研究菌株的最适生长特性及产酶特性.共分离得到产果胶酶的细菌31株,属于志贺菌属(Shigella)、埃希氏菌属(Escherichia)、克雷伯氏菌属(Klebsilla)3个属,其中最高酶活为334.44 U/m L,最低酶活为15.6 U/m L.PF-4菌株具有最高的酶活,鉴定为肺炎克雷伯氏菌,生长温度范围为16-45℃,生长p H范围是5-8,最适产酶时间为24 h,最适产酶温度为37℃,最适产酶p H为6.结果为研究大熊猫消化系统中微生物果胶酶的来源及性质提供了参考.     

乳酸氧化酶转化乳酶产丙酮酸

从土壤样品中富集、筛选和纯化获得了3株能产生乳酸氧化酶的菌株,其中SM-10#菌株的产酶活力最高,经初步鉴定,该菌株属腐生葡萄球菌（Staphylococcus saprophyticus）,对SM-10#菌株还进行了破壁条件的优化、生长曲线的分析和酶液稳定性研究,并初步探讨了其酶液的底物转化效率,4h最高转化率达到80%,该研究结果为将这种有价值的酶源推向生产打下基础。     

一株兼性嗜冷小甲烷粒菌的生物学特性及系统发育分析

采用改进的亨盖特(Hungate)厌氧技术,从西藏林芝厌氧消化系统中分离到一株产甲烷菌菌株LZ-6.该菌株为革兰氏阴性,不运动,球形,直径约0.3～0.6μm.该菌株利用H2/CO2,微利用甲酸生长,不利用乙酸、甲醇、甲醇/H2、三甲胺、甲胺,最适生长pH为6.8～7.2,最适生长温度25℃,最适Na+浓度0.2mol/L.菌株LZ-6的16SrRNA基因序列与小甲烷粒菌(Methanocorpusculum parvum)相似性为99%.生理、形态结构特征等生物学特性研究表明此株产甲烷古菌为兼性嗜冷产甲烷古菌.     

克雷伯氏菌产1,3-丙二醇菌株选育及甘油脱水酶基因转录分析

通过对野生克雷伯氏菌(Klebsiella)进行紫外诱变,获得一株耐高浓度甘油及高浓度1,3-丙二醇的突变菌株A-39-3,该突变株产1,3-丙二醇的量较野生菌株提高了58%,副产物2,3-丁二醇和乙醇的量分别降低了27%和19%.为探讨突变株高产1,3-丙二醇的原因,通过对突变菌株发酵过程中关键酶的酶活跟踪分析,发现1,3-丙二醇氧化还原酶(PDOR)的酶活力与野生菌株相差不大,甘油脱氢酶(GDH)的酶活力略有下降,而突变菌株的甘油脱水酶(GDHt)的酶活力明显高于野生菌株.并采用半定量RT-PCR方法,从转录水平上比较甘油脱水酶基因的差异,结果发现突变菌株A-39-3甘油脱水酶基因的相对mRNA转录水平是野生菌株K的2.58倍,分析说明该突变株1,3-丙二醇产量的提高与关键酶基因dhaB的mRNA转录水平关系密切.     

β-甘露聚糖酶基因在枯草芽孢杆菌中的克隆及表达

从Bacillus subtilis JNA 3-10中克隆出β-甘露聚糖酶基因成熟肽链编码序列manA1和含信号肽的β-甘露聚糖酶基因manA2,在B.subtilis 168中克隆表达,分别筛选获得高效分泌表达β-甘露聚糖酶的重组菌株BPM1001(pMA5-manA1/B.subtilis 168)和BPM1002(pMA5-manA2/B.subtilis 168),结果表明菌株BPM1002总酶活力是菌株BPM1001的9.65倍,是原始菌株的13.1倍.在基因manA2下游引入His序列克隆出β-甘露聚糖酶基因manA3,获得枯草芽孢杆菌168重组菌株BPM1003.采用Ni-NTA柱纯化重组菌株BPM1003分泌表达的β-甘露聚糖酶,并研究其酶学性质,该酶促反应的最适pH为6.5,最适温度为65℃,在37℃条件下保存一个月酶活力依然保留有77.8%.5 L发酵罐放大实验结果表明魔芋粉对于产β-甘露聚糖酶具有明显的诱导作用,酶活力最高可达2 748.82 U/mL.图9表3参19     

芽孢杆菌发酵产碱性果胶酶温度控制策略

采用自行筛选获得一株产碱性果胶酶芽孢杆菌WSH03-09,在小型发酵罐中研究了不同温度对碱性果胶酶分批发酵的影响,结果表明,在恒定39℃条件下,可获得最高酶活5．39u／mL,各温度条件下的菌体干重相差不多,最终均能达11．5g／L左右;在发酵前期,控制温度41℃时最有利于菌体的生长,而在产物合成期,控制37℃有利于获得较高的产物合成比速,在此基础上,提出分阶段温度控制策略,采用此温度控制策略进行碱性果胶酶的发酵,碱性果胶酶酶活达5．99u／mL,比采用单一温度下的最大值提高了11％,其它各项指标也有较大提高．图6表1参6     

Quantification of polyphenols during retting and characterization of bacteria from the Kadinamkulam Backwaters, Kerala

The retting environment which provides a competitive niche for specialized microbes is speculated to harbour a variety of microbes with high biodegradation potential. In this context, an effort has been made to isolate and identify bacterial species having high tolerance to phenol In vitro. Maximum polyphenol (1.897 mg l(-1)) as observed during the initial period of retting, which decreased as retting proceeded. Based on biochemical characterization, the isolated bacterial strains were identified as Micrococcus sp., Moraxella sp. strain MP1, Moraxella sp. strain MP2 and Moraxella sp. strain MP3, Pseudomonas sp. strain PP1 and Pseudomonas sp. strain PP2, Amphibacillus sp., Brucella sp. strain BP1 and Brucella sp. strain BP2, Aquaspirillum sp., Escherichia coli strain EP1 and Escherichia coli strain EP2, Campylobacter sp., Aeromonas sp., Neisseria sp., Vibrio sp., Erwinia sp. and Mesophilobacter sp. These strains were found to tolerate maximum concentration of phenol viz. 200 to 1000 mg l(-1). Plasmid analysis of phenol resistant bacterial isolates showed that almost all the cultures had at least one plasmid of size > 1Kb. Studies on the protein profile of isolated bacterial cultures showed the presence of proteins with molecular sizes ranging from 10 to 85 KDa with exception of Mesophilobacter and Neisseria having still high molecular weight protein (95 KDa). Bacterial strains isolated from coir-ret-liquor showed tolerance to high phenol concentration.     

Functional flax fiber with UV-induced switchable wettability for multipurpose oil-water separation

● A PAA-ZnO-HDTMS flax fiber with UV-induced switchable wettability was developed. ● The property of flax fiber could be switched from hydrophobicity to hydrophilicity. ● The mechanism of the acquired UV-induced switchable wettability was discussed. ● The developed flax fiber was successfully used for multipurpose oil-water separation. The large number of oily wastewater discharges and oil spills are bringing about severe threats to environment and human health. Corresponding to this challenge, a functional PAA-ZnO-HDTMS flax fiber with UV-induced switchable wettability was developed for efficient oil-water separation in this study. The developed flax fiber was obtained through PAA grafted polymerization and then ZnO-HDTMS nanocomposite immobilization. The as-prepared PAA-ZnO-HDTMS flax fiber was hydrophobic initially and could be switched to hydrophilic through UV irradiation. Its hydrophobicity could be easily recovered through being stored in dark environment for several days. To optimize the performance of the PAA-ZnO-HDTMS flax fiber, the effects of ZnO and HDTMS concentrations on its switchable wettability were investigated. The optimized PAA-ZnO-HDTMS flax fiber had a large water contact angle (~130°) in air and an extremely small oil contact angle (~0°) underwater initially. After UV treatment, the water contact angle was decreased to 30°, while the underwater oil contact angle was increased to more than 150°. Based on this UV-induced switchable wettability, the developed PAA-ZnO-HDTMS flax fiber was applied to remove oil from immiscible oil-water mixtures and oil-in-water emulsion with great reusability for multiple cycles. Thus, the developed flax fiber could be further fabricated into oil barrier or oil sorbent for oil-water separation, which could be an environmentally-friendly alternative in oil spill response and oily wastewater treatment.     

Growth responses of in vitro Fusarium oxysporum f. sp. niveum to external supply of tannic acid

Allelochemicals released from root exudates or decaying residues of plants play diversified roles in ecological interactions of plant-pathogen. The objective of this work was to evaluate the allelopathic effect of an externally supplied tannic acid on soil-borne in vitro Fusarium oxysporum f. sp. niveum. Results showed that the tannic acid decreased the growth of the fungus up to 9.5% at 800 mg l(-1). Conidial germination was reduced by 52.3% in comparison with the control. However, sporulation and mycotoxin production by the fungus were stimulated. The activity of pectinase and proteinase were initially increased and finally decreased with increase in concentrations of tannic acid. Tannic acid served as an ecological allelochemical, repressing the growth of the pathogen.     

螺孢菌ZG9901的筛选及其产碱性果胶酶发酵条件研究

用筛选培养基从芦苇土壤中筛选到７株碱性果胶酶产生菌株,经初筛选和复筛得到产酶活性较高的一株菌株ＺＧ９９０１,初步鉴定为螺孢菌属Ｓｐｉｒｉｌｌｏｓｐｏｒａ ｓｐｐ．最适摇瓶产酶条件是：果胶２０ｇ／Ｌ,乳糖２０ｇ／Ｌ,蛋白胨３ｇ／Ｌ,酵母膏４ｇ／Ｌ,ＫＨ２ＰＯ４１ｇ／Ｌ,ＭｇＳＯ４．７Ｈ２Ｏ０．０４ｇ／Ｌ,ＭｇＣｌ２０．２ｇ／Ｌ,ｐＨ９．０,３２℃培养３６ｈ达到产酶高峰。     

水分和氧气对毛萼田菁茎瘤固氮作用的影响

水分剥夺引起毛萼田菁（Ｓｅｓｂａｎｉａｒｏｓｔｒａｔａ）茎瘤固氮活性的下降；水分剥夺还导致茎瘤类菌体固氮的最适Ｏ２分压（ｐＯ２）和呼吸强度的下降及茎瘤豆血红蛋白和细胞质可溶性蛋白含量的下降。测定水分剥夺的茎瘤在不同ｐＯ２下的固氮活性和茎瘤组织切片的显微观察，支持水分胁迫可使Ｏ２扩散阻力增大这一观点。测定不同ｐＯ２下离体茎瘤固氮活性以ｐＯ２为６０％最高；当把茎瘤切碎后，茎瘤皮层的扩散屏障作用降低或失去，最适ｐＯ２降至４０％，说明Ｏ２是茎瘤固氮作用的限制因子。     

邻苯二甲酸二丁酯对拟南芥幼苗的氧化损伤（Oxidative Damage Induced by Dibutyl Phthalate to Stem and Leaves of Arabidopsis Seedlings）

为了探讨邻苯二甲酸二丁酯(DBP)对植物的氧化损伤作用,采用不同浓度的DBP溶液对拟南芥(Arabidopsis thaliana)进行染毒(终浓度为0、0.5、2.5、5、10mg·L-1),检测DBP对幼苗茎、叶超氧化物歧化酶(SOD)活性及丙二醛(MDA)含量的影响.结果表明:染毒1周后,随DBP浓度的升高,拟南芥幼苗茎叶MDA含量呈显著上升趋势,高浓度组(5、10mg·L-1)与对照组差异显著(p<0.01);SOD活性随DBP浓度的升高呈先升高后降低趋势,各染毒组与对照组均差异显著(p<0.01).以上结果表明DBP可对拟南芥幼苗产生明显的氧化损伤.     

Seasonal distribution of physico- chemical parameters in effluent discharge area of Uppanar estuary, Cuddalore, south-east coast of India

Seasonal distribution of physico-chemical characteristics such as rainfall, pH, salinity, temperature, light extinction coefficient, dissolved oxygen, biological oxygen demand and nutrients like total phosphorus, inorganic phosphate, nitrite, nitrate and reactive silicate has been studied at two stations of Uppanar estuary in relation to effluent discharges from SIPCOT industries. There are 44 industries discharges their effluents into Uppanar estuary, which may influence the biota. Nutrient concentrations were higher during monsoon season and low during summer season. The mean concentrations of nutrients were high at station 1 than station 2 due to discharges from industries, coconut husk retting grounds near the station 1. In the present study, the physico-chemical characteristic of Uppanar estuary carried out and variations are discussed.     

生物环境因子对树干呼吸时空变异的影响

树干呼吸是解释森林生态系统生产力变化的关键过程之一.测定树干呼吸速率,理解其生物环境调控机制,有助于构建森林碳循环模型,提供森林碳收支的估测精度.本文比较分析了树干呼吸3种测定方法,指出活体测定法与质量平衡方法的结合使用,可以更深入地进行树十呼吸机理研究.针对树十呼吸速率时空变异,着重探讨温度、树干液流的重要影响机制,并比较分析了不同森林生态系统的维持呼吸年通量,维持呼吸年通量与林龄、维度、年均温和降水量呈显著线性相关.表4参84