一株嗜盐菌新种的分离与鉴定

从舟山册子岛船舶压载水泥样中分离到一株细菌S3-22,其与已知细菌的16S rDNA序列相似性低于97%,G+C mol%为54.9 mol%,主要脂肪酸iso-C17:1ω9c(24.99%),细胞醌型为甲基萘醌MK-5。革兰氏染色阴性,最适生长条件为30～37℃、pH7、3%NaCl。嗜盐,氧化酶、接触酶、淀粉酶、酯酶呈阳性,可还原硝酸盐。依据其16S rDNA序列相似性、系统发育学分析及细胞与分子水平的鉴定表明,该菌是Kordiimonas属的一个新种,菌株S3-22的16S rDNA序列登陆号为FJ847942。     

盐地碱蓬内生中度嗜盐菌

植物内生菌已经成为我国微生物领域研究的热点之一[1],对植物内生细菌的研究不仅丰富了内生菌的生理类群及数量,而且探索了内生菌与植物的相互关系;同时也发现了一些新分类地位的菌株。目前,关于植物内生极端微生物的研究较少,本刊2010年第2期刊登了崔春晓、夏志洁等发表的文章\"盐地碱蓬内生中度嗜盐菌的分离与系统发育多样性分析\"[2],作者根据盐地碱蓬内生境高盐的特点,从中不仅     

嗜盐小盒菌属新种的鉴定

从新疆盐湖分离纯化到3株多形态嗜盐菌(编号为A_5,B_ 2和B-B_2).以《伯杰氏系统细菌学鉴定手册》第3卷(1989年)为主要依据,根据极性脂分析,这3株菌可归入嗜盐小盒菌属(Haloarcula).又根据细胞形态特征和生理生化特性,这3株菌不同于该属中现在正式承认的两个种而成为一独立的类群,建议为嗜盐小盒菌属中的一个新种,命名为艾丁嗜盐小盒菌(Haloarcula aidinensis sp.nov.).以A_5菌株作为模式株.     

嗜盐菌的嗜盐机制

嗜盐菌是生活在高盐环境中的细菌。它们的细胞结构和生理机能特殊,要求有高盐浓度维持其生存;同时,它们的细胞膜结构和细胞内的溶质,都能适应高盐环境。     

一株嗜盐嗜碱硫氧化菌的筛选、鉴定及硫氧化特性

【背景】沼气和天然气等清洁能源中往往会含有一定量的硫化氢,硫化氢的存在不仅污染环境,而且对人类危害很大。【目的】以硫代硫酸钠为唯一硫源从巴丹吉林沙漠盐碱湖岸边沉积物中分离筛选得到一株硫氧化菌BDL05,并研究其硫氧化特性。【方法】通过形态观察、生理生化特征及16S rRNA基因序列分析对硫氧化菌BDL05进行鉴定。【结果】菌株BDL05为革兰氏阴性菌,弧状,其16S rRNA基因序列与Thiomicrospira microaerophila ASL 8-2的相似性达99.8%,将其命名为Thiomicrospira microaerophila BDL05。该菌氧化硫代硫酸盐的最适pH为9.3,最适总钠盐浓度为0.8mol/L,在以硫化钠为硫源的气升式反应器中单质硫的生成率为94.7%,生成速率为3.0 mmol/(L·h)。【结论】菌株Thiomicrospira microaerophila BDL05为嗜盐嗜碱硫氧化菌,其耐盐耐碱性较强,比生长速率快,硫化钠氧化能力较强,是一株在气体生物脱硫方面具有应用价值的菌株。     

海滨盐薄片菌——分离自海洋盐田的一个嗜盐古菌新种

【目的】研究分离自我国华南地区阳江盐田的一株嗜盐古菌菌株YJ-41^T,探究其分类学地位。【方法】运用多相分类学方法即通过表型和遗传型特征鉴定,研究菌株YJ-41^T 的分类学地位。【结果】菌株YJ-41^T 的细胞为杆状、革兰氏染色阴性、菌落呈红色。菌株YJ-41^T 的生长温度范围20–50 ℃ (最适为37 ℃)、NaCl 浓度范围2.1–4.8 mol/L (最适为3.1 mol/L)、MgCl₂浓度范围0–1.0 mol/L (最适为0.05 mol/L)、pH 范围5.0–9.0 (最适为pH 7.0)。细胞在蒸馏水中会裂解,维持细胞形态的最低NaCl 浓度为10% (质量体积比)。菌株YJ-41^T 的极性脂为磷脂酸(Phosphatidic acid,PA)、磷脂酰甘油(Phosphatidyl glycerol,PG)、磷脂酰甘油磷酸甲基酯(Phosphatidyl glycerol phosphate methyl ester,PGP-Me)、磷脂酰甘油硫酸酯(Phosphatidylglycerol sulphate,PGS)和8 种糖脂;其中3 种糖脂为硫酸甘露糖苷葡萄糖二醚(Sulfated mannosylglucosyl diether,S-DGD-1)、半乳糖苷甘露糖苷葡萄糖二醚(Galactosyl mannosy glucosyl diether,TGD-1)和甘露糖苷葡萄糖二醚(Mannosyl glucosyl diether,DGD-1),其余为未知糖脂。菌株YJ-41^T 的16S rRNA 基因和rpoB''基因与盐薄片菌属(Halolamina)的成员相关基因相似性分别为97.5%–98.4%和93.1%–94.4%。菌株YJ-41^T 的G+C mol%为61.4 mol%。【结论】表型、化学分类和系统发育的特性表明,菌株YJ-41^T (=CGMCC 1.12859^T=JCM 30237^T)代表Halolamina 属的一个新种,建议命名为海滨盐薄片菌(Halolamina litorea)。     

盐地碱蓬内生中度嗜盐菌的分离与系统发育多样性分析

为了了解东营滨海盐地碱蓬植株内生中度嗜盐菌的多样性,采用传统分离鉴定技术和基于16S rRNA序列分析对样品中可培养细菌的多样性进行研究。根据其生理生化特征、16S rRNA序列测定和系统发育分析,分离获得的15株内生菌可分为4个类群,涉及Halomonadaceae科的Chromohalobacter属、Kushneria属、Halomonas属以及Bacillaceae科的Bacillus属。类群I中4菌株的16S rRNA序列与Chromohalobacter israelensis的最高相似性为95%。类群II共7株菌,归属于Kushneria属,是碱蓬内生中度嗜盐菌中的优势类群。类群III菌株的16S rRNA序列与一株尚无明确分类地位的Gammaproteobacteria亚门耐盐固氮细菌Haererehalobacter sp.JG11的相似性为99%。类群IV中的芽孢杆菌的16S rRNA序列与已知细菌的相似性为96%,很可能代表了Bacillus属的新种。各种水解酶类的分析表明,在分离的15株菌中有3株菌产蛋白酶,14株产酯酶,8株产DNA酶,11株产半乳糖苷酶,14株产脲酶。研究结果揭示,盐地碱蓬中存在较为丰富的中度嗜盐菌多样性和系统发育多样性,并且潜藏着较多的新的微生物类群。     

嗜盐微生物

高盐环境通常是指那些盐浓度高于海水的环境．在这些环境中能够生存的微生物可划分为三类：一“类是能耐受一定浓度的盐溶液,但在无盐存在条件下生长最好的菌称为耐盐菌．第二类是一定浓度的盐为菌体生长所必需,且在一定浓度的盐溶液中生长最好,称为嗜盐菌．在盐浓度从零至饱和的盐溶液中均能生长,在一定浓度的盐溶液中生长最好的特殊类群称为多能盐生苗。依据嗜盐浓度的不同,嗜盐菌又可分为轻度嗜盐菌（最适盐浓度0．2—0．smol／L）、中度嗜盐菌（最适盐浓度0．5—2．omol／L）和极端嗜盐菌（最适盐浓度＞3mol／U,其中部分极端嗜…     

极端嗜盐古菌蛋白类抗生素——嗜盐菌素

古菌(Archaea)是一类与细菌及真核生物显著不同的生命的第三种形式[1],大多生活在极端或特殊环境,主要包括产甲烷古菌(Methanogenic Achaea)、极端嗜盐古菌(Extremely Halophilic Archaea)和极端嗜热古菌(Extremely Thermophilic Archaea)等三大类.极端古菌是极端环境微生物的重要成员,也是极端环境微生物资源开发的重要领域.其中,嗜盐古菌可产生一类蛋白类抗生素,称为嗜盐菌素(halocin).     

一株嗜盐嗜碱菌属促生菌的分离及功能鉴定

【背景】土壤盐碱化是一个全球性问题,耐盐植物根际存在大量未被开发的功能微生物,例如植物根际促生菌(plant growth-promoting rhizobacteria, PGPR)。这些微生物能够通过自身的促生功能帮助植物抵抗盐碱胁迫并促进植物生长。【目的】筛选出具有耐盐碱作用的PGPR,研究其促生功能,为研发盐碱地专用功能性微生物肥料提供候选菌株。【方法】从新疆维吾尔自治区喀什地区野生柽柳根际土壤中筛选出一株耐盐碱细菌Bachu49;通过形态学、生理生化特性和16S rRNA基因测序技术对其进行分类鉴定;利用多种功能鉴定培养基测定菌株Bachu49的解钾、固氮、解磷、吲哚乙酸合成、1-氨基环丙烷-1-羧酸(1-aminocyclopropane-1-carboxylate, ACC)脱氨酶和铁载体合成等促生能力;采用二分格培养皿验证菌株Bachu49产生挥发性酸性物质的能力;最后分别通过平皿和盆栽试验测定菌株对拟南芥和玉米幼苗生长的影响。【结果】从供试土壤样品中筛选分离到一株耐盐碱菌株Bachu49,经16S rRNA基因序列比对分析鉴定为嗜盐嗜碱菌属(Alkalibacterium);菌株Bachu49拥有固氮、解有机磷和分泌吲哚乙酸(indole-3-acetic acid,IAA)等促生能力,可在盐浓度0−160 g/L、pH 7.0−11.0的条件下生长,该菌还具有一定的降碱能力。在pH 8.0、9.0和10.0的条件下,降碱率分别为9.75%、15.56%和20.60%。促生试验结果表明菌株Bachu49可以显著促进拟南芥、玉米在盐碱胁迫条件下的生长。其中,在pH 8.0、2 mmol/L NaHCO₃的盐碱胁迫条件下,接种了菌株Bachu49后拟南芥的根长、侧根数目、鲜重和叶片数分别增加了239.86%、1 952.83%、389.71%和91.23%;在15 g/kg的盐胁迫条件下,玉米的地下鲜重增加了10.14%,而在30 g/kg的盐碱胁迫条件下,玉米的地上鲜重、茎粗和株高分别增加了42.04%、23.14%和40.91%。【结论】Alkalibacterium sp. Bachu49具有优良的耐盐碱与促生能力,能够显著促进植物在盐碱胁迫下的生长,这为今后在研发盐碱地专用功能型微生物肥料方面提供了菌种资源和理论基础。     

嗜盐碱性淀粉酶产生条件和性质的初步研究

从我国内蒙古自治区察汗淖碱湖分离到一株能产胞外嗜盐碱性淀粉酶的极端嗜盐嗜碱杆菌(Natronobacterium sp.)C-212,该菌产酶的最适pH和NaCl浓度分别为9.5和20%,最适碳源为可溶性淀粉,氮源为复合蛋白胨.酶反应最适温度为50℃,pH为8.5,NaCl浓度为2.6mol/L,该酶在pH9.5最稳定,NaCl可增加酶的热稳定性,酶降解可溶性淀粉的主要产物为葡萄糖、麦芽糖、麦芽三糖及其他寡糖.     

Polar lipids of 'Pseudomonas diazotrophicus'

Abstract Reference strains of ' Pseudomonas diazotrophicus ' produce a range of polar lipids atypical of authentic Pseudomonas species. In addition to the phospholipids common in Gram-negative bacteria (phosphatidylglycerol, diphosphatidylglycerol, and phosphatidylethanolamine), N -methylated derivatives of phosphatidylethanolamine (including phosphatidylcholine) and an ornithine amide lipid are also present. The preponderant ester-bound fatty acid (up to 80% of the total) is cis -vaccenic acid ( cis -octadec-11-enoic acid), while 3-hydroxyoctadecanoic acid is the major amide-bound fatty acid in the ornithine lipid. Possible implications of the data for classification of the organism are discussed.     

Enzymatic conversions of polar lipids. Principles, problems and solutions

This text provides a brief overview of the principles of enzymatic lipid conversion and some recent advances in the enzymatic conversion of glycerophospholipids and galactolipids. Lipases and phospholipases are used to exchange fatty acids or the polar group in the lipids. The reactions can be carried out either as hydrolysis–esterification sequences or as one-step transferase reactions. The scope and limitations of the different methods are discussed.     

Lipid composition of Halobacterium lacusprofundi

Abstract The recently described aerobic, extremely halophilic archaeobaterium, Halobacterium lacusprofundi was subjected to lipid analysis so that comparisons could be made between existing lipid data and that of the new isolate. This investigation showed that the major respiratory lipoquinones present were MK-8 and MK-8(VIII-H₂), a feature found in other members of the family Halobacteriaceae. The polar lipids comprised the diether derivatives of phosphatidly glycerol, phosphatidyl glycerophosphate, phosphatidly glycerosulphate, a diglycosyl diether and its sulphate derivative. The data presented shows that Halobacterium locusprofundi is related to Hb. saccharovorum and Hb. sodomense , and is in agreement with phylogenetic data.     

Fatty acid composition and extreme temperature tolerance following exposure to fluctuating temperatures in a soil arthropod

Ectotherms commonly adjust their lipid composition to ambient temperature to counteract detrimental thermal effects on lipid fluidity. However, the extent of lipid remodeling and the associated fitness consequences under continuous temperature fluctuations are not well-described. The objective of this study was to investigate the effect of repeated temperature fluctuations on fatty acid composition and thermal tolerance. We exposed the springtail Orchesella cincta to two constant temperatures of 5 and 20 °C, and a continuously fluctuating treatment between 5 and 20 °C every 2 days. Fatty acid composition differed significantly between constant low and high temperatures. As expected, animals were most cold tolerant in the low temperature treatment, while heat tolerance was highest under high temperature. Under fluctuating temperatures, fatty acid composition changed with temperature initially, but later in the experiment fatty acid composition stabilized and closely resembled that found under constant warm temperatures. Consistent with this, heat tolerance in the fluctuating temperature treatment was comparable to the constant warm treatment. Cold tolerance in the fluctuating temperature treatment was intermediate compared to animals acclimated to constant cold or warmth, despite the fact that fatty acid composition was adjusted to warm conditions. This unexpected finding suggests that in animals acclimated to fluctuating temperatures an additional underlying mechanism is involved in the cold shock response. Other aspects of homeoviscous adaptation may protect animals during extreme cold. This paper forms a next step to fully understand the functioning of ectotherms in more thermally variable environments.     

10种海洋微藻总脂、中性脂和极性脂的脂肪酸组成

研究了10种海洋微藻的总脂、中性脂和极性脂的脂肪酸组成特征。海洋微藻的脂肪含量均在15％以上。极性脂一般为海洋微藻的主要脂类,是长链多元不饱和脂肪酸的主要提供者。中性脂含短链脂肪酸较多,为主要的储存脂类。绿藻纲可以将高含量的16:4(n-3)和18:3(n-3)作为化学分类的标记脂肪酸,小球藻和微绿球藻有丰富的20:5(n-3),与绿藻纲显著不同,可能属于大眼藻纲。绿枝藻纲的脂肪酸组成与绿藻纲类似,绿胞藻纲以16:0、18:4(n-3)和20:5(n-3)为主要脂肪酸。脂肪酸组成可用于海洋微藻的分类学研究,并能指导利用海洋微藻生产高度不饱和脂肪酸。     

An integrated procedure for the extraction of bacterial isoprenoid quinones and polar lipids

A simple small-scale procedure for the sequential extraction of isoprenoid quinones and polar lipids from bacterial cells was developed. Extraction with a biphasic mixture of petroleum ether (b.p. 60–80°C) and methanolic saline gave an upper phase containing isoprenoid quinones. The lower phase, containing the partially extracted organisms, was processed according to the Bligh and Dyer extraction method to give a polar lipid extract. As examples of the procedure, the isoprenoid quinones and polar lipids of Bacillus subtilis, Mycobacterium avium, Pseudomonas diminuta and Streptomyces griseus were extracted and analyzed.