野油菜黄单胞菌中烯脂酰ACP还原酶的功能鉴定

烯脂酰ACP还原酶是细菌脂肪酸合成的关键酶之一.本研究通过生物信息学分析发现,野油菜黄单胞菌Xanthomonas campestris(Xcc)8004基因组中XC_0119(Xccfab V)注释为反-2-烯脂酰Co A还原酶基因.但其编码产物与铜绿假单胞菌的烯脂酰ACP还原酶Fab V具有较高的同源性,并含有相同的催化活性中心Tyr-(Xaa)8-Lys序列.用携带Xccfab V的质粒载体互补大肠杆菌fab I温度敏感突变株JP1111,转化子能在42℃生长,表明Xccfab V能遗传互补大肠杆菌fab I突变.体外重建脂肪酸合成反应表明,Xcc Fab V能催化不同链长的烯脂酰ACP还原为脂酰ACP,且催化活性不受三氯森抑制.遗传学研究表明,Xccfab V是必需基因,不能获得Xccfab V基因敲除突变株.将携带大肠杆菌fab I的外源质粒导入野生菌后,可敲除染色体上的fab V基因,获得的替换突变株生长特性和脂肪酸组成未发生显著变化,但替换突变株对三氯森敏感.上述结果证实,野油菜黄单胞菌fab V是必需基因,编码烯脂酰ACP还原酶,参与脂肪酸从头合成反应,且Fab V是Xcc对三氯森耐受的根本原因.     

乳酸乳球菌fabZ1和fabZ2基因功能的鉴定

大肠杆菌(Escherichia coli)是Ⅱ型脂肪酸合成系统的模式生物,3-羟基脂酰ACP脱水异构酶(FabA)是不饱和脂肪酸合成中的关键酶.生物信息学分析表明,乳酸乳球菌(Lactococcus lactis)的基因组中没有标注为3-羟基脂酰ACP脱水异构酶的基因,但有两个标注为3-羟基脂酰ACP脱水酶基因LlfabZ1和LlfabZ2,其编码的蛋白质与EcFabZ的相似性分别为41%和45.1%,且都具有3-羟基脂酰ACP脱水酶两个保守的α螺旋结构.用携带LlfabZ1和LlfabZ2的质粒载体遗传互补大肠杆菌fabA温度敏感突变株CY57,在42℃下不能恢复生长,但无细胞抽提物的结果显示LlFabZ1能够使反-2-癸烯酰ACP异构成顺-3-癸烯酰ACP,而LlFabZ2则不能.互补大肠杆菌fabZ突变株HW7显示,在诱导的条件下,含有LlfabZ2的转化子能够恢复生长,而LlfabZ1则不能.体外重建脂肪酸合成反应及蛋白质活性测定表明,LlFabZ1具有3-羟基脂酰ACP脱水异构酶功能,而LlFabZ2只具有3-羟基脂酰ACP脱水酶功能.另外,未得到LlfabZ1和LlfabZ2的突变株,表明LlFabZ1和LlFabZ2可能是乳酸乳球菌脂肪酸合成酶系中的必不可少的关键蛋白.上述结果证实了乳酸乳球菌fabZ1和fabZ2两个基因在脂肪酸合成中的功能.     

细菌3-酮脂酰ACP还原酶研究进展

3-酮脂酰ACP还原酶(FabG)在细菌中广泛存在并且十分保守,已经发现的所有FabG及其同系物都具有类似的催化活性中心序列,隶属于短链醇脱氢酶/还原酶(SDRs)超家族成员。它是Ⅱ型脂肪酸合成反应中的关键酶,将3-酮脂酰ACP还原为3-羟脂酰ACP多以NADPH作为辅酶。从搜集的文献来看,国内外针对不同细菌中3-酮脂酰ACP还原酶同系物的研究报道体现了其多样性的特点。但是,近年来,该方面的专题综述十分少见。本文主要对3-酮脂酰ACP还原酶的结构特征、在脂肪酸合成和其他方面的生物学功能,以及以该酶为作用靶点的抑菌剂等方面进行概述,以期为将来3-酮脂酰ACP还原酶的深入研究提供理论参考。     

大肠杆菌3-酮基脂酰ACP还原酶110位天冬酰胺突变后的结构与功能

3-酮基脂酰ACP还原酶催化3-酮基脂酰ACP还原为3-羟基脂酰ACP,是细菌脂肪酸合成反应的关键酶之一.为了明确该酶中110位的保守天冬酰胺残基在酶催化活性和酶结构中的作用,本研究采用基因定点突变和蛋白质表达纯化技术,获得了大肠杆菌3-酮基脂酰ACP还原酶FabG的两个突变蛋白：FabG N110Q和FabG N110L.圆二色谱结果显示,天冬酰胺残基的突变改变了FabG的空间结构,使突变蛋白的α螺旋结构明显增加.以3-酮脂酰ACP为底物的酶活性测定表明,突变蛋白的酶活性均有下降,但残存的酶活性达到了FabG的75%以上.突变蛋白FabG N110Q和FabG N110L具有3-酮基脂酰ACP还原酶的活性,能在体外重建细菌脂肪酸合成反应.对fabG温度敏感突变株的遗传互补分析表明,FabG蛋白110位天冬酰胺突变为谷氨酰胺或亮氨酸后,在一定的条件下仍能互补大肠杆菌的生长.本研究结果提示,FabG 110位的天冬酰胺残基不是参与3-酮基脂酰ACP还原酶催化反应的必需氨基酸,它只是作为结构氨基酸,在维持FabG的空间结构的稳定性方面起作用.     

五个3-酮脂酰ACP合成酶同源蛋白的功能鉴定

大肠杆菌的FabB和FabF均具有长链3-酮基脂酰ACP合成酶活性.除参与长链饱和脂酰链的延伸外,FabB还是合成不饱和脂肪酸的关键酶之一,参与不饱和脂酰ACP的从头合成,最终生成顺-9-十六烯脂酰ACP.而FabF只能将顺-9-十六烯脂酰ACP延伸为顺-11-十八烯脂酰ACP,不参与不饱和脂酰ACP的从头合成.有研究表明,粪肠球菌、乳酸乳球菌、丙酮丁醇梭菌和茄科雷尔氏菌等细菌的FabF同源蛋白,具有类似大肠杆菌FabB和FabF的双功能.为证实该现象是否普遍存在,本研究选取了枯草芽孢杆菌BsfabF、中华苜蓿根瘤菌SmfabF、霍乱弧菌VcfabF、铜绿假单胞菌PafabF1和PafabF2 5个同源基因进行功能鉴定,体外酶学分析表明,5个FabF同源蛋白均具有长链3-酮基脂酰ACP合成酶活性,异体互补大肠杆菌CL28的脂肪酸组分分析显示,SmfabF、VcfabF、PafabF1和PafabF2具有3-酮脂酰ACP合成酶Ⅱ(FabF)活性,遗传互补大肠杆菌温度敏感突变株CY242和CY244的研究显示,仅有PafabF2编码的蛋白拥有3-酮脂酰ACP合成酶Ⅰ(FabB)活性,能互补大肠杆菌fabB的突变.这表明不是所有的FabF同源蛋白均具有3-酮脂酰ACP合成酶Ⅰ和Ⅱ的双重活性.     

不同细菌来源的3-酮脂酰ACP合成酶Ⅲ生物学特性分析

3-酮脂酰ACP合成酶Ⅲ(FabH)是催化细菌脂肪酸合成的起始反应.研究表明,革兰氏阳性细菌FabH对支链脂酰-CoA前体的选择性是其合成支链脂肪酸的关键.但部分革兰氏阴性细菌也产生一定量的支链脂肪酸,其合成机制还不清楚.为此,本研究选取了革兰氏阳性细菌枯草芽孢杆菌BsfabH1和BsfabH2、金黄色葡萄球菌SafabH、天蓝色链霉菌ScofabH、革兰氏阴性细菌茄科雷尔氏菌RsfabH、大肠杆菌EcfabH,以及产支链脂肪酸的水稻黄单胞菌XoofabH,共7种fabH同源基因进行生物学特性分析.异体遗传互补茄科雷尔氏菌fabH突变株RsmH,表明这7个基因编码蛋白都具有3-酮脂酰ACP合成酶Ⅲ活性.脂肪酸组成分析显示,4个革兰氏阳性菌fabH和XoofabH互补株类似,均能产生支链脂肪酸,而EcfabH和RsfabH互补株不产生支链脂肪酸,说明XooFabH不同于EcFabH,参与支链脂肪酸合成.体外酶学分析表明,XooFabH与4种革兰氏阳性菌FabH类似,对支链脂酰-CoA有较高的选择,但EcFabH和RsFabH对支链前体活性低.与革兰氏阳性细菌FabH不同,XooFabH对中短链长(C4~C10)脂酰-CoA也具有较高的活性.综合以上结果,不同细菌来源FabH的生物学特性差异明显,FabH能利用支链前体是细菌合成支链脂肪酸的关键因素.     

△12-脂肪酸去饱和酶FAD2的基本特性及其在胁迫中的功能

脂肪酸去饱和酶(fatty acid desaturase,FAD)催化与载体结合的饱和脂肪酸或不饱和脂肪酸在脂酰链上形成双键.脂肪酸去饱和酶可以分为脂酰ACP去饱和酶、脂酰CoA去饱和酶和脂酰脂去饱和酶三类.而脂酰脂去饱和酶中的△12-脂肪酸去饱和酶(△12 fatty acid desaturase,FAD2)是催化脂肪酸链第12位碳原子形成双键的去饱和酶类,控制着油酸、亚油酸和其他多种不饱和脂肪酸的合成和含量.主要从△12-脂肪酸去饱和酶FAD2的基本特性和在胁迫中的功能进行了综述,并对相关研究领域的未来研究方向进行了展望.     

苜蓿中华根瘤菌fabA和fabB基因功能的鉴定

在大肠杆菌(Escherichia coli)脂肪酸合成酶体系中,fabA基因编码有双功能的3-羟基脂酰ACP脱水异构酶,其异构产物能被fabB基因编码的3-酮基脂酰ACP合成酶Ⅰ延伸,合成不饱和脂肪酸,该FabA-FabB途径被认为是缺氧条件下不饱和脂肪酸合成的经典途径．生物信息学分析发现,苜蓿中华根瘤菌(Sinorhizobium meliloti)的SmFabA与EcFabA相似性达到60.6%,具有相同的保守活性位点和两个保守的α螺旋结构;SmFabB与EcFabB相似性达到61.1%,具有相同的Cys-His-His活性中心．用携带SmfabA和SmfabB的质粒载体遗传互补大肠杆菌温度敏感突变株CY57和CY242,在添加三氯森(TCL)抑制烯脂酰ACP还原酶活性的条件下,转化子能在42℃恢复生长,且放射性薄层层析能检测到转化子中不饱和脂肪酸棕榈油酸(Δ9C16:1)和十八碳烯酸(Δ11C18:1)的合成．体外重建脂肪酸合成反应表明,SmFabA能催化羟脂酰ACP的脱水反应且能够使反-2-癸烯酰ACP异构化,SmFabB能催化不同链长的脂酰ACP和丙二酸单酰ACP的聚合反应．另外,未得到SmFabA和SmFabB的突变株,表明SmFabA和SmFabB可能是苜蓿中华根瘤菌脂肪酸合成酶系中必不可少的关键蛋白．上述结果证实了苜蓿中华根瘤菌fabA和fabB两个基因在不饱和脂肪酸合成中的功能．     

大肠杆菌holo-ACP的过表达、分离纯化及长链脂酰ACP的合成

[目的]获得高纯度大肠杆菌holo-ACP和多种长链脂酰ACP,为研究细菌脂肪酸、类脂A和N-酯酰高丝氨酸内脂等物质的合成提供底物.[方法和结果]采用PCR方法扩增得到大肠杆菌酰基载体蛋白基因(acpP)和holo-ACP合成酶基因(acpS).使用载体pBAD24、pBAD34和pET28b分别克隆了acpP和acpS,得到pBAD-ACP、pET-ACP和pET-ACP-ACPS 3个ACP表达质粒和一个AcpS表达质粒pBAD-ACPS.分别用3个ACP表达质粒转化大肠杆菌DH5a和BL21(DE3),构建了DH5αpBAD-ACP、BL21(DE3)/pET-ACP和BL21(DE3)/pET-ACP-ACPS 3种ACP生产菌株.与holo-ACP纯化常用菌株DK574相比,虽然三菌株在诱导时均能过量表达ACP,但是holo-ACP所占比例偏低.为了提高ACP生产菌株holo-ACP的产量,用质粒pBAD-ACPS分别转化上述3种ACP生产菌株,获得了3种携带双质粒的ACP生产菌株.表达结果显示携带pBAD-ACP和pBAD-ACPS双质粒的DH5a菌株比DK574菌株能产生更多的holo-ACP,且纯度也得到提高(纯度达99%).同时使用UNOsphere Q阴离子交换层析从这一菌株培养物中分离纯化到了高纯度的holo-ACP,并以纯化到的holo-ACP和多种长链脂肪酸为底物在哈氏弧菌脂酰ACP合成酶的催化下,合成了多种长链脂酰ACP.[结论]通过研究获得一株holo-ACP高产菌株,并证明在大肠杆菌菌株中,同时表达acpP基因和acpS基因,有利于holo-ACP的产生.     

脂肪酸脱饱和的应用进展

脂肪酸脱饱和是由脂肪酸脱饱和酶所催化的不饱和脂肪酸合成途径的关键步骤。脂肪酸脱饱和酶分为脂酰CoA脱饱和酶、脂酰ACP脱饱和酶和脂酰脂脱饱和酶等三类。近年来脂肪酸脱饱和遗传操作在植物抗寒育种、植物油基因工程、食品工程、微生物发酵工程和植物抗害育种等方面的应用研究均取得了相当进展。     

Structural characterization of protein secretion genes of the bacterial phytopathogen Xanthomonas campestris pathovar campestris: relatedness to secretion systems of other gram-negative bacteria

Summary The nucleotide sequence was determined of a 5.3 kb region of the Xanthomonas campestris pathovar campestris genome carrying a gene cluster encoding protein secretion and pathogenicity functions. A putative promoter sequence and five open reading frames (ORF) which may be part of an operon were revealed. The five predicted primary translation products comprise 531, 390, 147, 169 and 138 amino acids with M_r values of 58854, 42299, 15548, 18214 and 15108 respectively. A sixth, partial ORF is also present. Between ORF1 and ORF2 is a sequence of unknown function showing 7 by duplications. The deduced amino acid sequence of ORF1 is related to the Klebsiella pneumoniae PulE protein, to the Bacillus subtilis ComG ORF1 and to the Agrobacterium tumefaciens VirB ORF11 products. In addition, the deduced amino acid sequence of ORF2 showed homology to the Pu1F and to the ComG ORF2 products. The proteins encoded by ORF3, 4 and 5 showed amino acid homology to PulG, H and I products respectively. The proteins encoded by ORF2, 3, 4 and 5 showed significant hydrophobic domains which may represent membrane-spanning regions. By contrast the protein encoded by ORF1 was largely hydrophilic and had two putative nucleoside triphosphate binding sites.The nucleotide sequence data in this paper have been deposited in the EMBL, Genbank and DDBJ nucleotide sequence databases under the accession number X59079     

十字花科黑腐病菌III型效应物XopXccR1植物亚细胞定位

[目的] 植物病原细菌通过III型分泌系统（type III secretion system,T3SS）将III型效应物（type III secreted effectors,T3SEs）分泌转运到宿主细胞的不同位点上,进而行使不同的致病功能。本研究旨在确定Xcc 8004 III型效应物中分子量最大的蛋白XopXccR1在植物中的亚细胞定位。[方法] 利用生物信息学方法分析XopXccR1的跨膜信息。通过同源重组方法将XopXccR1全长、N端（1–1220 aa）和C端（1221–2030 aa）分别克隆到植物表达载体pCAMBIA-2300-35S：：EGFP上,利用根癌农杆菌介导的瞬时表达浸染本生烟,通过激光共聚焦显微镜观察亚细胞定位结果。[结果] XopXccR1全长和N端定位在本生烟细胞膜上,而C端定位在细胞质中。[结论] XopXccR1的N端与C端可能分别存在定位信号,N端信号主导全长蛋白的最终定位。     

The Extracellular Proteases of the Phytopathogenic Bacterium Xanthomonas campestris

The culture liquids of three Xanthomonas campestris pv. campestris strains were found to possess proteolytic activity. The culture liquid of strain B611 with the highest proteolytic activity was fractionated by salting-out with ammonium sulfate, gel filtration, and ion-exchange chromatography. The electrophoretic analysis of active fractions showed the presence of two proteases in the culture liquid of strain B611, the major of which was serine protease. The treatment of cabbage seedlings with the proteases augmented the activity of peroxidase in the cabbage roots by 28%.     

Gene expression in Brassica campestris showing a hypersensitive response to the incompatible pathogen Xanthomonas campestris pv. vitians

Xanthomonas campestris pv. vitians, a pathogen of lettuce, elicits a hypersensitive response within 12 hours of inoculation into Brassica leaves, characterized by tissue collapse, loss of membrane integrity, vein blockage and melanin production. In contrast, the compatible pathogen, X. c. pv. campestris, has no visible effects on leaves for 48 hours, after which inoculated areas show chlorosis which eventually spreads, followed by rotting.mRNA was prepared from leaves inoculated with suspensions of both pathovars or with sterile medium up to 24 hours following inoculation. In vitro translation of total and poly A⁺ RNA in rabbit reticulocyte lysate in the presence of ³⁵S methionine followed by separation of the polypeptide products by 2D-PAGE, allowed comparison of the effects of these treatments on plant gene expression. Major changes in gene expression were observed as a consequence of the inoculation technique. In addition, after inoculation with X. c. vitians, up to fifteen additional major polypeptides appeared or greatly increased by four hours. Some of these had disappeared by nine hours and several more had appeared. No major polypeptides disappeared or decreased greatly in intensity following inoculation with X. c. vitians.     

野油菜黄单胞菌中LipB-LipA是唯一的硫辛酰化途径

【目的】硫辛酸是细胞内重要的辅因子,参与多种基础代谢过程。野油菜黄单胞菌(Xcc)是十字花科植物黑腐病的病原菌,在全球范围内引起植物病害,引起重大经济损失。为此研究Xcc中硫辛酸的合成途径,为防治黑腐病提供新思路。【方法】利用大肠杆菌硫辛酸合成关键酶LipA和LipB序列,同源比对发现Xcc基因组中XC_0713 (XccLipA)和XC_0712 (XccLipB)具有较高的同源性。采用PCR方法分别扩增XccLipA和XccLipB基因,并连入表达载体pBAD24M后分别互补大肠杆菌突变株,并检测转化子生长表型。利用同源重组方法,获得替换突变株,分析其生长性状,并利用剪叶法检测替换突变株对寄主植物甘蓝的致病力。【结果】XcclipA和XcclipB能分别恢复大肠杆菌lipA和lipB突变株在基础培养上生长。XcclipA和XcclipB都是菌体生长的必需基因,不能直接被敲除。但导入pSRK-EclplA后,成功分别获得XcclipA和XcclipB敲除突变株。两种EclplA替换后的敲除突变株在基础培养上都不能生长,添加硫辛酸后能恢复生长表型。在丰富培养基上,XcclipB敲除突变株能正常生长,而XcclipA敲除突变株不能生长,添加硫辛酸后生长也能恢复。分别测定不同培养条件下生长曲线,也得到同样的结果。寄主植物侵染结果显示,与野生菌相比,XcclipA敲除突变株致病性几乎丧失,而XcclipB敲除突变株的致病性与野生菌无显著性差异。【结论】Xcc中lipA编码硫辛酸合成酶,lipB编码辛酰转移酶,两者都是必需基因。Xcc中LipB-LipA途径是唯一的硫辛酰化途径,而没有外源性的硫辛酸途径。lipA敲除后显著影响Xcc的致病性,可作为抗菌药物筛选的靶点。     

野油菜黄单胞菌中3-羟基脂酰ACP脱水酶FabZ的生理功能

【背景】野油菜黄单胞菌(Xanthomonas campestris pv. campestris, Xcc)引起十字花科植物黑腐病,在全球范围内造成经济损失,亟须深入研究其致病机理,开发新的黑腐病防控措施。细菌脂肪酸合成系统不仅为细胞膜合成提供原料,其中间代谢产物还是许多生物活性分子合成的底物,具有重要的生理功能,也是抗菌药物筛选的重要靶标。【目的】研究XccfabZ对扩散信号分子(diffusible signal factor, DSF)类信号产量、致病力、胞外酶、胞外多糖和运动性等方面的影响。【方法】利用报告菌株检测法分析了不同替换突变株的DSF类群体感应信号产量。利用同源重组原理,在DSF类信号高产菌株中获得替换突变株,利用高效液相色谱(highperformanceliquid chromatography, HPLC)法测定DSF类信号产量。利用剪叶法检测替换突变株对寄主植物甘蓝的致病力,并分析了不同菌株的胞外多糖、胞外酶和运动性差异。【结果】报告菌株检测法和HPLC法都证明大肠杆菌fabZ替换突变株(XccΔfabZ/pSRK-EcfabZ)中DSF类信号产量显著下降。...     

A new,pathogen-inducible gene of Arabidopsis is expressed in an ecotype-specific manner

In this study we describe a novel gene, which was isolated in an attempt to search for specific plant resistance genes of Arabidopsis against isolates of the phytopathogenic bacterium Xanthomonas campestris pv. campestris. The gene was cloned by differential screening of a genomic library of the Xcc 750-resistant ecotype Col-0, using cDNA populations derived from ecotype Col-0 and the Xcc 750-susceptible ecotype Oy-0. The isolated gene, CXc750, is differentially expressed in ecotypes of Arabidopsis thaliana. In addition, although highly expressed in uninfected plants, gene expression increases in response to pathogen attack. CXc750 potentially codes for a small, basic protein of about 10 kDa. The predicted protein product contains a potential signal leader peptide at the amino-terminal end but no ER retention sequence and no further transmembrane domain. This indicates that the gene product is transported to other compartments or out of the cell.The possible function of CXc750 as a member of the plant defense response system is discussed.     

Xanthomonas campestris pv.parthenii pathovar nov. incitant of leaf blight of parthenium

A new bacterial leaf blight disease of parthenium (Parthenium hysterophorus L.) is described for the first time. The disease-causing bacterium was isolated and its morphological, physiological and biochemical characters were determined. The pathogenicity of bacterium is apparently limited only to parthenium. The pathogen was identified asXanthomonas campestris pv.parthenii pathovar nov. on the basis of morphological, physiological, biochemical and pathogenic characteristics.     

Isolated microspore culture of Chinese flowering cabbage (Brassica campestris ssp. parachinensis)

Microspores of several genotypes of Brassica campestris ssp. parachinensis have been cultured in vitro and induced to undergo embryogenesis and plant formation. Conditions favourable for embryogenesis in this species include a bud size of 2–2.9 mm, NLN-13 culture medium (Nitsch and Nitsch 1967; Lichter 1981, 1982; Swanson 1990), and an induction through exposure to 32°C for a period of 48 h. Longer periods of an elevated temperature for induction of embryogenesis resulted in embryo abortion at early developmental stages. With the protocol developed here, microspores of 60–80% of donor plants could be induced to produce embryos, although embryo yields were low, i.e. 2–5 embryos per 10 buds. Some genotypes responded to culture conditions with high numbers of embryo formation (100–150 embryos per 10 buds) but most of these subsequently failed to mature. The pattern of cell division and morphological changes of the microspores in culture were studied using various microscopic techniques.