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1.
利用鸟枪法对大肠杆菌O150 O-抗原基因簇进行测序,序列全长13551bp,用生物信息学的方法进行序列分析,共发现11个基因,分别为鼠李糖合成酶基因(rmlB、rmlD、rmlA、rmlC)糖基转移酶基因(3个)、O-抗原转运酶基因(wzx)和O-抗原聚合酶基因(wzy),另外还有两个基因功能未知。用PCR的方法筛选出了针对大肠杆菌O150的特异基因,可以用于基因芯片或PCR方法对大肠杆菌O150的快速检测。另外,通过进化分析发现大肠杆菌O150的O-抗原基因簇中携带有典型的大肠杆菌鼠李糖合成酶基因,并且这些基因参与了O-抗原基因簇间的重组以形成新的基因簇的过程。  相似文献   

2.
孔庆科  郭宏杰  赵广  郭玺  程剑松  王磊 《遗传学报》2004,31(12):1448-1454
对大肠杆菌O141 O-抗原基因簇进行测序,序列全长15601bp,用生物信息学的方法进行序列分析,共发现12个基因:鼠李糖合成酶基因(rmlB,rmlD,rmlA,rmlC)、甘露糖合成酶基因(manB,manC),糖基转移酶基因(orf6,orf7,orf9,orf10)、O-抗原转运酶基因(wzx)和O-抗原聚合酶基因(wzy)。用PCR的方法筛选出了针对大肠杆菌O141的特异基因,可以用于基因芯片或PCR方法对大肠杆菌O141的快速检测。通过对大肠杆菌O141的O-抗原基因簇及甘露糖和鼠李糖合成酶基因的进化分析发现:大肠杆菌O141 O-抗原基因簇是低GC含量的片段,仅O-抗原特异的基因才出现在O-抗原基因簇;并且这些基因可能介导了O-抗原基因簇间的重组及以O141 O-抗原基因簇的形成。  相似文献   

3.
大肠杆菌O54 O-抗原基因簇的破译及进化分析   总被引:1,自引:0,他引:1  
破译了大肠杆菌O5 4O 抗原基因簇的序列 ,序列全长 1 4 0 6 2bp。用生物信息学方法分析序列并鉴定基因 ,共确定 1 0个基因 ,包括鼠李糖合成酶基因BDA和C(rmlBDA和rmlC) ,糖基转移酶基因 ,O 抗原转运酶基因 ,O 抗原聚合酶基因和合成磷酸丝氨酸侧链的基因及 1个不能确定功能的开放阅读框。对rmlC的 (G C) %含量 ,稀有密码子含量及进化分析都表明大肠杆菌O5 4O 抗原基因簇是在近期通过rmlC介导的重组形成 ,而且大肠杆菌O5 4和鲍氏志贺氏菌 9型的亲缘关系很近。对UTP 葡萄糖 1 磷酸 尿苷转移酶基因 (galF)和 6 磷酸葡萄糖脱氢酶基因(gnd)的进化分析揭示志贺氏菌属与大肠杆菌属在进化上属于同一个属。用PCR方法筛选出了针对大肠杆菌O5 4的特异基因 ,用于基因芯片或PCR方法对大肠杆菌O5 4的快速检测。  相似文献   

4.
大肠杆菌O11是一种可在人畜间交叉传染的强致病菌,具有潜在流行性爆发的危险。现完成了O11 O-抗原基因簇的破译,筛选和鉴定了多种特异分子标识,并实现了对大肠杆菌O11的快速、灵敏和准确的分子分型检测。利用鸟枪法测定大肠杆菌O11 O-抗原基因簇的序列全长为14180bp,生物信息学方法分析序列结构,共发现12个基因:GDP-L型岩藻糖合成途径基因(gmd,fcl,gmm,manC,manB)、UDP-N乙酰葡萄糖C4异构酶基因(gne)、O-抗原转运酶基因(wzx)、O-抗原聚合酶基因(wzy)和4个糖基转移酶基因;用PCR方法筛选出2个针对大肠杆菌O11的特异基因和4对特异引物,并进行环境样品检测实验鉴定了该PCR检测方法的灵敏度;设计并筛选出8条针对大肠杆菌O11的特异探针。  相似文献   

5.
采用鸟枪法破译大肠杆菌O23标准株的O-抗原基因簇序列,并用生物信息学的方法进行了基因注释和分析;采用基因缺失和互补的方法鉴定了O23的UDP-GlcNAc C4异构酶(Gne);用同源建模的方法构建了O23 Gne的高级结构并对其活性位点进行了分析;分析了不同血清型大肠杆菌O-抗原基因簇中gne基因的多样性;根据O23O-抗原基因簇中的特异基因筛选出了可用于大肠杆菌O23快速检测的特异DNA序列。  相似文献   

6.
陶江  刘斌  王荃  郭宏杰  冯露 《微生物学报》2004,44(3):345-350
利用生物信息学手段对大肠杆菌和志贺氏菌的 1 1 0个O 抗原糖基转移酶与 39个O 抗原聚合酶的序列进行分析 ,探讨这两种酶的序列和结构特点。统计了其序列一致性 ,密码子使用和 (G C) %含量的特点 ;讨论了O 抗原糖基转移酶和聚合酶对底物的特异性 ;推测了 6组糖基转移酶的功能 ;通过对蛋白拓扑结构的预测 ,发现O 抗原聚合酶中广泛存在一个位于细胞周质中的亲水环 (Loop) ,是可能的功能区域 ;通过对蛋白高级结构的预测 ,发现O 抗原糖基转移酶属于两个不同的蛋白超家族。  相似文献   

7.
Methanopyrus sp.SNP6是一株极端嗜热产甲烷菌,本文将其黄素腺嘌呤二核苷酸合成酶基因(fads)进行生物信息学分析并在大肠杆菌中加以表达。生物信息学分析发现,FAD合成酶由150个氨基酸残基组成,理论分子量为17 049.93,等电点为8.95;三级结构为同源二聚体,每个单体含有五股平行的(折叠,比典型的核苷酸结合折叠少一个β折叠。扩增fads基因,构建重组表达质粒p ET28b(+)-fads,在大肠杆菌BL21(DE3)中诱导表达。实验结果显示,该FAD合成酶能在大肠杆菌中高效表达,但部分蛋白以包涵体形式存在。本研究对Methanopyrus sp.SNP6源FAD合成酶进行了蛋白质序列和结构的分析,并首次实现了其在大肠杆菌中的稳定高效表达,为后续该酶的研究和开发提供了基础。  相似文献   

8.
FabB和FabF是大肠杆菌(Escherichia.coli)脂肪酸合成的关键酶.生物信息学分析显示,粪肠球菌基因组中有2个与大肠杆菌fabF同源的基因:fabF1和fabF2,缺少与fabB同源的基因.用粪肠球菌(Enterococcus faecalis)V583总DNA为模板,PCR扩增fabF1和fabF2基因,以pBAD24为载体,构建了重组质粒pHW13(fabF1)和pHW14(fabF2).体内体外研究显示:fabF1基因能互补大肠杆菌fabB突变,FabF1具有β酮脂酰ACP合成酶Ⅰ(FabB)活性;fabF2能互补大肠杆菌fabF突变,FabF2具有β酮脂酰ACP合成酶Ⅱ(FabF)活性.同时发现粪肠球菌FabF2不同于大肠杆菌FabF,它还拥有微弱β酮脂酰ACP合成酶Ⅰ(FabB)活性,可使大肠杆菌fabB突变株产生少量的不饱和脂肪酸.上述结果表明,FabF类酶(FabF like enzyme)同样可以具有β酮脂酰ACP合成酶Ⅰ(FabB)活性.  相似文献   

9.
利用生物信息学手段对大肠杆菌和志贺氏菌的110个O抗原糖基转移酶与39个O抗原聚合酶的序列进行分析,探讨这两种酶的序列和结构特点。统计了其序列一致性,密码子使用和(G+C)%含量的特点;讨论了O抗原糖基转移酶和聚合酶对底物的特异性;推测了6组糖基转移酶的功能;通过对蛋白拓扑结构的预测,发现O抗原聚合酶中广泛存在一个位于细胞周质中的亲水环(Loop),是可能的功能区域;通过对蛋白高级结构的预测,发现O抗原糖基转移酶属于两个不同的蛋白超家族。  相似文献   

10.
摘要: 【目的】确定rmlB 基因在大肠杆菌( O2: K1) L-型鼠李糖合成中的作用。【方法】将基因rmlB 进行原核表达并测定酶活; 用同源重组的方法将rmlB 基因敲除,分析表型变化,并运用质谱,以及核磁共振等手段分析脂多糖O 侧链的结构,以确定rmlB 在O 抗原合成中的作用。【结果】成功对rmlB 基因进行了表达并测定了重组蛋白的酶活,确定蛋白RmlB 具有dTDP-D-glucose 4,6-dehydratase 活性。成功构建了rmlB 基因缺失突变株,对突变株进行表型分析发现突变株的表型与野生株相比无变化。对突变株分析发现突变株中的O抗原仍含有L-型鼠李糖,说明在该菌株中可能存在RmlB 的同功能酶或者存在其它的L-型鼠李糖合成途径。【结论】rmlB 基因编码的蛋白具有dTDP-D-glucose 4,6-dehydratase 活性但此基因对于L-型鼠李糖的合成不是必需的。  相似文献   

11.
The lipopolysaccharide (LPS) O-antigen of Yersinia enterocolitica serotype O:8 is formed by branched pentasaccharide repeat units that contain N-acetylgalactosamine (GalNAc), L-fucose (Fuc), D-galactose (Gal), D-mannose (Man), and 6-deoxy-D-gulose (6d-Gul). Its biosynthesis requires at least enzymes for the synthesis of each nucleoside diphosphate-activated sugar precursor; five glycosyltransferases, one for each sugar residue; a flippase (Wzx); and an O-antigen polymerase (Wzy). As this LPS shows a characteristic preferred O-antigen chain length, the presence of a chain length determinant protein (Wzz) is also expected. By targeted mutagenesis, we identify within the O-antigen gene cluster the genes encoding Wzy and Wzz. We also present genetic and biochemical evidence showing that the gene previously called galE encodes a UDP-N-acetylglucosamine-4-epimerase (EC 5.1.3.7) required for the biosynthesis of the first sugar of the O-unit. Accordingly, the gene was renamed gne. Gne also has some UDP-glucose-4-epimerase (EC 5.1.3.2) activity, as it restores the core production of an Escherichia coli K-12 galE mutant. The three-dimensional structure of Gne was modeled based on the crystal structure of E. coli GalE. Detailed structural comparison of the active sites of Gne and GalE revealed that additional space is required to accommodate the N-acetyl group in Gne and that this space is occupied by two Tyr residues in GalE whereas the corresponding residues present in Gne are Leu136 and Cys297. The Gne Leu136Tyr and Cys297Tyr variants completely lost the UDP-N-acetylglucosamine-4-epimerase activity while retaining the ability to complement the LPS phenotype of the E. coli galE mutant. Finally, we report that Yersinia Wzx has relaxed specificity for the translocated oligosaccharide, contrary to Wzy, which is strictly specific for the O-unit to be polymerized.  相似文献   

12.
AIM: To characterize the locus for O-antigen biosynthesis from Escherichia coli O172 type strain and to develop a rapid, specific and sensitive PCR-based method for identification and detection of E. coli O172. METHODS AND RESULTS: DNA of O-antigen gene cluster of E. coli O172 was amplified by long-range PCR method using primers based on housekeeping genes galF and gnd Shot gun bank was constructed and high quality sequencing was performed. The putative genes for synthesis of UDP-FucNAc, O-unit flippase, O-antigen polymerase and glycosyltransferases were assigned by the homology search. The evolutionary relationship between O-antigen gene clusters of E. coli O172 and E. coli O26 is shown by sequence comparison. Genes specific to E. coli O172 strains were identified by PCR assays using primers based on genes for O-unit flippase, O-antigen polymerase and glycosyltransferases. The specificity of PCR assays was tested using all E. coli and Shigella O-antigen type strains, as well as 24 clinical E. coli isolates. The sensitivity of PCR assays was determined, and the detection limits were 1 pg microl(-1) chromosomal DNA, 0.2 CFU g(-1) pork and 0.2 CFU ml(-1) water. The total time required from beginning to end of the procedure was within 16 h. CONCLUSION: The O-antigen gene cluster of E. coli O172 was identified and PCR assays based on O-antigen specific genes showed high specificity and sensitivity. SIGNIFICANCE AND IMPACT OF THE STUDY: An O-antigen gene cluster was identified by sequencing. The specific genes were determined for E. coli O172. The sensitivity of O-antigen specific PCR assay was tested. Although Shiga toxin-producing O172 strains were not yet isolated from clinical specimens, they may emerge as pathogens.  相似文献   

13.
Guo H  Li L  Wang PG 《Biochemistry》2006,45(46):13760-13768
The O-antigen of lipopolysaccharide in Gram-negative bacteria plays an important role in bacterium-host interactions. Escherichia coli O86:B7 O-unit contains five sugar residues: one fucose (Fuc) and two each of N-acetylgalactosamine (GalNAc) and galactose (Gal). The entire O-antigen gene cluster was previously sequenced: orf1 was assigned the gne gene for the biosynthesis of UDP-GalNAc. To confirm this annotation, overexpression, purification, and biochemical characterization of Gne were performed. By using capillary electrophoresis, we showed that Gne can catalyze the interconversion of both UDP-GlcNAc/GalNAc and UDP-Glc/Gal almost equally well. The Km values of Gne for UDP-Glc, UDP-Gal, UDP-GlcNAc, and UDP-GalNAc are 370, 295, 323, and 373 microM, respectively. The comparison of kinetic parameters of Gne from Escherichia coli O86:B7 to those of other characterized UDP-GlcNAc/Glc 4-epimerases indicated that it has relaxed specificity toward the four substrates, the first characterized enzyme to have this activity in the O-antigen biosynthesis. Moreover, the calculated kcat/Km values for UDP-GalNAc and UDP-Gal are approximately 2-4 times higher than those for UDP-GlcNAc and UDP-Glc, suggesting that Gne is slightly more efficient for the epimerization of UDP-GalNAc and UDP-Gal. One mutation (S306Y) resulted in a loss of epimerase activity for non-acetylated substrates by about 5-fold but totally abolished the activity for N-acetylated substrates, indicating that residue S306 plays an important role in the determination of substrate specificity.  相似文献   

14.
Escherichia coli O157, Salmonella enterica O30, and Citrobacter freundii F90 have identical O-antigen structures, as do E. coli O55 and S. enterica O50. The O-antigen gene cluster sequences for E. coli O157 and E. coli O55 have been published, and the genes necessary for O-antigen biosynthesis have been identified, although transferase genes for glycosidic linkages are only generic and have not been allocated to specific linkages. We determined sequences for S. enterica O30 and C. freundii F90 O-antigen gene clusters and compared them to the sequence of the previously described E. coli O157 cluster. We also determined the sequence of the S. enterica O50 O-antigen gene cluster and compared it to the sequence of the previously described E. coli O55 cluster. For both the S. enterica O30-C. freundii F90-E. coli O157 group and the S. enterica O50-E. coli O55 group of O antigens, the gene clusters have identical or nearly identical organizations. The two sets of gene clusters had comparable overall levels of similarity in their genes, which were lower than the levels determined for housekeeping genes for these species, which were 55 to 65% for the genes encoding glycosyltransferases and O-antigen processing proteins and 75 to 93% for the nucleotide-sugar pathway genes. Nonetheless, the similarity of the levels of divergence in the five gene clusters required us to consider the possibility that the parent gene cluster for each structure was in the common ancestor of the species and that divergence is faster than expected for the common ancestor hypothesis. We propose that the identical O-antigen gene clusters originated from a common ancestor, and we discuss some possible explanations for the increased rate of divergence that is seen in these genes.  相似文献   

15.
AIMS: The aims of the study were to identify the specific genes of O-antigen gene cluster from Shiga toxin-producing Escherichia coli (STEC) O103 and to provide the basis for a specific real-time PCR test for rapid detection of E. coli O103. METHODS AND RESULTS: The published primers complementary to JUMPstart and gnd gene, the conserved flanking sequences of O-antigen genes clusters in E. coli and related species, were used to amplify the 12-kbp O103 O-antigen biosynthesis locus of STEC O103. A DNA library representative of this cluster allowed two O103-specific probes to be identified in the flippase (wzx) and UDP-galactose-4-epimerase (galE) genes. Two specific O103 serotyping real-time PCR tests based on these two genes were successfully developed. CONCLUSIONS: These results confirm that the O-antigen gene cluster sequences of E. coli allow rapidly a specific O-antigen real-time PCR assay to be designed. SIGNIFICANCE AND IMPACT OF THE STUDY: These findings increase the number of real-time PCR-assays available to replace the classical O-serotyping among E. coli O-antigen.  相似文献   

16.
The O-antigen gene cluster of Escherichia coli O86:B7 was sequenced previously in our lab. One UDP-hexose 4-epimerase gene (named gne2 in this paper) was found and later characterized to be able to catalyze the interconversion between UDP-GlcNAc/GalNAc and UDP-Glc/Gal with almost equal efficiency. However, sequencing of the flanking gene region upstream of the traditional O-antigen gene cluster revealed an open reading frame (gne1), sharing 100% identity with Gne from E. coli O55, previously identified as UDP-GlcNAc 4-epimerase. Furthermore, we also located the traditional galE gene in the gal operon of O86:B7, which can catalyze the interconversion of UDP-Glc to UDP-Gal. Thus, for the first time, three UDP-hexose 4-epimerases with overlapping substrate specificity were found to coexist in one bacterium. Deletion of gne1 and gne2 in O86:B7 produced two different LPS phenotypes: the gne1 mutant exhibited rough LPS, while the gne2 mutant showed semi-rough LPS phenotype. These findings provide new clues for understanding the mechanism of O-antigen biosynthesis.  相似文献   

17.
Escherichia coli is a clonal species, and occurs as both commensal and pathogenic strains, which are normally classified on the basis of their O, H, and K antigens. The O-antigen (O-specific polysaccharide), which consists of a series of oligosaccharide (O-unit) repeats, contributes major antigenic variability to the cell surface. The O-antigen gene cluster of E. coli O66 was sequenced in this study. The genes putatively responsible for the biosynthesis of dTDP-6-deoxy-L-talose and GDP-mannose, as well as those responsible for the transfer of sugars and for O-unit processing were identified based on their homology. The function of the wzy gene was confirmed by the results of a mutation test. Genes specific for E. coli O66 were identified via PCR screening against representatives of 186 E. coli and Shigella O type strains. The comparison of intergenic sequences located between galF and the O-antigen gene cluster in a range of E. coli and Shigella showed that this region may perform an important function in the homologous recombination of the O-antigen gene clusters.  相似文献   

18.
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