长双歧杆菌NCC2705高效转化系统的建立及GFP表达

目的:建立长双歧杆菌NCC2705高效稳定的电转化系统,并以其为宿主表达绿色荧光蛋白(GFP),构建一个稳定的带报告基因的表达载体。方法:从双歧杆菌克隆载体pDG7中切取其在双歧杆菌中复制所必需的pMB1复制子插入质粒pUC19的多克隆位点区,并将gfp基因在双歧杆菌中进行表达;设计双歧杆菌电击转化体系,研究在不同电击电压条件下的电转效率。结果:首先构建了大肠杆菌-长双歧杆菌穿梭质粒pUB1和带有gfp基因的表达质粒pUB2,用电击法将之转化至双歧杆菌,当细菌生长到D600nm约为0.5时制备感受态细胞,在电容25μF、电阻200Ω、电压12.5 kV/cm的电击条件下进行完整质粒转化,可得到较高的转化率。结论:构建了以长双歧杆菌NCC2705为宿主的高效稳定的表达系统,为进一步研究益生菌的分子生物学和功能特性提供了基础。     

Sugar transport systems of Bifidobacterium longum NCC2705

Here we present the complement of the carbohydrate uptake systems of the strictly anaerobic probiotic Bifidobacterium longum NCC2705. The genome analysis of this bacterium predicts that it has 19 permeases for the uptake of diverse carbohydrates. The majority belongs to the ATP-binding cassette transporter family with 13 systems identified. Among them are permeases for lactose, maltose, raffinose, and fructooligosaccharides, a commonly used prebiotic additive. We found genes that encode a complete phosphotransferase system (PTS) and genes for three permeases of the major facilitator superfamily. These systems could serve for the import of glucose, galactose, lactose, and sucrose. Growth analysis of NCC2705 cells combined with biochemical characterization and microarray data showed that the predicted substrates are consumed and that the corresponding transport and catabolic genes are expressed. Biochemical analysis of the PTS, in which proteins are central in regulation of carbon metabolism in many bacteria, revealed that B. longum has a glucose-specific PTS, while two other species (Bifidobacterium lactis and Bifidobacterium bifidum) have a fructose-6-phosphate-forming fructose-PTS instead. It became obvious that most carbohydrate systems are closely related to those from other actinomycetes, with a few exceptions. We hope that this report on B. longum carbohydrate transporter systems will serve as a guide for further in-depth analyses on the nutritional lifestyle of this beneficial bacterium.     

Resistance to Simulated Gastrointestinal Conditions and Adhesion to Mucus as Probiotic Criteria for Bifidobacterium longum Strains

Eight Bifidobacterium longum strains, including reported probiotic strains (commercial and noncommercial), collection strains, and laboratory isolates, were investigated for their ability to adhere to mucin as well as their ability to tolerate acid and bile. Strains could be discriminated based on their sensitivity at pH values of 2.0 to 2.5 and bile concentrations of 0.5% to 2.0%. B. longum NCC 2705, a strain known for its probiotic properties, showed the highest resistance to gastrointestinal conditions, whereas the commercial probiotic strains B. longum BB 536 and SP 07/3 were the least resistant. In parallel, the human isolate B. longum BIF 53 showed the highest adhesion to mucin, whereas the commercial probiotic strains B. longum W 11, BB 536, and SP 07/3 were the least adhesive. The bacterial adhesion to mucin of strains B. longum NCC 2705 and BIF 53 could be reduced by lysozyme, indicating that cell-wall components are involved in the adhesion process. These results showed that there is no obvious link between adhesion and resistance to gastrointestinal conditions and the probiotic status of the studied strains. This calls for a definition of conditions for in vitro tests that better predict the in vivo functionality of probiotic strains.     

长双歧杆菌NCC2705菌株应激蛋白的研究

研究长双歧杆菌NCC2705菌株发酵至稳定期时应激蛋白的表达情况。根据乳酸乳球菌IL1403菌株蛋白质参考图谱及长双歧杆菌NCC2705基因组注释中应激蛋白的分子量与等电点,确定应激蛋白在双向电泳凝胶上的相应蛋白点,并利用MALDI-TOF和/或ESI-MS/MS对相应蛋白质点进行鉴定。每个蛋白质点的肽指纹图谱均在长双歧杆菌NCC2705的蛋白质数据库用Mascot进行检索,共鉴定到44个蛋白点对应8个应激蛋白。这些蛋白为亲水性酸性蛋白,大多具有翻译后修饰现象,它们基因的CAI值除DnaJ外,其余均在0.5以上,在全细胞表达谱中为高丰度蛋白;此外,菌体具有较强的抗脂质过氧化和清除DPPH自由基的能力,而对羟自由基和超氧负离子的清除力较弱,推测鉴定到的具有逆转氧化损害作用的碱性过氧化氢还原酶(ahpC)可能是体内表达的降低氧损伤的主要酶。     

Novel putative galactose operon involving lacto-N-biose phosphorylase in Bifidobacterium longum

A lacto-N-biose phosphorylase (LNBP) was purified from the cell extract of Bifidobacterium bifidum. Its N-terminal and internal amino acid sequences were homologous with those of the hypothetical protein of Bifidobacterium longum NCC2705 encoded by the BL1641 gene. The homologous gene of the type strain B. longum JCM1217, lnpA, was expressed in Escherichia coli to confirm that it encoded LNBP. No significant identity was found with any proteins with known function, indicating that LNBP should be classified in a new family. The lnpA gene is located in a novel putative operon for galactose metabolism that does not contain a galactokinase gene. The operon seems to be involved in intestinal colonization by bifidobacteria mediated by metabolism of mucin sugars. In addition, it may also resolve the question of the nature of the bifidus factor in human milk as the lacto-N-biose structure found in milk oligosaccharides.     

Analysis of host-inducing proteome changes in bifidobacterium longum NCC2705 grown in Vivo

To investigate the molecular mechanisms underlying the adaptation of Bifidobacterium longum to the intestinal tract, we utilized a new model for rabbit intestinal culture of B. longum and reported the changes in proteomic profiles after incubation in the in vivo environment. By 2D-PAGE coupled with matrix-assisted laser desorption ionization time-of-flight mass spectrometry (MALDI-TOF-MS) and/or electrospray ionization tandem mass spectrometry (ESI-MS/MS) analyses, proteomic profiles of B. longum strain NCC2705 grown in the in vivo and in vitro environments were compared. Confirmed by semiquantitative RT-PCR, which exhibited at least a 3-fold change or greater, 19 up-regulated proteins, 14 down-regulated proteins, and 4 proteins with mobility changes were identified during intestinal growth. These identified proteins include key stress proteins, metabolism-related proteins, and proteins related to translation. Our results indicate that some useful proteins are expressed at higher levels in cells during intestinal growth. These proteins reflected the adaptation of B. longum NCC2705 to the intestine, such as EF-Tu which contributes to the retention or attachment as a Bifidobacterium adhesin-like factor, bile salt hydrolase (BSH) which might play an important role in the molecular mechanisms for the initial interaction of probiotic with the intestinal environment, and stress proteins which defend B. longum against the action of bile salts and other harmful ingredients of the gastrointestinal tract (GIT). The most striking fact of our observation was that four proteins GlnA1, PurC, LuxS, and Pgk exhibit clear post-translational modification. Western blot (WB) analysis and Pro-Q Diamond staining revealed that substances of the GIT trigger Pgk and LuxS phosphorylation at Ser/Thr residues for bacteria grown in vivo. These proteins were identified for the first time as bifidobacterial phosphoproteins. Our data suggest that the phosphorylated autoinducer-2 production protein LuxS of B. longum NCC2705 (LuxS-P) is the active form of LuxS and that LuxS-P may play a key role in the regulation of quorum sensing.     

长双歧杆菌NCC2705葡萄糖与乳糖代谢的比较蛋白质组学

[目的]以本实验室前期构建的长双歧杆菌NCC2705菌株蛋白质参考图谱为基础,研究长双歧杆菌发酵乳糖和葡萄糖的比较蛋白质组学.[方法]采用ImageMaster 2D Elite Platnum Version 5.0比较分析3倍以上蛋白差异点;利用MALDI-TOF进行差异蛋白鉴定,每个蛋白质点的肽指纹图谱在长双歧杆菌NCC2705菌株的蛋白质数据库用Mascot进行检索;采用Pro-Q磷酸化试剂进行磷酸化蛋白的染色.[结果]鉴定到31个蛋白表达发生显著变化,在乳糖发酵中14个蛋白上调17个蛋白下调.这些蛋白为亲水性酸性蛋白,它们基因的CAI值均在0.5以上,主要包括糖代谢相关蛋白、应激蛋白、转录和翻译相关蛋白,还有一些未知功能的蛋白.此外,有两个蛋白:转醛缩酶(BL0715,transaldolase,tal)L3蛋白点和丙酮酸激酶(BL0988,pyruvate kinase,pyk)G9蛋白点发生了磷酸化作用.[结论]长双歧杆菌NCC2705在乳糖中生长快于葡萄糖,它们的降解途径是相同的;转醛缩酶和丙酮酸激酶发生了翻译后修饰作用,推测转醛缩酶在43T和47S发生了磷酸化,而丙酮酸激酶在65S发生了磷酸化.     

Fructose uptake in Bifidobacterium longum NCC2705 is mediated by an ATP-binding cassette transporter

Recently, a putative ATP-binding cassette (ABC) transport system was identified in Bifidobacterium longum NCC2705 that is highly up-regulated during growth on fructose as the sole carbon source. Cloning and expression of the corresponding ORFs (bl0033-0036) result in efficient fructose uptake by bacteria. Sequence analysis reveals high similarity to typical ABC transport systems and suggests that these genes are organized as an operon. Expression of FruE is induced by fructose, ribose, or xylose and is able to bind these sugars with fructose as the preferred substrate. Our data suggest that BL0033-0036 constitute a high affinity fructose-specific ABC transporter of B. longum NCC2705. We thus suggest to rename the coding genes to fruEKFG and the corresponding proteins to FruE (sugar-binding protein), FruK (ATPase subunit), FruF, and FruG (membrane permeases). Furthermore, protein-protein interactions between the components of the transporter complex were determined by GST pulldown and Western blot analysis. This revealed interactions between the membrane subunits FruF and FruG with FruE, which in vivo is located on the external side of the membrane, and with the cytoplasmatic ATPase FruK. This is in line with the proposed model for bacterial ABC sugar transporters.     

抑制差减杂交克隆E1 Tor霍乱弧菌流行株与非流行株基因组差异片段及其分析

为了克隆与分析霍乱弧菌O1E1Tor流行株与非流行株两类菌株基因组差异片段 ,采用抑制差减杂交技术 (suppressionsubtractivehybridization ,SSH)分别以国内保留的流行株Wujiang 2及非流行株Js 32一株作为被检菌 ,另一株作为参考菌进行基因组差异研究 .在进行的差减杂交实验中 ,流行株Wujiang 2共检出 34个特异差异片段 ,经同源检索共代表 35个基因片段 ,其中包括许多重要的霍乱弧菌毒力相关基因如CTX遗传单元、TLC因子及可移动外来成分如霍乱弧菌整合子RVC序列及Tn10转位酶 .非流行株Js 32共检出 14个特异差异片段 ,经同源检索未能检出同源片段 ,可能代表新基因序列 .研究表明 ,霍乱弧菌流行株与非流行株基因组存在较多差异基因 ,表现在毒力、毒力相关基因、代谢以及其它噬菌体等可转移的基因成分     

长双歧杆菌NCC2705株果糖结合蛋白BL0033基因的克隆及其在大肠杆菌中的表达

目的：克隆长双歧杆菌NCC2705株果糖结合蛋白BL0033的基因,利用大肠杆菌表达GST-BL0033融合蛋白并纯化。方法：以长双歧杆菌NCC2705株基因组为模板,PCR扩增BL0033基因,并将其插入pGEX-4T-1表达载体,转化至大肠杆菌DH5α;提取质粒,经PCR、质粒双酶切及测序鉴定后,转入大肠杆菌BL21,并对表达条件进行摸索;用谷胱甘肽-Sepharose4B树脂对可溶性GST-BL0033融合蛋白进行纯化。结果：PCR扩增的BL0033基因长度接近1000bp,与预期值一致;重组菌在IPTG浓度为0.05mmoL/L的条件下,于16℃诱导过夜后,SDS-PAGE分析可见可溶性表达条带,相对分子质量约60×103,与预期值一致;亲和纯化后,SDS-PAGE结果显示单一的表达条带。结论：克隆了BL0033蛋白的基因,并表达纯化了融合蛋白GST-BL0033,为进一步研究长双歧杆菌NCC2705株BL0033蛋白功能奠定了基础。     

长双歧杆菌NCC2705群体感应系统信号分子AI-2的检测

目的:用生物学方法检测长双歧杆菌NCC2705是否产生群体感应系统信号分子AI-2。方法:将长双歧杆菌NCC2705不同时间点的培养上清分别加至AI-2特异报告系统哈氏弧菌BB170中,以空白培养基上清为对照,用荧光光度计对哈氏弧菌发光强度进行计量,推测出长双歧杆菌NCC2705上清中是否含有分泌的AI-2,并由此推断AI-2的活性。结果:通过微孔板检测系统对加入长双歧杆菌NCC2705培养上清的哈氏弧菌BB170进行检测,发现双歧杆菌上清的加入增强了哈氏弧菌BB170发出的荧光强度。结论:长双歧杆菌NCC2705中存在依赖于luxS/AI-2的群体感应系统,并能够分泌有活性的AI-2,为进一步研究长双歧杆菌NCC2705AI-2及luxS基因的功能打下基础。     

Genomic comparison of Yersinia pestis and Yersinia pseudotuberculosis by combination of suppression subtractive hybridization and DNA microarray

In order to further figure out the genetic differences between Yersinia pestis and Yersinia pseudotuberculosis, and to provide novel insights into the evolution of Y. pestis, we compared the genomes of Y. pseudotuberculosis serogroup I strain ATCC29833 and Y. pestis Antiqua strain 49006 using a combination of suppression subtractive hybridization (SSH) and comparative genomic hybridization with DNAs from a diverse panel of Y. pestis and Y. pseudotuberculosis strains. SSH followed by BLAST analysis revealed 112 SSH fragments specific to strain ATCC29833, compared to the genomic sequence data of Y. pestis strains CO92, KIM and 91001. We identified 17 SSH fragments that appeared to be newly determined genetic contents of Y. pseudotuberculosis. The combination of SSH and microarray analysis showed that the parallel loss of genes contributed greatly not only to the significant genomic divergence between Y. pestis and Y. pseudotuberculosis but also to the intra-species microevolution of both of species. The results confirmed our earlier hypothesis that Y. pestis Antiqua isolates from the natural plague focus B in China represented the most ancestral strains in China, hence phylogenetically the closest isolates to Y. pseudotuberculosis.Electronic Supplementary Material Supplementary material is available to authorised users in the online version of this article at .Xiaoyi Wang and Dongsheng Zhou contributed equally to this work.     

A proteome reference map and proteomic analysis of Bifidobacterium longum NCC2705

A comprehensive proteomic study was carried out to identify and characterize proteins expressed by Bifidobacterium longum NCC2705. A total of 708 spots representing 369 protein entries were identified by MALDI-TOF-MS and/or ESI-MS/MS. Isoelectric point values estimated by gel electrophoresis matched closely with their predicted ones, although some discrepancies exist suggesting that post-translational protein modifications might be common in B. longum. The identified proteins represent 21.4% of the predicted 1727 ORFs in the genome and correspond to 30% of the predicted proteome. Moreover 95 hypothetical proteins were experimentally identified. This is the first compilation of a proteomic reference map for the important probiotic organism B. longum NCC2705. The study aimed to define a number of cellular pathways related to important physiological processes at the proteomic level. Proteomic comparison of glucose- and fructose-grown cells revealed that fructose and glucose are catabolized via the same degradation pathway. Interestingly the sugar-binding protein specific to fructose (BL0033) and Frk showed higher levels of expression in cells grown on fructose than on glucose as determined by semiquantitative RT-PCR. BL0033 time course and concentration experiments showed that the induction time and fructose concentration correlates to increased expression of BL0033. At the same time, an ABC (ATP-binding cassette) transporter ATP-binding protein (BL0034) was slightly up-regulated in cells grown on fructose compared with glucose. All of the above results suggest that the uptake of fructose into the cell may be conducted by a specific transport system in which BL0033 might play an important role.     

Lessons from the genomes of bifidobacteria

The gut microbiota is a complex ecosystem composed of hundreds of different bacterial species that altogether play an important role in the physiology of their host. In the past few years the complete genome sequence of a number of bacterial strains isolated from the human gastrointestinal tract has been established including that of Bifidobacterium longum NCC2705 isolated from the feces of a healthy infant. Bifidobacteria are among the first species to colonise the human gastrointestinal tract and as such are believed to play an important role in gut homeostasis and normal development. The genome sequence of NCC2705 has revealed a number of features that suggest how this bacterium has adapted to its environment and that could help understanding how it interacts with its host. Here, we review general features of bifidobacteria and illustrate how genome-based approaches can help us better understand the biology of these organisms.     

Identification of an Na(+)-dependent transporter associated with saxitoxin-producing strains of the cyanobacterium Anabaena circinalis

Blooms of the freshwater cyanobacterium Anabaena circinalis are recognized as an important health risk worldwide due to the production of a range of toxins such as saxitoxin (STX) and its derivatives. In this study we used HIP1 octameric-palindrome repeated-sequence PCR to compare the genomic structure of phylogenetically similar Australian isolates of A. circinalis. STX-producing and nontoxic cyanobacterial strains showed different HIP1 (highly iterated octameric palindrome 1) DNA patterns, and characteristic interrepeat amplicons for each group were identified. Suppression subtractive hybridization (SSH) was performed using HIP1 PCR-generated libraries to further identify toxic-strain-specific genes. An STX-producing strain and a nontoxic strain of A. circinalis were chosen as testers in two distinct experiments. The two categories of SSH putative tester-specific sequences were characterized by different families of encoded proteins that may be representative of the differences in metabolism between STX-producing and nontoxic A. circinalis strains. DNA-microarray hybridization and genomic screening revealed a toxic-strain-specific HIP1 fragment coding for a putative Na(+)-dependent transporter. Analysis of this gene demonstrated analogy to the mrpF gene of Bacillus subtilis, whose encoded protein is involved in Na(+)-specific pH homeostasis. The application of this gene as a molecular probe in laboratory and environmental screening for STX-producing A. circinalis strains was demonstrated. The possible role of this putative Na(+)-dependent transporter in the toxic cyanobacterial phenotype is also discussed, in light of recent physiological studies of STX-producing cyanobacteria.     

A suppression subtractive hybridization approach reveals niche-specific genes that may be involved in predator avoidance in marine Synechococcus isolates

Picocyanobacteria of the genus Synechococcus are important contributors to marine primary production and are ubiquitous in the world's oceans. This genus is genetically diverse, and at least 10 discrete lineages or clades have been identified phylogenetically. However, little if anything is known about the genetic attributes which characterize particular lineages or are unique to specific strains. Here, we used a suppression subtractive hybridization (SSH) approach to identify strain- and clade-specific genes in two well-characterized laboratory strains, Synechococcus sp. strain WH8103 (clade III) and Synechococcus sp. strain WH7803 (clade V). Among the genes that were identified as potentially unique to each strain were genes encoding proteins that may be involved in specific predator avoidance, including a glycosyltransferase in strain WH8103 and a permease component of an ABC-type polysaccharide/polyol phosphate export system in WH7803. During this work the genome of one of these strains, WH7803, became available. This allowed assessment of the number of false-positive sequences (i.e., sequences present in the tester genome) present among the SSH-enriched sequences. We found that approximately 9% of the WH8103 sequences were potential false-positive sequences, which demonstrated that caution should be used when this technology is used to assess genomic differences in genetically similar bacterial strains.     

Probiotic characteristics and in vitro compatibility of a combination of Bifidobacterium breve M-16 V,Bifidobacterium longum subsp. infantis M-63 and Bifidobacterium longum subsp. longum BB536

The consumption of probiotic-based products has risen greatly in recent decades. Due to their probiotic characteristics, microorganisms such as lactobacilli and bifidobacteria are in daily use in the production of food supplements. In the present study, three bifidobacterial strains (Bifidobacterium breve M-16 V, Bifidobacterium longum subsp. infantis M-63 and Bifidobacterium longum subsp. longum BB536) were tested for growth compatibility, resistance to antimicrobial agents, antibacterial activity against pathogens, resistance to gastric acidity, bile salt hydrolysis and adhesion to the human intestinal epithelial cell line HT29. All of these strains were resistant to gentamycin, but none showed in vitro growth incompatibility or the presence of known resistance determinants. B. breve M-16 V had the best probiotic characteristics and, indeed, was the only strain possessing antibacterial activity against Escherichia coli and Klebsiella pneumoniae. All strains were resistant to simulated gastric juice, while only B. longum subsp. longum BB536 and B. breve M-16 V showed a bile salt hydrolytic activity. Interestingly, a strong adhesion to HT29 cells was observed in all Bifidobacterium strains. In conclusion, B. breve M-16 V, B. longum subsp. longum BB536 and B. longum subsp. infantis M-63 showed several promising characteristics as probiotic strains.     

A Suppression Subtractive Hybridization Approach Reveals Niche-Specific Genes That May Be Involved in Predator Avoidance in Marine Synechococcus Isolates

Picocyanobacteria of the genus Synechococcus are important contributors to marine primary production and are ubiquitous in the world's oceans. This genus is genetically diverse, and at least 10 discrete lineages or clades have been identified phylogenetically. However, little if anything is known about the genetic attributes which characterize particular lineages or are unique to specific strains. Here, we used a suppression subtractive hybridization (SSH) approach to identify strain- and clade-specific genes in two well-characterized laboratory strains, Synechococcus sp. strain WH8103 (clade III) and Synechococcus sp. strain WH7803 (clade V). Among the genes that were identified as potentially unique to each strain were genes encoding proteins that may be involved in specific predator avoidance, including a glycosyltransferase in strain WH8103 and a permease component of an ABC-type polysaccharide/polyol phosphate export system in WH7803. During this work the genome of one of these strains, WH7803, became available. This allowed assessment of the number of false-positive sequences (i.e., sequences present in the tester genome) present among the SSH-enriched sequences. We found that approximately 9% of the WH8103 sequences were potential false-positive sequences, which demonstrated that caution should be used when this technology is used to assess genomic differences in genetically similar bacterial strains.     

Proteomics analysis of Bifidobacterium longum NCC2705 growing on glucose, fructose, mannose, xylose, ribose, and galactose

To investigate the molecular mechanisms underlying carbohydrate uptake and connected metabolic pathways of Bifidobacterium longum NCC2705, the proteomic profiles of bacteria grown on different carbon sources including glucose, fructose, mannose, xylose, ribose, and galactose were analyzed. Our results show that all sugars tested were catabolized via the bifid shunt. Sixty-eight proteins that exhibited changes in abundance of threefold or greater were identified by MS. A striking observation was the differential expression of proteins related to the pyruvate metabolism. Further analysis of acetic acid and lactic acid in the culture supernatants by HPLC at the end of fermentation showed that more lactic acid was produced during growth on fructose, ribose, xylose, galactose and more acetic acid was produced during the fermentation of glucose and mannose. Growth experiments revealed that B. longum NCC2705 preferentially used fructose, ribose, xylose, and galactose with higher growth rates over glucose and mannose. Furthermore, five proteins (GroEL, Eno, Tal, Pgm, and BL0033) exhibited clear phosphorylation modifications at serine and/or tyrosine residues. BL0033, a component of an ATP-binding cassette (ABC) transporter, was significantly more abundant in bacteria grown on fructose and, to a lesser extent, ribose and xylose. RT-PCR analysis revealed that all genes of the ABC transporter are induced in the presence of these sugars suggesting that BL0033, BL0034, BL0035, and BL0036 constitute an ABC transporter with fructose as preferred substrate.