Identification, characterization, and chromosomal organization of the ftsZ gene from Brevibacterium lactofermentum

The ftsZ gene was cloned from the chromosomal DNA of Brevibacterium lactofermentum by the polymerase chain reaction (PCR) using two oligonucleotides designed from two conserved regions found in most of the previously cloned and sequenced ftsZ genes from other microorganisms. ftsZ is a single-copy gene in corynebacteria and is located downstream from ftsQ and murC, indicating linkage between genes involved in peptidoglycan synthesis (mur genes) and genes involved in cell division (fts genes). The organisation of the cluster is similar to that in Streptomyces and different from those of Escherichia coli or Bacillus subtilis because ftsA is not located upstream of ftsZ. The gene was expressed in E. coli using the T7 expression system; the calculated molecular weight of the expressed protein was 50?kDa. Expression of the B. lactofermentum ftsZ gene in E. coli inhibited cell division and led to filamentation. The ftsZ gene of this organism does not complement ftsZ mutations or deletions in E. coli, when cloned on low or high-copy-number vectors.     

Cloning and characterization of an ftsZ homologue from a bacterial symbiont of Drosophila melanogaster

A 1194 by open reading frame that codes for a 398 amino acid peptide was cloned from a gt11 library of Drosophila melanogaster genomic DNA. The predicted peptide sequence is very similar to three previously characterized protein sequences that are encoded by the ftsZ genes in Escherichia coli, Bacillus subtilis and Rhizobium meliloti. The FtsZ protein has a major role in the initiation of cell division in prokaryotic cells. Using a tetracycline treatment that eradicates bacterial parasites from insects, the ftsZ homologue has been found to be derived from a bacterium that lives within the strain. However, polymerase chain reaction (PCR) amplification of the gene from treated embryos suggests that it is not derived from a gut bacterium. Nevertheless, by amplifying and characterizing part of the 16S rRNA from this bacterium we have been able to demonstrate that it is a member of the genus Wolbachia, a parasitic organism that infects, and disturbs the sexual cycle of various strains of Drosophila simulans. We suggest that this ftsZ homologue is implicated in the cell division of Wolbachia, an organism that fails to grow outside the host organism. Sequence and alignment analysis of this ftsZ homologue show the presence of a potential GTP-binding motif indicating that it may function as a GTPase. The consequences of this function particularly with respect to its role in cell division are discussed.     

一株猪源化脓隐秘杆菌的鉴定、生物学特性研究与基因组分析

[背景] 化脓隐秘杆菌作为一种条件致病菌,常与蓝耳病病毒、猪圆环病病毒、巴氏杆菌等混合感染猪,引起各种非特异性化脓性感染,部分临床症状与副猪嗜血杆菌相似。本试验从江西某猪场一起因呼吸道症状急性死亡病猪的肺脏分离到一株具有β溶血特性、疑似化脓隐秘杆菌的细菌病原。[目的] 鉴定该病原的菌属种类、生物学特性及基因组特征,为该菌疾病的基础研究与临床防控奠定理论基础。[方法] 采用透射电镜、扫描电镜结合PCR鉴定等方法对菌属种类进行鉴定;通过动物实验、药敏试验,分析菌株的生物学特性;借助全基因组测序、生物信息学等技术发掘该菌的基因组特征。[结果] 形态观察、16S rRNA基因鉴定及系统发育分析证实,该分离菌株是化脓隐秘杆菌,命名为JX18;药敏试验表明,该菌株对克林霉素和林可霉素不敏感,对其余所选药物均敏感;动物实验结果显示,对小鼠腹腔攻毒后,小鼠腹部出现明显脓肿病灶,最高剂量组的小鼠全部死亡;全基因组测序结果表明,该菌株携带plo、nanH、nanP、fimA、fimC、fimE等重要毒力基因,并且与其他化脓隐秘杆菌菌株毒力基因的相似性较高;根据同源基因数据库（Cluster of Orthologous Groups,COG）预测,菌株JX18中参与碳水化合物代谢的基因占比最高;通过毒力基因数据库（virulence factor database,VFDB）、UniProtKB/Swiss-Prot等数据库预测,JX18菌株基因组中携带有多个组氨酸激酶、反应调节因子等与细菌双组分调控系统相关基因,以及多种与粘附、侵入及分泌系统相关的毒力基因。[结论] 在江西省分离鉴定出一株猪源强致病性化脓隐秘杆菌,丰富了猪源化脓隐秘杆菌病原信息,为进一步开展猪源化脓隐秘杆菌相关研究与防控奠定了理论依据。     

Homologs of the yeast neck filament associated genes: isolation and sequence analysis of Candida albicans CDC3 and CDC10

Morphogenesis in the yeast Saccharomyes cerevisiae consists primarily of bud formation. Certain cell division cycle (CDC) genes, CDC3, CDC10, CDC11, CDC12, are known to be involved in events critical to the pattern of bud growth and the completion of cytokinesis. Their products are associated with the formation of a ring of neck filaments that forms at the region of the mother cell-bud junction during mitosis. Morphogenesis in Candida albicans, a major fungal pathogen of humans, consists of both budding and the formation of hyphae. The latter is thought to be related to the pathogenesis and invasiveness of C. albicans. We have isolated and characterized C. albicans homologs of the S. cerevisiae CDC3 and CDC10 genes. Both C. albicans genes are capable of complementing defects in the respective S. cerevisiae genes. RNA analysis of one of the genes suggests that it is a regulated gene, with higher overall expression levels during the hyphal phase than in the yeast phase. Not surprisingly, DNA sequence analysis reveals that the proteins share extensive homology at the amino acid level with their respective S. cerevisiae counterparts. Related genes are also found in other species of Candida and, more importantly, in filamentous fungi such as Aspergillus nidulans and Neurospora crassa. A database search revealed significant sequence similarity with two peptides, one from Drosophila and one from mouse, suggesting strong evolutionary conservation of function.     

光唇鱼源无乳链球菌的分离鉴定及遗传特征

【目的】为查明浙江养殖光唇鱼大量死亡的病原,了解病原的遗传特征。【方法】本工作对患病光唇鱼进行病原分离,结合形态特征、生理生化特性和16S rRNA基因序列同源性,对分离菌株进行鉴定;采用人工回感试验确定其病原性,并对分离株的血清型、多位点序列分型(multilocus sequence typing,MLST)、毒力基因型和表面蛋白抗原基因型等遗传特征进行分析;此外,还测试了菌株的药敏特性。【结果】从患病光唇鱼体中分离得到优势菌株ACRO-0708,为革兰氏阳性球菌,不溶血,分子与生化鉴定为无乳链球菌(Streptococcus agalactiae);人工感染试验证实其对光唇鱼有较强的致病性,LD50为6.47×10~3CFU/g,属于血清型Ⅰb和MLST型ST261,毒力基因型为sip~+bibA~+cfb~+hylB~+iagA~+fbsA~+fbsB~+bac~–bca~–cylE~–scpB~–lmb~–,不携带所检测的6种表面蛋白基因。药敏试验结果显示,对青霉素、氨苄西林等8种药物较敏感,对氯霉素、复方新诺明等7种药物耐药。【结论】引起浙江养殖光唇鱼死亡的病原菌为无乳链球菌,其分子特征与水产动物主要流行的无乳链球菌株具有显著差异,生产中可选用氨苄西林、氟苯尼考等药物进行防治。     

Identification of the cellulose synthase genes from the Oomycete Saprolegnia monoica and effect of cellulose synthesis inhibitors on gene expression and enzyme activity

Cellulose biosynthesis is a vital but yet poorly understood biochemical process in Oomycetes. Here, we report the identification and characterization of the cellulose synthase genes (CesA) from Saprolegnia monoica. Southern blot experiments revealed the occurrence of three CesA homologues in this species and phylogenetic analyses confirmed that Oomycete CesAs form a clade of their own. All gene products contained the D,D,D,QXXRW signature of most processive glycosyltransferases, including cellulose synthases. However, their N-terminal ends exhibited Oomycete-specific domains, i.e. Pleckstrin Homology domains, or conserved domains of an unknown function together with additional putative transmembrane domains. Mycelial growth was inhibited in the presence of the cellulose biosynthesis inhibitors 2,6-dichlorobenzonitrile or Congo Red. This inhibition was accompanied by a higher expression of all CesA genes in the mycelium and increased in vitro glucan synthase activities. Altogether, our data strongly suggest a direct involvement of the identified CesA genes in cellulose biosynthesis.     

Identification and chromosomal locations of aconitase gene loci in Triticeae species

Summary Two systems of monomeric aconitase (ACO) isozymes, designated ACO-1 and ACO-2, were identified in Triticum aestivum and in five diploid Triticeae species. The gene loci Aco-A1, Aco-B1, and Aco-D1 were located in T. aestivum cv. Chinese Spring chromosome arms 6Aq, 6Bq, and 6Dq, respectively, and the gene loci Aco-A2, Aco-B2, and Aco-D2 in 5 Aq, 5 Bq, and 5Dq, respectively. Aco-1 gene loci were also identified in 6E of Elytrigia elongata, 6HL of Hordeum vulgare cv. Betzes, 6RL of Secale cereale PI 252003, 6S¹ of T. longissimum, and CSU-31 of T. umbellulatum. Other Aco-2 gene loci were identified in 5RL of S. cereale cv. King II and 4EL of E. elongata. Conservation of synteny relationships is indicated among the species studied for the genes identified, with the exception of Aco-E2; the presence of this gene in 4EL suggests that E. elongata differs from Chinese Spring and King II by a translocation involving 4E and 5E.Adapted from a thesis submitted to the Graduate College, Texas A&M University, by K.J.C. in partial fulfillment of the requirements for the M.S. degree in Genetics     

Identification and phenotypical characterization of a cluster of fix genes, including a nif regulatory gene, from Rhizobium leguminosarum PRE

Summary A nif regulatory gene in R. leguminosarum PRE was identified by interspecies DNA hybridization and site-directed Tn5 mutagenesis. Significant homology was found with the K. pneumoniae nifA locus, a R. meliloti symbiotic regulatory gene and E. coli ntrC; Tn5 insertions within this nifA gene inhibit the expression of the nifHDK operon, encoding synthesis of the nitrogenase polypeptides.Specific DNA hybridization also was detected between a downstream adjacent part of the PRE sym plasmid and the R. leguminosarum 248 fixZ gene, a homologue of the K. pneumoniae nifB locus. To detect further fix genes we investigated a region of the sym plasmid which is localized within a short distance upstream from the nifA gene and is transcribed selectively at a high rate during symbiosis. This approach revealed the existence of a fix cluster in which Tn5-mutations cause a Fix^- phenotype although wild-type levels of nitrogenase synthesis were detectable. In a sym plasmid fragment, which is immediately upstream adjacent to the nifA locus and only moderately expressed in Rhizobium bacteroids, a second fix gene conferring the same symbiotic phenotype was detected.     

Identification, mRNA expression and characterization of a novel ANK-like gene from Chinese mitten crab Eriocheir japonica sinensis

Ankyrins are a family of adapter molecules mediating linkages between integral membrane and cytoskeletal proteins. Ankyrin repeat is one of the most frequently observed amino acid motifs in protein databases. A novel ANK-like gene of Chinese mitten crab Eriocheir japonica sinensis (denoted as EjsANK) was identified and cloned by expressed sequence tag and rapid amplification of cDNA end approaches. The full-length cDNA of EjsANK is 4375 bp and contains an open reading frame of 1095 bp which encodes a 364 amino acids polypeptide (40.23 kD) bearing seven ankyrin repeats. EjsANK cDNA has a 3073 bp uniquely long 3′ untranslated region with three K-box elements, one GY-like box domain and one Brd-like box domain. Sequence alignment and three-dimensional structural analyses revealed that EjsANK should be a novel cytosolic member of the ankyrin family. Fluorescent real-time quantitative RT-PCR approach was performed to examine the expression profiles of EjsANK mRNA by testing its relative level in three types of tissues at three different developmental stages, respectively. We found that the relative level of EjsANK mRNA expression was significantly higher in the abdomen at the first crab stage. Functional bioinformatics prediction analyses indicated that EjsANK has an analogical effect like IκB which is a key component of IκB/NF-κB complex in mammalian cells playing very important roles in the development process. Results suggest that EjsANK gene is involved in the early developmental regulation of Chinese mitten crab, especially brachyurization regulation.     

Identification and characterization of a new exopolysaccharide biosynthesis gene cluster from Streptomyces

We report the identification and characterization of the ste (Streptomyces eps) gene cluster of Streptomyces sp. 139 required for exopolysaccharide (EPS) biosynthesis. This report is the first genetic work on polysaccharide production in Streptomyces. To investigate the gene cluster involved in exopolysaccharide 139A biosynthesis, degenerate primers were designed to polymerase chain reaction amplify an internal fragment of the priming glycosyltransferase gene that catalyzes the first step in exopolysaccharide biosynthesis. Screening of a genomic library of Streptomyces sp. 139 with this polymerase chain reaction product as probe allowed the isolation of a ste gene cluster containing 22 open reading frames similar to polysaccharide biosynthesis genes of other bacterial species. Involvement of the ste gene cluster in exopolysaccharide biosynthesis was confirmed by disrupting the priming glycosyltransferase gene in Streptomyces sp. 139 to generate non-exopolysaccharide-producing mutants.     

The Listeria monocytogenesiap gene as an indicator gene for the study of PrfA-dependent regulation

The Bacillus subtilis 168 RecR protein bound to duplex DNA in the presence of ATP and divalent cations (Mg²⁺ and Zn²⁺) was visualized by electron microscopy as a nearly spherical particle. A RecR homomultimer is frequently located at the intersection of two duplex DNA strands in an interwound DNA molecule, generating DNA loops of variable length. Two individual DNA molecules bound to the same protein are seen at a very low frequency, if at all. The association of RecR with the intersection of two duplex DNA strands is more often seen in supercoiled than with relaxed or linear DNA. The RecR protein displays a slight but significant preference for negatively supercoiled over linear DNA. The minimum substrate size for RecR protein is about 150 bp in length. A possible mechanism for RecR function in DNA repair is discussed. Received: 13 August 1996 / Accepted: 18 October 1996     

Cloning and characterization of hydrogenase genes from Azotobacter chroococcum

Summary Genomic DNA from Azotobacter chroococcum was shown by DNA hybridization to contain sequences homologous to Rhizobium japonicum H₂-uptake (hup) hydrogenase genes carried on the plasmid pHU1. Two recombinant cosmid clones, pACD101 and pACD102, were isolated from a gene library of A. chroococcum by colony hybridization and physically mapped. Each contained approximately 42 kb of insert DNA with approximately 27 kb of overlapping DNA. Further hybridization studies using three fragments from pHU1 (6 kb HindIII, 6.4 kb BglII and 5 kb EcoRI) showed that the hup-specific regions of R. japonicum and A. chroococcum are probably highly conserved. Weak homology to the hydrogenase structural genes from Desulfovibrio vulgaris (Hildenborough) was also observed. A 24 kb BamHI fragment from pACD102 subcloned into a broad host-range vector restored hydrogenase activity to several Hup^- mutants of A. chroococcum.     

The human T-type amino acid transporter-1: characterization, gene organization, and chromosomal location

System T is a Na+-independent transport system that selectively transports aromatic amino acids. Here, we determined the structure of the human T-type amino-acid transporter-1 (TAT1) cDNA and gene (SLC16A10). The human TAT1 cDNA encoded a 515-amino-acid protein with 12 putative membrane-spanning domains. Human SLC16A10 was localized on human chromosome 6, mapped to 6q21-q22. SLC16A10 contains six exons spanning 136 kb. In contrast to rat TAT1, which is mainly present in the intestine, human TAT1 was strongly expressed in human kidney as well as in human intestine. Expression of human TAT1 in Xenopus laevis oocytes demonstrated the Na+-independent transport of tryptophan, tyrosine, phenylalanine, and L-dopa, indicating that human TAT1 is a transporter subserving system T. Because human TAT1 is proposed to be crucial to the efficient absorption of aromatic amino acids from intestine and kidney, its defect could be involved in the disruption of aromatic amino-acid transport, such as in blue diaper syndrome.     

Resistance to trifluoroperazine, a calmodulin inhibitor, maps to the fabD locus in Escherichia coli

A mutant, tfpA1, resistant to the calmodulin inhibitor trifluoroperazine (TFP) at 30°C, was isolated in Escherichia coli. The mutant showed a reduced growth rate at 30°C and was temperature sensitive (ts) at 42°C for growth, forming short filaments. The mutation was mapped to the 24 min region of the chromosome and the gene was cloned by complementation of the is defect. Subsequent subcloning, complementation analysis, marker rescue mapping and sequencing, identified tfpA as fabD, encoding the 35 kDa, malonyl-coenzyme A transacylase (MCT) enzyme, required for the initial step in the elongation cycle for fatty acid biosynthesis. Resistance to TFP may result from altered permeability of the cell envelope, although the mutant remained sensitive to other calmodulin inhibitors and to other antibacterial agents. Alternatively, resistance may be more indirect, resulting from alterations in intracellular Ca⁺⁺ levels which affect the activity of the TFP target in some way.     

A cluster of cell division genes maps to the terC region of the chromosome of Escherichia coli K-12

Thirty-nine cell division mutants were isolated in Escherichia coli K-12 and were mapped in the terminus region of the chromosome, between 33.5 and 36 min. They were obtained by two different approaches involving specific mutagenesis of the terC region. The mutants could be divided into eight classes (I to VIII) based on their map position and phenotype at the restrictive temperature, and constitute a new cell division gene cluster.     

Identification and characterization of the gene for Drosophila S20 ribosomal protein

A cDNA clone that encodes a Drosophila homologue of ribosomal protein S20 was isolated from a Drosophila ovary cDNA library. The Drosophila S20 gene (RpS20) is highly conserved with S20 genes in other organisms. It is a single copy gene and maps to position 92F-93A on polytene chromosomes. No Minute mutation in this location has been reported; at least five essential genes are possible candidates to encode RpS20. RpS20 message is expressed ubiquitously in embryos, but is expressed at high levels in the midgut.