产S-雌马酚梭菌C1三代全基因组测序及功能基因筛选鉴定

【目的】挖掘产S-雌马酚梭菌C1转化大豆苷元产生S-雌马酚的功能基因,为梭菌C1的S-雌马酚转化机制研究提供参考,并为利用合成生物学方法生产S-雌马酚提供新基因资源。【方法】利用GridION测序平台,对梭菌C1进行第三代全基因组测序、基因组组装和功能注释等分析,从C1菌全基因组中筛选和鉴定参与S-雌马酚生物转化的功能基因。【结果】C1全基因组大小为3 035 113 bp,预测编码3 166个基因,包含53个tRNA、15个rRNA、4个ncRNA和1个基因岛。通过生物信息学分析,发现C1-07020基因编码蛋白与已报道的Lactococcus sp.20-92大豆苷元还原酶具有44.8%的氨基酸序列相似性和相同的3个功能保守结构域,体外蛋白功能验证表明,C1-07020具有大豆苷元还原酶功能。此外,C1菌中没有发现与已知产S-雌马酚菌相似的功能基因簇或大豆苷元还原酶以外的其他功能基因。【结论】在C1中鉴定到一个新的产S-雌马酚功能基因,并发现了C1可能具备特殊的产S-雌马酚机制,实验所获基础数据可为进一步挖掘产S-雌马酚新功能基因、了解S-雌马酚的生成机制及体外产S-雌马酚基因资源...     

Properties of a High Malic Acid-Producing Strains of Saccharomyces cerevisiae Isolated from Sake Mash

We characterized high malic acid-producing strains of Saccharomyces cerevisiae isolated from sake mash. We compared the gene expression of these strains with those of the parental strain by DNA microarray, and found that stress response genes, such as HSP12, were commonly upregulated in the high malate-producing strains, whereas thiamine synthesis genes, such as THI4 and SNZ2, were downregulated in these strains.     

Biotechnological production of polyamines by bacteria: recent achievements and future perspectives

In Bacteria, the pathways of polyamine biosynthesis start with the amino acids l-lysine, l-ornithine, l-arginine, or l-aspartic acid. Some of these polyamines are of special interest due to their use in the production of engineering plastics (e.g., polyamides) or as curing agents in polymer applications. At present, the polyamines for industrial use are mainly synthesized on chemical routes. However, since a commercial market for polyamines as well as an industry for the fermentative production of amino acid exist, and since bacterial strains overproducing the polyamine precursors l-lysine, l-ornithine, and l-arginine are known, it was envisioned to engineer these amino acid-producing strains for polyamine production. Only recently, researchers have investigated the potential of amino acid-producing strains of Corynebacterium glutamicum and Escherichia coli for polyamine production. This mini-review illustrates the current knowledge of polyamine metabolism in Bacteria, including anabolism, catabolism, uptake, and excretion. The recent advances in engineering the industrial model bacteria C. glutamicum and E. coli for efficient production of the most promising polyamines, putrescine (1,4-diaminobutane), and cadaverine (1,5-diaminopentane), are discussed in more detail.     

Structural Analysis of an Extracellular Polysaccharide of Porodisculus pendulus

The aroL gene, encoding shikimate kinase of Brevibacterium lactofermentum, a coryneform glutamic acid-producing bacterium, was cloned. Recombinant plasmids containing the aroL gene caused elevated levels of shikimate kinase synthesis in B. lactofermentum. It was found that in addition to the aroL gene, the aroB and aroE genes, encoding dehydroquinate synthase and shikimate dehydrogenase, respectively, also existed on these recombinant plasmids, in complementation tests with various Escherichia coli and B. lactofermentum aromatic amino acid auxotrophs. The aroL, aroB and aroE genes of B. lactofermentum are located closely on the cloned DNA fragment, in that order. It was shown that at least these three aro genes form a cluster on the chromosome of B. lactofermentum.     

松萝内生酿酒酵母菌株耐酸生理特性与分子机制探究

【目的】对我国西藏地区来源的不同酵母菌株进行有机酸发酵性能测试,此外,对具有良好产酸性能的分离自松萝内部的酿酒酵母菌株Saccharomy cescerevisiae 2-2进行耐酸性能分析,并探究其耐酸较强的分子机制。【方法】比较不同糖浓度培养基液体发酵培养过程中pH的变化,并比较低pH胁迫条件下菌株的生长,检测酿酒酵母菌株的产酸潜力和耐酸特性;对菌株2-2和模式酵母菌株S288C进行比较基因组分析,并利用实时荧光定量聚合酶链式反应(real-time fluorescence quantitative polymerase chain reaction,RT-qPCR)分析关键基因的转录,探究菌株2-2耐酸分子机制。【结果】松萝内生酿酒酵母2-2在所有检测的菌株中产酸潜力较大,耐酸性能较好。在菌株2-2中与胁迫耐受性相关的基因PDR15、PDR12和SUR1在低pH胁迫条件下存在显著的上调或下调,但这些基因转录变化趋势与菌株S288C相反。【结论】松萝内生酿酒酵母2-2是一株产酸耐酸性能较好的菌株,对其独特的调节机制进行深入分析,有希望选育性能更好的产酸酵母菌株。     

Next-generation sequencing-based transcriptome analysis of l-lysine-producing Corynebacterium glutamicum ATCC 21300 strain

In the present study, 151 genes showed a significant change in their expression levels in Corynebacterium glutamicum ATCC 21300 compared with those of C. glutamicum ATCC 13032. Of these 151 genes, 56 genes (2%) were up-regulated and 95 genes (3%) were down-regulated. RNA sequencing analysis also revealed that 11 genes, involved in the L-lysine biosynthetic pathway of C. glutamicum, were up- or down-regulated compared with those of C. glutamicum ATCC 13032. Of the 151 genes, 10 genes were identified to have mutations including SNP (9 genes) and InDel (1 gene). This information will be useful for genome breeding of C. glutamicum to develop an industrial amino acid-producing strain with minimal mutation.     

Milk Fat Globule Membrane Proteins in Aseptically Packed Ultra-heat-treated Milk: Changes during Storage

Five genes for tryptophan biosynthesis, trpE, trpD, trpC, trpB, and trpA of Brevibacterium lactofermentum, a coryne form glutamic acid-producing bacterium, were cloned as a 9.6 kb BamHl DNA fragment by colony hybridization. A previously cloned 1.2 kb Pst I DNA fragment containing a major part of the trpE gene was used as a probe. By complementation tests using the subclones of this 9.6 kb BamHl fragment and various tryptophan auxotrophs of B. lactofermentum and Escherichia coli, this fragment was found to contain a gene cluster composed of trpE, trpD, trpC, trpB, and trpA in this order. It suggests that genes for tryptophan biosynthesis in B. lactofermentum may be an operon.     

Functional characterization of Nicotiana benthamiana chromomethylase 3 in developmental programs by virus‐induced gene silencing

DNA methylation is essential for normal developmental processes and genome stability. DNA methyltransferases are key enzymes catalyzing DNA methylation. Chromomethylase (CMT) genes are specific to the plant kingdom and encode chromodomain‐containing methyltransferases. However, the function of CMT genes in plants remains elusive. In this study, we isolated and characterized a CMT gene from Nicotiana benthamiana, designated NbCMT3. Alignment of the NbCMT3 amino acid sequence with other plant CMT3s showed conservation of bromo‐adjacent‐homology and methyltransferase catalytic domains. We investigated the expression patterns of NbCMT3 and its function in developmental programs. NbCMT3 was expressed predominately in proliferating tissues such as apical shoots and young leaves. NbCMT3 protein showed a nuclear location, which could be related to its putative cellular functions. Knocking down NbCMT3 expression by virus‐induced gene silencing revealed its vital role(s) in leaf morphogenesis. The formation of palisade cells was defective in NbCMT3‐silenced plants as compared with controls. NbCMT3 has a role in developmental programs.     

Limosilactobacillus fermentum F-6的遗传背景和功能基因组

【目的】Limosilactobacillus fermentum具有增强免疫力、产胞外多糖(exopolysaccharide,EPS)等多种功能特性,广泛应用于食品领域,具有较高经济价值。本文从群体遗传学角度,解析L. fermentum F-6的遗传背景和功能基因特征,为其开发利用提供遗传学基础。【方法】本研究对NCBI已公开的23株L. fermentum全基因组序列和1株模式菌株ATCC 14931T的基因组序列进行比较基因组学分析。利用Roary软件识别核心基因集与泛基因集;采用rapid annotation using subsystem technology(RAST)网站对基因组进行功能注释,以探究F-6基因组特征。【结果】以识别到的997个核心基因构建系统发育树,发现聚类趋势与分离源无关,但F-6与3株食品分离株聚在同一分支。功能注释分析发现,24株L. fermentum中仅F-6含有参与支链氨基酸合成途径的基因(ilvD、leuA等),可为机体提供必需氨基酸。F-6含有大量编码糖基转移酶和UDP-葡萄糖4-表异构酶的基因,且含有1个完整的eps基因簇。与其他L...     

Nucleotide Composition Bias Affects Amino Acid Content in Proteins Coded by Animal Mitochondria

We show that in animal mitochondria homologous genes that differ in guanine plus cytosine (G + C) content code for proteins differing in amino acid content in a manner that relates to the G + C content of the codons. DNA sequences were analyzed using square plots, a new method that combines graphical visualization and statistical analysis of compositional differences in both DNA and protein. Square plots divide codons into four groups based on first and second position A + T (adenine plus thymine) and G + C content and indicate differences in amino acid content when comparing sequences that differ in G + C content. When sequences are compared using these plots, the amino acid content is shown to correlate with the nucleotide bias of the genes. This amino acid effect is shown in all protein-coding genes in the mitochondrial genome, including cox I, cox II, and cyt b, mitochondrial genes which are commonly used for phylogenetic studies. Furthermore, nucleotide content differences are shown to affect the content of all amino acids with A + T- and G + C-rich codons. We speculate that phylogenetic analysis of genes so affected may tend erroneously to indicate relatedness (or lack thereof) based only on amino acid content. Received: 3 July 1996 / Accepted: 6 November 1996     

Amphitrite ornata, a Marine Worm, Contains Two Dehaloperoxidase Genes

Amphitrite ornata, a terebellid polychaete, inhabits marine environments that are contaminated by biogenically produced halometabolites. These halogenated organic compounds are toxic and quite diverse. To survive in this environment, A. ornata produces a novel dehaloperoxidase (DHP I) that detoxifies haloaromatic compounds. In this study we identified and characterized two dehaloperoxidase genes, designated dhpA and dhpB, from an A. ornata complementary DNA library. The deduced amino acid sequences (DHP A and DHP B) of the two dhp genes both contain 137 amino acid residues, but they differ at 5 amino acid positions. Allelic variation was observed for both genes as well. Polymerase chain reaction–restriction fragment length polymorphism assays of genomic DNA from 19 in individuals showed that each individual contains both the dhpA and the dhpB genes. Therefore, the two types of DHP are encoded by separate genes and are not alleles of a single gene. Furthermore, DHP A and DHP B may have different substrate specificities since they have amino acid differences in the active site. Accepted January 16, 2001.     

Characterization of centrin genes from Ochromonas danica (Chrysophyceae) and Scytosiphon lomentaria (Phaeophyceae)

Centrin, the EF‐hand Ca²⁺‐binding protein is localized at the basal apparatus of flagella and in centrioles in many eukaryotic cells. In the present study, centrin genes of the heterokont algae have been clarified for the first time. We isolated and analyzed cDNA and genomic DNA of centrin genes from the crysophycean alga Ochromonas danica Prings (UTEX LB1298) and the brown alga Scytosiphon lomentaria (Lyngbye) Link. The centrin gene of Ochromonas contained an open reading frame of 163 amino acids. The deduced protein, named Odcen, exhibited 85%, 78% and 59% homology to Chlamydomonas, human and Arabidopsis centrin, respectively. The centrin genes of Scytosiphon contained an open reading frame of 164 amino acids. The deduced protein, named Slcen, exhibited 84%, 77% and 59% homology to Chlamydomonas, human and Arabidopsis centrin, respectively. Both Odcen and Slcen possessed N‐terminal extensions before the conserved amino acid among various centrins, four EF‐hand domains and an aromatic amino acid at the C‐terminus. Southern blot hybridization suggested that the centrin gene occurs as a single copy gene in both Ochromonas and Scytosiphon genomes. Comparison of the sequence of the cDNA and the genomic DNA revealed that the Odcen gene was split into three fragments by introns and Slcen gene consisted of five fragments. The junctions of all introns of both genes conformed to the GT–AG rule. The introns of Slcen gene were considerably long and, as a result, the Slcen gene was approximately seven times longer than Odcen gene.     

Sequence divergence of an archaebacterial gene cloned from a mesophilic and a thermophilic methanogen

Summary A 1.6-kb fragment of DNA from the thermophilic, methane-producing, anaerobic archaebacteriumMethanobacterium thermoautotrophicum H has been cloned and sequenced. This DNA complements mutations in both the purE₁ and purE₂ loci ofEscherichia coli. The sequence of theM. thermoautotrophicum DNA predicts that complementation inE. coli results from the synthesis of a polypeptide with a molecular weight of 36,249. A polypeptide apparently of this molecular weight is synthesized inE. coli minicells containing recombinant plasmids that carry the cloned fragment of methanogen DNA. We have previously cloned and sequenced a purE-complementing gene from the mesophilic methanogenMethanobrevibacter smithii. The two methanogen-derived purE-complementing genes are 53% homologous and encode polypeptides that are 45% homologous in their amino acid sequences but would be 74% homologous if conservative amino acid substitutions were considered as maintaining sequence homology. The genome ofM. thermoautotrophicum has a molar G+C content of 49.7%, whereas the genome ofM. smithii is 30.6% G+C. Conservation of encoded amino acids while accommodating the very different G+C contents is accomplished by use of different codons that encode the same amino acid. The majority of base changes occur at the third codon position. The intergenic regions of the clonedM. thermoautotrophicum DNA contain sequences previously identified as ribosome binding sites and as putative methanogen promoters. Although the two purE-complementing genes are apparently derived from a common ancestor, only the gene fromM. smithii maintains a codon usage that conforms to the RNY rule.     

In-Silico Analyses of Nonsynonymous Variants in the BRCA1 Gene

BReast CAncer gene 1 (BRCA1)—a tumor suppressor gene plays an important role in the DNA repair mechanism. Several BRCA1 variants perturb its structure and function, including synonymous and nonsynonymous single nucleotide polymorphisms (SNPs). In the present study, we performed in-silico analyses of nonsynonymous SNPs (nsSNPs) of the BRCA1 gene. In total, 122 nsSNPs were retrieved from the NCBI SNP database and in-silico analyses were performed using computational prediction tools: SIFT, PROVEAN, Mutation Taster, PolyPhen-2, MutPred, and ConSurf. Of these tools, SIFT, PROVEAN, and Mutation Taster predicted 61 out of 122 nsSNPs as “damaging”, based on structural homology analysis. PolyPhen-2 classified 22 nsSNPs as “probably damaging”. These nsSNPs were further analyzed by MutPred to predict basic molecular mechanisms of amino acid alteration. ConSurf analysis predicted eleven conserved amino acid residues with structural and functional consequences. We identified five amino acid residues in the RING finger domain (L22, C39, H41, C44, and C47) and two in the BRCT domain (P1771 and I1707) with the potential to deter the BRCA1 protein function. This study provides insights into the effect of nsSNPs and amino acid substitutions in BRCA1.

     

Characterization of the biotin uptake system encoded by the biotin-inducible <Emphasis Type="Italic">bioYMN</Emphasis> operon of <Emphasis Type="Italic">Corynebacterium glutamicum</Emphasis>

Background  

The amino acid-producing Gram-positive Corynebacterium glutamicum is auxotrophic for biotin although biotin ring assembly starting from the precursor pimeloyl-CoA is still functional. It possesses AccBC, the α-subunit of the acyl-carboxylases involved in fatty acid and mycolic acid synthesis, and pyruvate carboxylase as the only biotin-containing proteins. Comparative genome analyses suggested that the putative transport system BioYMN encoded by cg2147, cg2148 and cg2149 might be involved in biotin uptake by C. glutamicum.     

Analysis of the Codon Usage Pattern in the Vibrio Cholerae Genome

Abstract

The codon usage in the Vibrio cholerae genome is analyzed in this paper. Although there are much more genes on the chromosome 1 than on chromosome 2, the codon usage patterns of genes on the two chromosomes are quite similar, indicating that the two chromosomes may have coexisted in the same cell for a very long history. Unlike the base frequency pattern observed in other genomes, the G+C content at the third codon position of the V. cholerae genome varies in a rather small interval. The most notable feature of codon usage of V. cholerae genome is that there is a fraction of genes show significant bias in base choice at the second codon position. The 2006 known genes can be classified into two clusters according to the base frequencies at this position. The smaller cluster contains 227 genes, most of which code for proteins involved in transport and binding functions. The encoding products of these genes have significant bias in amino acids composition as compared with other genes. The codon usage patterns for the 1836 function unknown ORFs are also analyzed, which is useful to study their functions.     

Probing the MvaI Methyltransferase Region that Interacts with DNA: Affinity Labeling with the Dialdehyde-Containing DNA Duplexes

Abstract

Affinity labeling of methyltransferase MvaI by DNA duplexes containing oxidized 2′-O-β-D-ribofuranosylcytidine or 1-(β-D-galactopyranosyl)thymine residues was performed. Partial chemical hydrolysis of the covalently bound methylase in the conjugates with the dialdehyde-containing DNA allowed us to determine the amino acid region in the C terminus of methylase MvaI that interacts with DNA.