红曲霉繁殖相关wetM基因的克隆与生物信息学分析

红曲霉(Monascus spp.)是一类次级代谢产物极为丰富的食药用丝状真菌,其繁殖能力是大规模工业化生产的前提.以实验室保藏紫色红曲霉(Monascus purpureus)Mp-21为研究对象,通过高通量转录组(RNA-Seq)测序获得菌株转录本数据后进行注释分析,首次克隆出红曲霉繁殖相关wetM基因并进行生物信...     

A single membrane-bound enzyme catalyzes the conversion of 2,5-diketo-d-gluconate to 4-keto-d-arabonate in d-glucose oxidative fermentation by Gluconobacter oxydans NBRC 3292

4-Keto-d-arabonate synthase (4KAS), which converts 2,5-diketo-d-gluconate (DKGA) to 4-keto-d-arabonate (4KA) in d-glucose oxidative fermentation by some acetic acid bacteria, was solubilized from the Gluconobacter oxydans NBRC 3292 cytoplasmic membrane, and purified in an electrophoretically homogenous state. A single membrane-bound enzyme was found to catalyze the conversion from DKGA to 4KA. The 92-kDa 4KAS was a homodimeric protein not requiring O₂ or a cofactor for the conversion, but was stimulated by Mn²⁺. N-terminal amino acid sequencing of 4KAS, followed by gene homology search indicated a 1,197-bp open reading frame (ORF), corresponding to the GLS_c04240 locus, GenBank accession No. CP004373, encoding a 398-amino acid protein with a calculated molecular weight of 42,818 Da. An Escherichia coli transformant with the 4kas plasmid exhibited 4KAS activity. Furthermore, overexpressed recombinant 4KAS was purified in an electrophoretically homogenous state and had the same molecular size as the natural enzyme.     

Cloning and expression of theClostridium thermocellum celS gene inEscherichia coli

Clostridium thermocellum ATCC 27405 produces an extremely complicated multi-component cellulase aggregate (cellulosome) highly active on crystalline cellulose. From the cellulosome, two subunits, CelS (or S _s ;M _r = 82 000) and CelL (or S _l , CipA;M _r = 250 000), have been identified as essential for crystalline cellulose degradation [Wu et al. (1988) Biochemistry 27:1703]. We have determined the DNA sequence of thecelS gene from four cloned DNA fragments encompassing this gene [Wang et al. (1993) J Bacteriol 175:1293]. To express the entirecelS gene inEscherichia coli, thecelS structural gene was amplified by the polymerase chain reaction (PCR) employing the PCR primers corresponding to sequences flanking the desired gene. This PCR product (2.1 x 10³ bases; 2.1 kb) was cloned into anE. coli expression vector pRSET B. Subsequent expression of the cloned gene resulted in a fusion protein (rCelS;M _r = 86 000) as inclusion bodies. The rCelS protein was recognized specifically by an anti-CelS antiserum in a Western blot analysis. The inclusion bodies were purified and solubilized in 5m urea. The refolded rCelS produced very little reducing sugar from carboxymethylcellulose. However, it showed a higher activity on the crystalline cellulose (Avicel) and an even higher activity on phosphoricacid-swollen Avicel. These results indicate that the CelS is an exoglucanase.     

Propionicin SM1, a bacteriocin from Propionibacterium jensenii DF1: isolation and characterization of the protein and its gene

We purified a bacteriocin from the cell-free supernatant of Propionibacterium jensenii DF1 isolated from Swiss raw milk, and named it propionicin SM1. The heat-stable protein was strongly bactericidal against P. jensenii DSM20274. On the basis of the N-terminal amino acid sequence of the purified protein, a degenerate oligonucleotide probe was designed to locate and clone the corresponding gene of P. jensenii DF1. It hybridized exclusively with the DF1l-resident plasmid pLME106, but not with chromosomal DNA. Sequencing of the 6.9-kb plasmid revealed the targeted amino acid sequence within an open reading frame (ORF4) of 207 amino acids (molecular mass, 22,865 Da). The corresponding gene was named ppnA. It encodes the prepeptide PpnA that is processed to the mature protein (19,942 Da) propionicin SM1. No sequence homology is detectable with known proteins. However, the proposed leader peptide sequence containing 27 amino acids has typical signal peptide features and shows good homology to the leader peptide of Usp45, a protein excreted from Lactococcus lactis (VAN ASSELDONK et al., 1993). Plasmid pLME106 contains at least 9 ORFs, some exhibiting significant homologies to plasmid-encoded functions from other bacteria. The highest identity values were found for ORF1 with the theta replicase (acc. no. U39878) of Brevibacterium linens (58.8%) and ORF6 with the recombinase/invertase (acc. no. AF060871) found in Rhodococcus rhodochrous (46.4%).     

Organization and Sequence of Histidine Biosynthesis Genes hisH, -A, -F, and -IE in Thermoanaerobacter ethanolicus

Nucleotide sequence analysis of a 3.5-kb chromosomal fragment from the low G + C Gram-positive bacterium Thermoanaerobacter ethanolicus revealed a cluster of five contiguous open reading frames (ORFs) designated hisH, hisA, hisF, hisIE, and ORF5. The first four ORFs showed homology to genes of the histidine biosynthesis pathway, and ORF5 encoded a product with no significant similarities to polypeptides presently known. The hisH ORF was partial (truncated by cloning) and ORF5 was adjacent to xylF, which codes for a xylose-binding periplasmic protein. The five genes encoded putative proteins of >104, 237, 254, 216, and 169 amino acids, respectively. Amino acid sequence comparison of the four his gene products indicated closely related homologs in prokaryotes, varying from low G + C Gram-positive bacteria to archaea. This is the first report of his anabolic genes in a thermophilic anaerobic bacterium. Received: 8 July 1999 / Accepted: 23 August 1999     

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     

Isolation and Genetic Analysis of an Agrobacterium tumefaciens Avirulent Mutant with a Chromosomal Mutation Produced by Transposon Mutagenesis

A transposon 5 (Tn5) insertion was introduced into the genome of A. tumefaciens (A-208 strain harbouring a nopaline type Ti-plasmid) using a conjugative pJB4JI plasmid containing Tn5. Five thousand transconjugants were assayed for virulence on carrot (Daucus carota L.) disks; 54 isolates were avirulent or very attenuated. The cellular localization (plasmid or chromosome) of the Tn5 insertion in those isolates were identified by Southern hybridization analysis. An avirulent- mutant (B-90 strain) with the Tn5 insertion in the chromosome was selected and characterized. The mutant had the same growth rate as that of the parent strain in L-broth. The mutant and the parent strain had similar attachment ability to carrot root cells. Tn5 was inserted into one site of the chromosome. The wild-type target chromosomal region (1281 base pairs) was cloned and sequenced. An open reading frame (ORF) consisting of 395 base pairs was identified. The wild-type DNA fragment (1.6 kb) containing the ORF introduced into B-90 strain complemented the avirulent phenotype of the strain. A soluble protein was predicted from the ORF. The Tn5 was inserted near the 3′-terminal of the ORF. Homology search of this ORF found no significant homology to known genes and proteins. Thus, the ORF identified in this paper seems to be a new chromosomal virulence gene of A. tu?efaciens.     

Analyses of the gene and amino acid sequence of thePrevotella (bacteroides) ruminicola 23 xylanase reveals unexpected homology with endoglucanases from other genera of bacteria

The DNA sequence for the xylanase gene fromPrevotella (Bacteroides) ruminicola 23 was determined. The xylanase gene encoded for a protein with a molecular weight of 65,740. An apparent leader sequence of 22 amino acids was observed. The promoter region for expression of the xylanase gene inBacteroides species was identified with a promoterless chloramphenicol acetyltransferase gene. A region of high amino acid homology was found with the proposed catalytic domain of endoglucanases from several organisms, includingButyrivibrio fibrisolvens, Ruminococcus flavefaciens, andClostridium thermocellum. The cloned xylanase was found to exhibit endoglucanase activity against carboxymethyl cellulose. Analysis of the codon usage for the xylanase gene found a bias towards G and C in the third position in 16 of 18 amino acids with degenerate codons.     

Nucleotide sequences of two contiguous and highly homologous xylanase genes xynA and xynB and characterization of XynA from Clostridium thermocellum

A 5.7-kbp region of the Clostridium thermocellum F1 DNA was sequenced and found to contain two contiguous and highly homologous xylanase genes, xynA and xynB. The xynA gene encoding the xylanase XynA consists of 2049 bp and encodes a protein of 683 amino acids with a molecular mass of 74 511 Da, and the xynB gene encoding the xylanase XynB consists of 1371 bp and encodes a protein of 457 amino acids with a molecular mass of 49 883 Da. XynA is a modular enzyme composed of a typical N-terminal signal peptide and four domains in the following order: a family-11 xylanase domain, a family-VI cellulose-binding domain, a dockerin domain, and a NodB domain. XynB exhibited extremely high overall sequence homology with XynA (identity 96.9%), while lacking the NodB domain present in the latter. These facts suggested that the xynA and xynB genes originated from a common ancestral gene through gene duplication. XynA was purified from a recombinant Escherichia coli strain and characterized. The purified enzyme was highly active toward xylan; the specific activity on oat-spelt xylan was 689 units/mg protein. Immunological and zymogram analyses suggested that XynA and XynB are components of the C. thermocellum F1 cellulosome. Received: 21 September 1998 / Received revision: 30 October 1998 / Accepted: 29 November 1998     

甘蓝型油菜BnFLA基因的克隆及表达分析

利用同源克隆法从甘蓝型油菜中获得了1个类成束阿拉伯半乳聚糖蛋白基因(FLA),命名为BnFLA。BnFLA基因开放阅读框长为1 200bp,编码399个氨基酸,分子量为42 885.9Da,等电点为6.37。预测的BnFLA蛋白包含N-端信号肽、2个AGP-like结构域、2个fasciclin-like结构域和C-端GPI-anchor序列。系统进化分析表明BnFLA氨基酸序列与BrFLA17和AtFLA2进化关系较近,一致性分别为98%和87%。qRT-PCR分析表明,BnFLA基因在油菜各组织均有表达,并以下胚轴中表达量最高,其次为子叶,茎秆中表达最少;BnFLA基因的表达受到GA3、BR、IAA、ABA和NaCl的诱导,但受6-BA、蔗糖、低温和PEG抑制。研究认为,油菜中BnFLA基因可能参与激素信号转导途径和非生物胁迫应答。     

Amino-terminal structure of spoOA protein and sequence homology with spoOF and spoOB proteins

Summary The previously reported nucleotide sequence of the spoOA coding region of Bacillus subtilis suggested that the protein is initiated with either of two possible initiation codons, ATG and GTG, 84 base pairs apart. To determine which codon is utilized as an initiator in B. subtilis, we constructed a fusion gene in which the promoter and NH₂-terminal region of the spoOA gene was connected to the chloramphenicol acetyltransferase gene (cat gene). After introduction of the plasmid carrying the spoOA-cat fusion gene into B. subtilis cells, the fusion protein was purified by affinity chromatography. The sequence of NH₂-terminal amino acids of the fusion protein was determined and the result established that the GTG codon is utilized as an initiator in B. subtilis.Comparison of the amino acid sequences revealed a marked homology between the spoOA (NH₂-terminal half) and spoOF proteins. A less striking but significant homology was also found between the spoOA (COOH-terminal half) and spoOB proteins. This suggests the presence of a common functional domain structure for these proteins that are supposed to play key regulatory roles in sporulation.     

青花菜谷胱甘肽-S-转移酶基因克隆及其表达分析

为探讨青花菜在模拟酸雨胁迫下谷胱甘肽-S-转移酶的表达变化,克隆了青花菜谷胱甘肽-S-转移酶基因(glutathione-S-transferase,GST)的cDNA序列全长,并进行了生物信息学和表达分析。结果表明:青花菜GST基因cDNA全长为915bp,开放阅读框为642bp,编码213个氨基酸,推测分子式为C1091H1719N289O306S5,分子量为23 940.7,没有跨膜螺旋区域和信号肽。系统进化树分析表明,该青花菜基因GST与芥菜的GST聚类关系最近。实时荧光定量PCR结果显示,在模拟酸雨胁迫下,GST基因的表达量在胁迫初期显著增大,随时间延长开始下降,表明其参与了青花菜抗酸雨的应答反应。     

Identification of a novel sugar-H+ symport protein, FucP, for transport of L-fucose into Escherichia coli

l -Fucose (6-deoxy-l -galactose) is used as sole carbon source by many microorganisms, and its transport into Escherichia coli is mediated by An l -fucose-H⁺ symport activity, in order to determine the nature of a putative transporter encoded by the E. coli fucP gene and Identify its protein product it was cloned downstream of the inducible T7 RNA polymerase and lambda O_l P_l promoters, induction of the T7 promoter resulted in the expression of [¹⁴C]-l -fucose uptake activity and the concomitant expression of a [³⁵S]-Met-labelled 32 kDa protein at levels too tow for detection by staining with Coomassie briiiiant blue or for protein sequencing, induction of the lambda O_l P_l promoter caused the appearance of l -fucose-H₊ symport activity and of a Coomassie brilliant blue-stained 32 kDa membrane protein expressed at high levels sufficient for identification as FucP by N-terminal protein sequencing. The FucP protein is, therefore, a sugar-H₊ symporter different in amino acid sequence from any other known transporter. These and other results illustrate the general unpredictability of cloning strategies for attempting the amplified expression of membrane transport proteins.     

Characterization of a region of the Enterococcus faecalis plasmid pAMβ1 which enhances the segregational stability of pAMβ1-derived cloning vectors in Bacillus subtilis

The nucleotide sequence of a 2.13-kb EcoRI-HindIII, pAMβ1-derived fragment, isolated from the gram-positive cloning vector pHV1431, has been determined and shown to encode two ORFs. ORF H encodes for a protein of 23,930 Da which exhibits substantial homology to bacterial site-specific recombinases, particularly the resolvases of the gram-positive transposons Tn917 (30.3% identity) and Tn552 (31.6% identity) and the clostridial plasmid pIP404 (27.1% identity). The second ORF (I) is incomplete and encodes a polypeptide which has significant homology with Escherichia coli topoisomerase I (26.0% identity). Insertion of either the entire 2.13-kb EcoRI-HindIII fragment or a 0.73-kb EcoRI-DraI subfragment encoding only the resolvase into the pAMβ1-based cloning vector pMTL500E causes a significant enhancement of segregational stability (from 6.5 × 10⁻² to 3.0–4.0 × 10⁻³ plasmid loss per cell per generation). Improved segregational stability is mirrored by a reduction in plasmid polymerization. The introduction of a stop codon into the resolvase coding region negates its ability to promote segregational stability. It is proposed that the identified determinant stabilizes pAMβ1-based vectors in Bacillus subtilis by maintaining the plasmid population in the monomeric state, thereby reducing the chances of producing plasmid-free segregants.     

Identification of a novel cellulose-binding domain the multidomain 120 kDa xylanase XynA of the hyperthermophilic bacterium Thermotoga maritima

A segment of Thermotoga maritima strain MSB8 chromosomal DNA was isolated which encodes an endo-1,4-β-D-xylanase, and the nucleotide sequence of the xylanase gene, designated xynA, was determined. With a half-life of about 40 min at 90°C at the optimal pH of 6.2, purified recombinant XynA is one of the most thermostable xylanases known. XynA is a 1059-amino-acid (?120 kDa) modular enzyme composed of an N-terminal signal peptide and five domains, in the order A1-A2-B-C1-C2. By comparison with other xylanases of family 10 of glycosyl hydrolases, the central ?340-amino-acid part (domain B) of XynA represents the catalytic domain. The N terminal ?150-amino-acid repeated domains (A1-A2) have no significant similarity to the C-terminal ?170-amino-acid repeated domains (C1-C2). Cellulose-binding studies with truncated XynA derivatives and hybrid proteins indicated that the C-terminal repeated domains mediate the binding of XynA to microcrystalline cellulose and that C2 alone can also promote cellulose binding. C1 and C2 did not share amino acid sequence similarity with any other known cellulose-binding domain (CBD) and thus are CBDS of a novel type. Structurally related protein segments which are probably also CBDs were found in other multi-domain xylanolytic enzymes. Deletion of the N-terminal repeated domains or of all the non-catalytic domains resulted In substantially reduced tbermostability while a truncated xylanase derivative lacking the C-terminal tandem repeat was as thermostable as the full-length enzyme. It is argued that the multidomain organization of some enzymes may be one of the strategies adopted by thermophiles to protect their proteins against thermal denaturation.     

Molecular Cloning of the Phytase Gene from Citrobacter braakii and its Expression in Saccharomyces cerevisiae

The gene, appA, encoding phytase was cloned from a size-selected genomic library of Citrobacter braakii YH-15 by Southern hybridization using a degenerate probe based on the N-terminal amino acid sequence of the phytase. The deduced amino acid sequence of appA contained the N-terminal RHGXRXP motif and the C-terminal HD motif, which are common in histidine acid phosphatases. It also had significant homology (60% identity) with phytase from Escherichia coli, while the physical mapping analysis of appA revealed that gene organization near appA in C. braakii was similar to that in Salmonella typhimurium genome. C. braakii AppA contained five putative N-glycosylation sites. The recombinant phytases, rAppA_Ec and rAppA_Sc, were produced in E. coli and Saccharomyces cerevisiae, respectively, with both being fused with C-terminal His-tag. After purification, rAppA_Sc was shown to be hyperglycosylated by Endo-H treatment. It had greater thermostability than the wild type phytase and rAppA_Ec.     

Cellodextrin and laminaribiose ABC transporters in Clostridium thermocellum

Clostridium thermocellum is an anaerobic thermophilic bacterium that grows efficiently on cellulosic biomass. This bacterium produces and secretes a highly active multienzyme complex, the cellulosome, that mediates the cell attachment to and hydrolysis of the crystalline cellulosic substrate. C. thermocellum can efficiently utilize only β-1,3 and β-1,4 glucans and prefers long cellodextrins. Since the bacterium can also produce ethanol, it is considered an attractive candidate for a consolidated fermentation process in which cellulose hydrolysis and ethanol fermentation occur in a single process. In this study, we have identified and characterized five sugar ABC transporter systems in C. thermocellum. The putative transporters were identified by sequence homology of the putative solute-binding lipoprotein to known sugar-binding proteins. Each of these systems is transcribed from a gene cluster, which includes an extracellular solute-binding protein, one or two integral membrane proteins, and, in most cases, an ATP-binding protein. The genes of the five solute-binding proteins were cloned, fused to His tags, overexpressed, and purified, and their abilities to interact with different sugars was examined by isothermal titration calorimetry. Three of the sugar-binding lipoproteins (CbpB to -D) interacted with different lengths of cellodextrins (G₂ to G₅), with disassociation constants in the micromolar range. One protein, CbpA, binds only cellotriose (G₃), while another protein, Lbp (laminaribiose-binding protein) interacts with laminaribiose. The sugar specificity of the different binding lipoproteins is consistent with the observed substrate preference of C. thermocellum, in which cellodextrins (G₃ to G₅) are assimilated faster than cellobiose.