Cloning of histidine genes of Azospirillum brasilense: organization of the ABFH gene cluster and nucleotide sequence of the hisB gene

Summary A cluster of four Azospirillum brasilense histidine biosynthetic genes, hisA, hisB, hisF and hisH, was identified on a 4.5 kb DNA fragment and its organization studied by complementation analysis of Escherichia coli mutations and nucleotide sequence. The nucleotide sequence of a 1.3 kb fragment that complemented the E. coli hisB mutation was determined and an ORF of 624 nucleotides which can code for a protein of 207 amino acids was identified. A significant base sequence homology with the carboxyterminal moiety of the E. coli hisB gene (0.53) and the Saccharomyces cerevisiae HIS3 gene (0.44), coding for an imidazole glycerolphosphate dehydratase activity was found. The amino acid sequence and composition, the hydropathic profile and the predicted secondary structures of the yeast, E. coli and A. brasilense proteins were compared. The significance of the data presented is discussed.Abbreviations IGP imidazole glycerolphosphate - HP histidinolphosphate     

The uvp1 gene of plasmid pR cooperates with mucAB genes in the DNA repair process

Summary We show that a DNA fragment that contains the uvp1 gene of the plasmid pR directs the synthesis in Escherichia coli minicells of a protein of apparent molecular weight 20 kDa. Inspection of the nucleotide sequence of the region reveals an open reading frame that has the capacity to encode a protein of 198 amino acids. The uvp1 gene product has been found, in two different systems, to enhance the recombination activity of E. coli cells. We have also observed a striking similarity to resolvase and invertase proteins. The significance of this finding for the function of the uvp1 gene product requires further investigation. We conclude that the uvp1 gene encodes a 20 kDa protein which appears to be responsible for enhancement of both UV survival and recominational activity in E. coli.     

Identification of a novel nifH-like (frxC) protein in chloroplasts of the liverwort Marchantia polymorpha

The frxC gene, one of the unidentified open reading frames present in liverwort chloroplast DNA, shows significant homology with the nifH genes coding for the Fe protein, a component of the nitrogenase complex (Ohyama et al., 1986, Nature 322: 572–574). A truncated form of the frxC gene was designed to be over-expressed in Escherichia coli and an antibody against this protein was prepared using the purified product as an antigen. This antibody reacted with a protein in the soluble fraction of liverwort chloroplasts, which had an apparent molecular weight of 31 000, as revealed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, in good agreement with a putative molecular weight of 31945 deduced from the DNA sequence of the frxC gene. In a competitive inhibition experiment, the antigenicity of this protein was indicated to be similar to that of the over-expressed protein in E. coli. Therefore, we concluded that the frxC gene was expressed in liverwort chloroplasts and that its product existed in a soluble form. The molecular weight of the frxC protein was approximately 67 000, as estimated by gel filtration chromatography, indicating that the frxC protein may exist as a dimer of two identical polypeptides analogous to the Fe protein of nitrogenase. The results obtained from affinity chromatography supported the possibility that the frxC protein, which possesses a ATP-binding sequence in its N-terminal region that is conserved among various other ATP-binding proteins, has the ability to bind ATP.     

Molecular cloning of the Salmonella typhimurium lep gene in Escherichia coli

Summary A system is described which enabled the selection of a heterologous ep gene, encoding signal peptidase I, in Escherichia coli. It is based on complementation of an E. coli mutant, in which the synthesis of signal peptidase I can be regulated. With this system the lep gene of Salmonella typhimurium was cloned and the nucleotide sequence was determined. The S. typhimurium lep gene encodes a protein of 324 amino acids. Expression of the gene in the E. coli mutant resulted in suppression of growth inhibition and in the restoration of processing activity under conditions where synthesis of E. coli signal peptidase I was repressed. The cloned S. typhimurium signal peptidase I had an apparent molecular weight of 36000 daltons, which is in agreement with the calculated molecular weight of 35782 daltons. The system described for selection of the S. typhimurium lep gene may permit the cloning and expression of other heterologous signal peptidase I gen/es.     

Molecular Evolution of hisB Genes

The sixth and eighth steps of histidine biosynthesis are catalyzed by an imidazole glycerol-phosphate (IGP) dehydratase (EC 4.2.1.19) and by a histidinol-phosphate (HOL-P) phosphatase (EC 3.1.3.15), respectively. In the enterobacteria, in Campylobacter jejuni and in Xylella/Xanthomonas the two activities are associated with a single bifunctional polypeptide encoded by hisB. On the other hand, in Archaea, Eucarya, and most Bacteria the two activities are encoded by two separate genes. In this work we report a comparative analysis of the amino acid sequence of all the available HisB proteins, which allowed us to depict a likely evolutionary pathway leading to the present-day bifunctional hisB gene. According to the model that we propose, the bifunctional hisB gene is the result of a fusion event between two independent cistrons joined by domain-shuffling. The fusion event occurred recently in evolution, very likely in the proteobacterial lineage after the separation of the - and the -subdivisions. Data obtained in this work established that a paralogous duplication event of an ancestral DDDD phosphatase encoding gene originated both the HOL-P phosphatase moiety of the E. coli hisB gene and the gmhB gene coding for a DDDD phosphatase, which is involved in the biosynthesis of a precursor of the inner core of the outer membrane lipopolysaccharides (LPS).     

Characterization of the levanase gene of Bacillus subtilis which shows homology to yeast invertase

Summary The structural gene for the enzyme levanase of Bacillus subtilis (SacC) was cloned in Escherichia coli. The cloned gene was mapped by PBS1 transduction near the sacL locus on the B. subtilis chromosome, between leu4 and aroD. Expression of the enzyme was demonstrated both in B. subtilis and in E. coli. The presence of sacC allowed E. coli to grow on sucrose as the sole carbon source. The complete nucleotide sequence of sacC was determined. It includes an open reading frame of 2,031 bp, coding for a protein with calculated molecular weight of 75,866 Da, including a putative signal peptide similar to precursors of secreted proteins found in Bacilli. The apparent molecular weight of purified levanase is 73 kDa. The sacC gene product was characterized in an in vitro system and in a minicellproducing strain of E. coli, confirming the existence of a precursor form of levanase of about 75 kDa. Comparison of the predicted aminoacid sequence of levanase with those of the two other known -D-fructofuranosidases of B. subtilis indicated a homology with sucrase, but not with levansucrase. A stronger homology was detected with the N-terminal region of yeast invertase, suggesting the existence of a common ancestor.     

Cloning of the gene coding for chitobiase ofSerratia marcescens

Summary A λ phage DNA library ofSerratia marcescens was constructed and a clone carrying the gene coding for chitobiase (E.C.3.2.1.29) was isolated and characterized. Deletion analysis limited the cloned region to 4.5 kb that is capable of efficient expression of chitobiase.Escherichia coli cells harboring a plasmid carrying the cloned gene express chitobiase constitutively. The molecular weight of the protein is about 95000 daltons. In exponentially growingE. coli cells the chitobiase enzyme was found to be secreted into the periplasm.     

Characterisation of the gene cysH and of its product phospho-adenylylsulphate reductase from Escherichia coli

Summary The nucleotide sequence of the gene cysH from Escherichia coli K12 was determined. The open reading frame was 735 nucleotides in length; it was flanked by a repetitive palindromic sequence centred 36 nucleotides upstream of cysH and a terminator-like structure located 20 nucleotides downstream. CysH encoded a colypeptide of M_r 27927 consisting of 244 amino acids. The gene product was isolated as a homodimer exhibiting phospo-adenylylsulphate reductase (PAPS reductase) activity. The active enzyme was devoid of electron transferring cofactors and contained only one cysteine per subunit. Reduction of the enzyme by dithiols resulted in a shift of the apparent molecular weight from 44000 to 62000 without formation of an enzyme-thioredoxin complex.

---

     

Sequence, expression and localization of the immunity protein for colicin B

Summary Cells of Escherichia coli containing the cbi locus on plasmids are immune to colicin B which kills cells by dissipating the membrane potential through pore formation in the cytoplasmic membrane. The nucleotide sequence of the cbi region was determined. It contains an open reading frame for a polypeptide consisting of 175 amino acids. The amino acid sequence is homologous to the primary structure of the colicin A immunity protein. This, and the strong homology between the pore-forming domains of colicins A and B suggests a common evolutionary origin for both colicins. The immunity protein could be identified following strong overexpression of cbi. The electrophoretically determined molecular weight of 20 000 was close to the calculated molecular weight of 20 185. The protein contains four large hydrophobic regions. The immunity protein was localized in the membrane fraction and was mainly contained in the cytoplasmic membrane. It is proposed that the immunity protein inactivates the colicin in the cytoplasmic membrane.     

Cloning and characterization of the recA gene of Aquaspirillum magnetotacticum

The recA gene of Aquaspirillum magnetotacticum has been isolated from a genomic library and introduced into a recA mutant strain of Escherichia coli K12. The cloned gene complemented both the recombination and DNA repair deficiency of the host and its protein product promoted the proteolytic cleavage of the LexA protein. A protein whose molecular weight is similar to that of the RecA protein of E. coli was associated with the cloned sequence.This paper is affectionately dedicated to Prof. John L. Ingraham     

Purification and properties of the formate dehydrogenase and characterization of the<Emphasis Type="Italic"> fdhA</Emphasis> gene of<Emphasis Type="Italic"> Sulfurospirillum multivorans</Emphasis>

The soluble periplasmic subunit of the formate dehydrogenase FdhA of the tetrachloroethene-reducing anaerobe Sulfurospirillum multivorans was purified to apparent homogeneity and the gene (fdhA) was identified and sequenced. The purified enzyme catalyzed the oxidation of formate with oxidized methyl viologen as electron acceptor at a specific activity of 1683 nkat/mg protein. The apparent molecular mass of the native enzyme was determined by gel filtration to be about 100 kDa, which was confirmed by the fdhA nucleotide sequence. fdhA encodes for a pre-protein that differs from the truncated mature protein by an N-terminal 35-amino-acid signal peptide containing a twin arginine motif. The amino acid sequence of FdhA revealed high sequence similarities to the larger subunits of the formate dehydrogenases of Campylobacter jejuni, Wolinella succinogenes, Escherichia coli (FdhN, FdhH, FdhO), and Methanobacterium formicicum. According to the nucleotide sequence, FdhA harbors one Fe₄/S₄ cluster and a selenocysteine residue as well as conserved amino acids thought to be involved in the binding of a molybdopterin guanidine dinucleotide cofactor.Abbreviations Fdh Formate dehydrogenase - PCE Tetrachloroethene     

Spontaneous and reversible high-frequency frameshifts originating a phase transition in the carotenoid biosynthesis pathway of the phototrophic bacterium Rhodobacter sphaeroides 2.4.1

Summary The nucleotide sequence of the melB gene coding for the Na⁺(Li⁺)/melibiose symporter of Salmonella typhimurium LT2 was determined, and its amino acid sequence was deduced. It consists of 1428 bp, corresponding to a protein of 476 amino acid residues (calculated molecular weight 52800). The amino acid sequence is homologous to that of the melibiose permease of Escherichia coli K12, with 85% identical residues. All, except one, of the amino acid residues that have been reported to be important for cation or substrate recognition in the melibiose permease of E. coli are conserved in the melibiose permease of S. typhimurium. In addition, part of the sequence resembles the lactose permease of Streptococcus thermophilus, the animal glucose transporter (GLUT1), the plasmid-coded raffinose permease (RafB), and the NADH-ubiquinone oxidoreductase chain 4 (Nuo4) of Aspergillus amstelodami.The nucleotide sequence reported in this paper has been submitted to the DDBJ/GenBank/EMBL Data Bank with accession number X62101     

致犊牛脑膜炎大肠杆菌新疆分离株ibeB基因的特性分析北大核心CSCD

【目的】分析致犊牛脑膜炎大肠杆菌分离株ibeB基因的分子生物学信息。【方法】以自脑炎死亡犊牛脑组织、肝组织分离鉴定的O161-K99-STa致病性大肠杆菌牛-EN株和牛-EG分离株为材料。根据GenBank中公布的脑膜炎大肠杆菌K1株RS218 ibeB基因序列设计1对引物,采用PCR方法,从分离株中成功克隆ibe B基因,比较分离株ibeB基因与不同来源大肠杆菌ibeB基因的部分生物信息学特性。【结果】分离株ibeB基因序列全长1500 bp,包含1371 bp开放阅读框,共编码457个氨基酸;生物信息学分析显示,牛-EN株与致人脑膜炎大肠杆菌K1 RS218的核苷酸和氨基酸同源性分别为90.5%和96.9%,牛-EG株与大肠杆菌K12的核苷酸和氨基酸同源性分别为99.4%和100.0%;ibeB蛋白为亲水性蛋白,分子质量为50.26 kDa,理论等电点为6.05;该蛋白无跨膜区,但具有信号肽序列;亚细胞定位显示,分泌信号通路位点(SP)占比例为0.939,说明该蛋白属于分泌型蛋白。【结论】从致脑膜炎大肠杆菌分离株中成功克隆ibeB基因,该基因与致人脑膜炎大肠杆菌K1 RS218 ibeB基因有较高的同源性,均有相似的生物学特性,属肠外致病性大肠杆菌。     

Cloning and molecular characterization of the gene rimL which encodes an enzyme acetylating ribosomal protein L12 of Escherichia coli K12

Summary TherimL gene ofEscherichia coli K12 encodes en enzyme catalyzing the acetylation of the N-terminal serine of ribosomal protein L12, thereby converting it into L7. Using a mutant strain defective in this acetylation reaction, we cloned therimL gene into cosmid pHC79 and characterized it at the molecular level. From analysis by SDS-polyacrylamide gel electrophoresis of the proteins synthesized in maxi-cells containing derivatives of therimL-harboring plasmid into which transposon λδ had been inserted at various sites, the product of this gene was identified as a protein with an apparent molecular weight of 20.3 kDa. The nucleotide sequence of the gene and the amino acid sequence deduced from the nucleotide sequence were compared with those of two other ribosomal protein acetylses encoded by therimI andrimJ genes (Yoshikawa et al. 1987). A considerable degree of overall similarity was seen betweenrimL andrimJ, but the degree of similarity betweenrimL andrimI was very low. In addition, a short stretch of similar amino acid sequence was found in all threerim acetylases. The significance of these results with respect to other acetylating enzymes, in particular those involved in the acetylation of aminoglycoside antibiotics is discussed.     

Cloning of a superoxide dismutase gene from Listeria ivanovii by functional complementation in Escherichia coli and characterization of the gene product.

Summary A gene encoding superoxide dismutase (EC 1.15.1.1., SOD) was isolated from a plasmid library of chromosomal DNA from Listeria ivanovii by functional complementation of an SOD-negative Escherichia coli host. The nucleotide sequence of the cloned gene was determined and contained an open reading frame which codes for a protein of 202 amino acid residues (calculated molecular weight 22 755 Da including the amino-terminal methionine residue). Comparison of the deduced amino acid sequence of L. ivanovii SOD with previously reported SOD amino acid sequences revealed considerable homologies with Fe- and Mn-dependent SODs. Enzymatic analyses using cell lysates and the purified recombinant enzyme indicated that this SOD is manganese-dependent. The recombinant SOD accounted for up to 30% of the total soluble protein in recombinant E. coli and protected sodA sodB mutants against the toxic effects of paraquat. Subunits of the recombinant Listeria SOD and of both E. coli SODS formed enzymatically active hybrids in vivo.Some of our preliminary observations have been published as a conference report of SOD V (Jerusalem, 1989) in Free Rad Res Commun (1991) 12–13:371     

Cloning, sequencing, and expression of a β-1,4-endoxylanase gene from Indonesian Bacillus licheniformis strain I5 in Escherichia coli

The gene encoding an endo-β-1,4-xylanase from an Indonesian indigenous Bacillus licheniformis strain I5 was amplified using PCR, cloned, and expressed in Escherichia coli. The nucleotide sequence of a 642 bp DNA fragment was determined, revealing one open reading frame that encoded a xylanase. Based on the nucleotide sequence, calculated molecular mass of the enzyme was 23 kDa. This xylanase has a predicted typical putative signal peptide; however, in E. coli, the active protein was located mainly in intracellular form. Neither culture supernatant of recombinant E. coli nor periplasmic fraction has significantly detectable xylanase activity. The deduced amino acid of the gene has 91% identity with that of Bacillus subtilis endoxylanase. Optimal activity of the recombinant enzyme was at pH 7 and 50°C     

Molecular characterization of polyphosphate kinase (ppk) gene from Serratia marcescens

To understand the mechanism of phosphate accumulation, a gene encoding polyphosphate kinase (PPK) was cloned from the genomic library of Serratia marcescens by Southern hybridization. From the nucleotide sequence of a 4 kb DNA fragment, an open reading frame of 2063 nucleotides was identified encoding a protein of 686 amino acids with molecular mass of 70 kDa. The potential CRP binding site and pho box sequence were found upstream of the putative promoter in the regulatory region. The expression of PPK resulted in the formation of inclusion bodies and the product was active at low temperature. The E. coli strain harboring plasmid pSPK5 with ppk gene increased enzyme activity of polyphosphate kinase, resulting in increased accumulation of polyphosphate in E. coli.     

Nucleotide sequence of the Escherichia coli hisD gene and of the Escherichia coli and Salmonella typhimurium hisIE region

Summary In this paper we report the nucleotide sequence of the hisD gene of Escherichia coli and of the hisIE region of both E. coli and Salmonella typhimurium. The hisD gene codes for a bifunctional enzyme, l-histidinol: NAD⁺ oxidoreductase, of 434 amino acids with a molecular mass of 46,199 daltons. We established that the hisIE region of both S. typhimurium and E. coli is composed of a single gene and not, as previously believed, of two separate genes. The derived amino acid sequence indicates that the hisIE gene codes for a bifunctional protein of 203 amino acids with an approximate molecular mass of 22,700 daltons. We also determined the nucleotide sequence of a deletion mutant in S. typhimurium which abolishes the hisF and hisI functions but retains the hisE function. We deduced that the mutant produces a chimeric protein fusing the aminoterminal region of the upstream hisF gene to the carboxylterminal domain of the hisIE gene which encodes for the hisE function. In view of these results the structural and functional organization of the histidine operon in enteric bacteria needs to be revised. The operon is composed of only 8 genes and the pathway leading to the biosynthesis of the amino acid requires 11 enzymatic steps.     

Isolation and nucleotide sequence of the hmp gene that encodes a haemoglobin-like protein in Escherichia coli K-12

Summary In the course of an attempt to identify genes that encode Escherichia coli dihydropteridine reductase (DHPR) activities, a chromosomal DNA fragment that directs synthesis of two soluble polypeptides of M_r 44000 and 46000 was isolated. These proteins were partially purified and were identified by determination of their N-terminal amino acid sequences. The larger was serine hydroxymethyltransferase, encoded by the glyA gene, while the smaller was the previously described product of an unnamed gene closely linked to glyA, and transcribed in the opposite direction. Soluble extracts of E. coli cells that overproduced the 44 kDa protein had elevated DHPR activity, and were yellow in colour. Their visible absorption spectra were indicative of a CO-binding b-type haemoprotein that is high-spin in the reduced state. The sequence of the N-terminal 139 residues of the protein, deduced from the complete nucleotide sequence of the gene, had extensive homology to almost all of Vitreoscilla haemoglobin. We conclude that E. coli produces a soluble haemoglobin-like protein, the product of the hmp gene (for haemoprotein). Although the protein has DHPR activity, it is distinct from the previously purified E. coli DHPR.