Expression of a cloned beta-glucanase gene from Bacillus amyloliquefaciens in an Escherichia coli relA strain after plasmid amplification

Summary Amino acid starvation of cells of the Escherichia coli relA strain, CP79, which cannot accumulate guanosine tetraphosphate (ppGpp) in response to amino acid limitation, increased the pEG1 plasmid content about 5- to 7-fold in comparison with exponentially growing cells (pEG1: pBR322 with an insertion of Bacillus amyloliquefaciens DNA coding for -glucanase). In contrast, no pEG1 amplification occurred in E. coli CP78, the stringently controlled counterpart, after amino acid starvation. In order to verify these results, the plasmid DNA content was monitored by measuring the expression of pEG1-encoded -glucanase from B. amyloliquefaciens both before and after plasmid amplification. When amino acid starved CP79 cells were given an additional dose of amino acids, a more than 10-fold increase in pEG1-encoded -glucanase activity (per cell mass) was measured. This increase in enzyme activity correlates with pEG1 amplification during amino acid limitation. Under comparable conditions the activity of -glucanase was not increased in strain CP78, which did not amplify the plasmid. We suggest that the replication of pEG1 in amino acid starved E. coli cells is somehow under negative control by ppGpp. Moreover, we found the Bacillus -glucanase in E. coli relA cells to be excreted into the growth medium after starvation and overexpression.     

The Vitreoscilla hemoglobin gene: Molecular cloning, nucleotide sequence and genetic expression in Escherichia coli

Summary Vitreoscilla hemoglobin is involved in oxygen metabolism of this bacterium, possibly in an unusual role for a microbe. We have isolated the Vitreoscilla hemoglobin structural gene from a pUC19 genomic library using mixed oligodeoxy-nucleotide probes based on the reported amino acid sequence of the protein. The gene is expressed in Escherichia coli from its natural promoter as a major cellular protein. The nucleotide sequence, which is in complete agrecment with the known amino acid sequence of the protein, suggests the existence of promoter and ribosome binding sites with a high degree of homology to consensus E. coli upstream sequences. In the case of at least some amino acids, a codon usage bias can be detected which is different from the biased codon usage pattern in E. coli. The down-stream sequence exhibits homology with the 3 end sequences of several plant leghemoglobin genes. E. coli cells expressing the gene contain greater than fivefold more heme than controls.     

In vivo study of engineered G-domain mutants of Escherichia coli translation initiation factor IF2

During the IF2-catalysed formation of the 30S initiation complex, the GTP requirement and Its subsequent hydrolysis during 70S complex formation are considered to be essential for translation initiation in Escherichia coli. In order to clarify the role of certain amino acid residues believed to be crucial for the GTP hydrolytic activity of E. coli IF2, we have introduced seven single amino acid substitutions into its GTP-binding site (Gly for Val-400; Thr for Pro-446; Gly, Glu, Gin for His-448; and Asn, Glu for Asp-501). These mutated IF2 proteins were expressed in vivo in physiological quantities and tested for their ability to maintain the growth of an E. coli strain from which the functional chromosomal copy of the infB gene has been deleted. Only one of the mutated proteins (Asp-501 to Giu) was able to sustain cell viability and several displayed a dominant negative effect. These results emphasize that the amino acid residues we substituted are essential for the iF2 functions and demonstrate the importance of GTP hydrolysis in translation initiation. These findings are discussed in relation to a previously proposed theoretical model for the IF2 G-domain.     

Cloning and high expression of glutaryl 7-aminocephalosporanic acid acylase gene from Pseudomonas diminuta

The gene coding for the glutaryl 7-aminocephalosporanic acid (GL 7-ACA) acylase from Pseudomonas diminuta KAC-1 was cloned and expressed in Escherichia coli. The acylase gene was composed of 2160 base pairs and encoded a polypeptide of 720 amino acid residues. The E. coli BL21 carrying pET2, the plasmid construct for high expression of GL 7-ACA acylase gene, produced this enzyme at approx. 30% of the total proteins with 3.2 units activity mg protein^–1. Growth at temperature below 31 °C and deletion of signal peptide increased the processing of precursor acylase to active enzyme in the recombinant E. coli cells.     

Primary structure of the Synechococcus PCC 7942 PAPS reductase gene

The structural gene encoding a thioredoxin-dependent 5-phosphoadenylyl sulphate (PAPS) reductase (EC 1.8.4.-) from cyanobacterium Synechococcus PCC 7942 (Anacystis nidulans) was detected by heterologous hybridization with the cysH gene from Escherichia coli K12. The cyanobacterial gene (further called par gene) comprised 696 nt which are 57.8% homologous to the enterobacterial gene. The putative open reading frame encoded a polypeptide consisting of 232 amino acid residues (deduced molecular weight 26635) which showed significant homologies to the polypeptide from E. coli (50.8%) and to the polypeptide from Saccharomyces cerevisiae (30.3%). A single cysteine located at the C-terminus of the polypeptide of E. coli (Cys₂₃₉) was conserved in Synechococcus. Conservation of this cysteinyl residue seems indispensable for catalysis. Complementation of a cysH-deficient mutant of E. coli by the cyanobacterial gene indicated that the cloned DNA is the structural gene of the PAPS reductase.Abbreviations IPTG isopropyl-1-thio--D-galactoside - PAPS 3-phosphoadenosine-5-phosposulphate     

Identification, cloning and sequence of the Streptococcus faecium infB (translational initiation factor IF2) gene

Summary The structural gene for translational initiation factor IF2 (infB) from Streptococcus faecium was identified by cross-hybridization with DNA probes derived from the corresponding gene of Bacillus stearothermophilus. The entire infB gene (ca. 2.8 kb) was cloned and sequenced. The amino acid sequence deduced from the nucleotide sequence shows that S. faecium initiation factor IF2 (785 amino acids, M_r 86,415) displays extensive homology (ca. 69% and 53%) with the region comprising three-quarters of the molecule from the carboxy-terminus of B. stearothermophilus and Escherichia coli IF2, respectively. The region comprising one-quarter of the molecule from the amino-terminus, on the other hand, does not display any significant homology.     

Close genetic relationship between Nitrobacter hamburgensis nitrite oxidoreductase and Escherichia coli nitrate reductases

The nitrite oxidoreductase (NOR) from the facultative nitrite-oxidizing bacterium Nitrobacter hamburgensis X14 was investigated genetically. In order to develop a probe for the gene norB, the N-terminal amino acid sequence of the NOR -subunit (NorB) was determined. Based on that amino acid sequence, an oligo-nucleotide was derived that was used for the identification and cloning of gene norB. Sequence analysis of DNA fragments revealed three adjacent open reading frames in the order norA, norX, norB. The DNA sequences of norX and norB represented complete genes while the open reading frame of norA was truncated by the cloning site. The deduced amino acid sequence of protein NorB contained four cysteine clusters with striking homology to those of iron-sulfur centers of bacterial ferredoxins. NorB shares significant sequence similarity to the -subunits (NarH, NarY) of the two dissimilatory nitrate reductases (NRA, NRZ) of Escherichia coli. Additionally, the derived amino acid sequence of the truncated open reading frame of norA showed striking resemblance to the -subunits (NarG, NarZ) of the E. coli nitrate reductases.     

Multiply branched replicative intermediates in E. coli and bacteriophage lambda

Summary Multiple branched DNA fragments present in a fast sedimenting complex comprising a minute fraction of the E. coli genome have been isolated. Similar structures were also observed among bacteriophage DNA replicative intermediates after infection of synchronized E. coli cells. These structures were found to be associated with the amino acid and thymidine starvation steps required for synchronization and originate either by initiation from secondary sites or by snap-back of daughter strands containing substantial single stranded regions in the vicinity of the growing point.     

Unusually strong immunological cross-reaction between elongation factor Tu of Escherichia coli and Bacillus subtilis

Polyclonal antibodies were prepared against the purified elongation factor Tu (EF-Tu) of Escherichia coli and Bacillus subtilis. Using the methods of Western blotting and microcomplement fixation the cross-reactivities of EF-Tu of 19 different prokaryotes were determined. The immunological distance were compared with the results of 16S rRNA oligonucleotide analysis. An unexpectedly high cross-reactivity was revealed between the EF-Tu of B. subtilis and the antiserum against the EF-Tu of E. coli. A comparison of the predicted amino acid sequences from the tuf-genes of E. coli and B. subtilis yielded two identical peptide fragments that are likely candidates for antibody binding sites.Abbreviations EF-Tu elongation factor Tu - GDP guanosine 5-diphosphate - GTP guanosine 5-triphosphate - MCF microcomplement fixation - T type strain     

Molecular cloning and sequence of theBacillus stearothermophilus translational initiation factor IF2 gene

Summary The structural gene for theBacillus stearothermophilus initiation factor IF2 was localized to a 6 kbHindIII restriction fragment by cross-hybridization with theSstI-SmaI fragment of theEscherichia coli infB gene. This fragment corresponds to the central region of the molecule containing the GTP-binding domain which is homologous inE. coli IF2, EF-Tu, EF-G and the humanras1 oncogene protein. After cloning into pACYC177, theHindIII fragment was further analysed by restriction mapping and cross-hybridization. A smaller (2.2 kb)SphI-HindIII fragment, which showed cross-hybridization, was subcloned into M13 phage and sequenced by the dideoxy chain-terminating method. This fragment was found to contain the entire IF2 gene except for the region coding for the N-terminus. This remaining region, coding for 45 amino acids, was located by homologous hybridization on an overlappingClaI-SstI fragment which was also subcloned and sequenced. Overall, theB. stearothermophilus IF2 gene codes for a protein of 742 amino acids (M_r=82,043) whose primary sequence displays extensive homology with the C-terminal two-thirds (but little or no homology with the N-terminal one-third) of the correspondingE. coli IF2 molecule. When cloned into an expression vector under the control of the λP_L promoter, theB. stearothermophilus IF2 gene, reconstituted by ligation of the two separately cloned pieces, could be expressed at high levels inE. coli cells.     

Cloning and sequencing of a cyclodextrin glucanotransferase gene from Bacillus ohbensis and its expression in Escherichia coli

Summary A cyclcodextrin glucanotransferase (CGTase) gene of Bacillus ohbensis was cloned in Escherichia coli and the nucleotide sequence was determined. A single open reading frame (2112 bp) with a TTG codon as an initiator was identified that encodes a typical signal peptide of 29 amino acids followed by the mature enzyme (675 amino acids), of which the partial amino acid sequences of the N-terminal region and some lysyl-endopeptidase fragments were determined by Edman degradation. The CGTase gene was expressed in E. coli under control of the lac promoter only when the upstream region containing a long inverted repeat structure (located at –108 to –67 bp from the initiation codon) was deleted. Substitution of an ATG codon for the initiation TTG triplet doubled the expression of the CGTase gene in E. coli. Enzyme preparations purified from the culture supernatant of B. ohbensis and from the periplasmic fraction of the E. coli transformant exhibited the same molecular weight (M _r) and enzymatic properties as follows: M _r, 80 000; optimum pH for activity, 5.0 (and a suboptimum at 10.0); stability between pH 6.5 and 10.0; optimum temperature for activity, 55°C; and stability below 45°C. The yields of the products from starch as the substrate were 25% for -and 5% for -cyclodextrin.The nucleotide and deduced amino acid sequence data reported in this paper have been deposited in the DDBJ, EMBL and Genbank Nucleotide Sequence Databases under the accession number D90243 Offprint requests to: T. Uozumi     

Cistron Specific Translation Control Protein in <Emphasis Type="Italic">Escherichia coli</Emphasis>

GENE expression may be controlled during translation by ribosomal selection of mRNAs or even individual cistrons. Escherichia coli initiation factors associated with ribosomes affect the binding of ribosomes to mRNA^1,2; initiation factor IF3, for instance, influences the specificity of mRNA-ribosome interaction^3,4. IF3 activity has been separated into several fractions which show various specificities for different mRNA cistrons^4–9. An important problem is the possibility of intracellular changes in IF3 activity^10–12. From uninfected E. coli, we have now isolated a protein which changes the specificity of IF3 toward different mRNAs; we call this interference factor i. Pure factor i binds to IF3 and specifically affects the translation of T4 and MS2 RNA. Whereas the initiation of translation of the MS2 coat protein cistron is inhibited by factor i, the synthetase cistron—when available—is more rapidly initiated in the presence of factor i. The overall translation of T4 mRNA appears unchanged by factor i, but certain cistrons are stimulated at the expense of others. Interfering factors such as factor i could be important in controlling translation in E. coli.     

Modification of length, hydrophobic properties and electric charge of Bacillus subtilis alpha-amylase signal peptide and their different effects on the production of secretory proteins in B. subtilis and Escherichia coli cells

Summary Bacillus subtilis -amylase signal peptide, which consists of 33 amino acids, is functional in Escherichia coli cells.Lysine, glutamic acid, leucine, leucyl-leucine, or leucyl-leucyl-leucine was inserted between positions 28 and 29 of the -amylase signal peptide using site directed mutagenesis. DNAs encoding the wild-type and modified signal peptides were then fused in-frame to DNAs encoding the mature regions of the -lactamase of pBR322 and a thermostable -amylase. The secretion of -lactamase in E. coli cells was more inhibited by the modified signal peptides than that in B. subtilis cells, although the degree of inhibition varied and the inhibitory effect of each signal peptide was found to be similar in the two strains. In contrast, the difference in the inhibitory effect of each modified signal peptide was no longer detected in the case of the production of thermostable -amylase, except for the insertion of glutamic acid. Nearly 50% of thermostable -amylase in the precursor form was accumulated in the intracellular fraction of E. coli cells containing the DNAs for the modified signal peptides. The insertion of glutamic acid inhibited the secretion of the two enzymes in both B. subtilis and E. coli cells.     

Cloning and sequencing of the hemA gene of Rhodobacter capsulatus and isolation of a δ-aminolevulinic acid-dependent mutant strain

Summary The Rhodobacter capsulatus hemA gene, coding for the enzyme -aminolevulinic acid synthase (ALAS), was isolated from a genome bank by hybridization with a hemT probe from Rhodobacter sphaeroides. Subcloning of the initial 3.9 kb HindIII fragment allowed the isolation of a 2.5 kb HindIII-BglII fragment which was able to complement the -aminolevulinic acid-requiring (ALA-requiring) Escherichia coli mutant SHSP19. DNA sequencing revealed an open reading frame coding for a protein with 401 amino acids which displayed similarity to the amino acid sequences of other known ALASs. However, no resemblance was seen to the HemA protein of E. coli K12. Based on the sequence data, an ALA-requiring mutant strain of R. capsulatus was constructed by site-directed insertion mutagenesis. Introduction of a plasmid, containing the hemA gene of R. capsulatus on the 3.9 kb HindIII fragment, restored ALA-independent growth of the mutant indicating that there is only one gene for ALA biosynthesis in R. capsulatus. Transfer of the R factor pRPS404 and hybridization analysis revealed that the ALAS gene is not located within the major photosynthetic gene cluster.Part of this research was presented at the Symposium on Molecular Biology of Membrane-Bound Complexes in Phototrophic Bacteria, Freiburg, FRG, 2–5 August 1989     

Development of a hybrid <Emphasis Type="Italic">delta</Emphasis>-endotoxin and its expression in tobacco and cotton for control of a polyphagous pest <Emphasis Type="Italic">Spodoptera litura</Emphasis>

A hybrid -endotoxin protein was designed against a polyphagous lepidopteran insect pest Spodoptera litura, which is tolerant to most of the known -endotoxins. The hybrid -endotoxin was created by replacing amino acid residues 530–587 in a poorly active natural Cry1Ea protein, with a highly homologous 70 amino acid region of Cry1Ca in domain III. The truncated -endotoxins Cry1Ea, Cry1Ca and the hybrid protein Cry1EC accumulated in Escherichia coli to form inclusion bodies. The solubilised Cry1EC made from E. coli was 4- fold more toxic to the larvae of S. litura than Cry1Ca, the best known -endotoxin against Spodoptera sp. None of the two truncated toxins, solubilised from E. coli caused larval mortality. However, trypsinised Cry1Ca protoxin obtained from E. coli and solubilised from inclusion bodies caused mortality of S. litura with LC₅₀ 513 ng/ml semi synthetic diet. A synthetic gene coding for the hybrid$-endotoxin Cry1EC was designed for high level expression in plants, taking into consideration several features found in the highly expressed plant genes. Transgenic, single copy plants of tobacco as well as cotton were developed. The selected lines expressed Cry1EC at 0.1–0.7% of soluble leaf protein. Such plants were completely resistant to S. litura and caused 100% mortality in all stages of larval development. Hence, unlike in E. coli, the hybrid -endotoxin folded into a functionally active conformation in both tobacco and cotton leaves. The truncated Cry1EC expressed in tobacco leaves was about 8-fold more toxic (LC₅₀ 58 ng/ml diet) compared to expression in E. coli.     

Expression inEscherichia coli K12 strains of two synthetic human calcitonin genes differing in codon composition

Two genes coding for a Val⁸-variant of the human calcitonin (hCT) are synthesized on two different codon biases: the native codons for the hCT gene and the codons preferential forEscherichia coli. Both genes are fused to a synthetic human interferon-gamma (IF) gene [6] and expressed in various strains ofE. coli K12. It is found that, in all host strains used, the level of expression of both genes is similar and much lower (1/50–1/100) than that of the IF gene alone.     

Cloning,nucleotide sequence,and overexpression in Escherichia coli of the β-tyrosinase gene from an obligately symbiotic thermophile,Symbiobacterium thermophilum

Symbiobacterium thermophilum is an obligately symbiotic thermophile that can grow only in coculture with a specific Bacillus strain. The amino acid sequences of fragments obtained by cyanogen bromide decomposition of the thermostable -tyrosinase (tyrosine phenol-lyase, E.C. 4.1.99.2) from this organism resembled that of the tryptophanase produced by the same organism. DNA-probing with the tryptophanase gene as the hybridization probe led to cloning in Escherichia coli of the -tyrosinase (tpl) gene. The nucleotide sequence revealed that the -tyrosinase of 458 amino acids (relative molecular mass, 52269) showed significant similarity in amino acid sequence to the tryptophanase over the entire sequence. DNA manipulation of the cloned tpl gene in E. coli led to production of 375 times as much -tyrosinase as that produced by the original S. thermophilum strain.     

Genetic organization of the E. coli chromosome around the structural gene for initiation factor IF3 (infC).

Summary A set of transducing phages carrying varying lengths of the E. coli chromosome around the structural gene for initiation factor IF3 (infC) was derived from p2 which is known to cary, besides infC, the structural genes for the subunit of phenylalanyl-tRNA synthetase (pheS), the subunit of phenylalanyl-tRNA synthetase (phetT) and the structural gene for threonyl-tRNA synthetase (thrS). The E. coli coding content of these derived phages was analysed by genetic complementation of a set of mutants and by SDS-polyacrylamide gel analysis of the proteins synthesized in UV irradiated cells infected with these phages. The segregation pattern of the different genes among these derived phages indicates that the order of the genes is pheT-pheS-P12-(infC, thrS) where infC is probably between P12 and thrS. P12 is the structural gene of a 12,000 molecular weight unidentified protein.Abbreviations PRS (EC 6.1.1.20) phenylalanyl-tRNA synthetase - TRS (EC 6.1.1.3) threonyl-tRNA synthetase - IF3 Initiation factor IF3 - SDS Sodium dodecyl sulfate - PP^R pyrophosphate resistant - PP^S pyrophosphate sensitive     

Cloning, sequencing and expression of the amylase isozyme gene from Pseudomonas sp. KFCC 10818

Summary A gene coding for amylase was cloned and sequenced from an alkalophilic Pseudomonas sp. KFCC 10818. The coding region for the amylase precursor contained 1,692 nucleotides. The presumed Shine-Dalgarno sequence, AAGG, was located at 8 nucleotides upstream from the ATG initiation codon. The precursor protein had a putative signal peptide of 25 amino acid residues at its amino terminus. The Pseudomonas amylase had four highly conserved regions as other -amylases. The amylase expressed from E. coli harboring the Pseudomonas gene produced maltose and maltotriose from soluble starch.The nucleotide sequence reported in this paper has been submitted in the GenBank/EMBL database with accession number(s) U40056.     

Buchnera aphidicola,the endosymbiont of aphids,contains genes for four ribosomal RNA proteins,initiation factor-3, and the α-subunit of RNA polymerase

Buchnera aphidicola is a prokaryotic endosymbiont of the aphidSchizaphis graminum. With the polymerase chain reaction (PCR) and oligonucleotide primers to conserved regions, two DNA fragments of the endosymbiont -operon and L20 operon were amplified, cloned intoEscherichia coli, and their sequences were determined. The results indicated that the organization of the endosymbiont genes on these fragments was identical with that of the corresponding operons ofE. coli. The 1032 base pair (bp) fragment of the -operon contained the genes for small ribosomal subunit proteins S11 and S4, followed by the gene for the -subunit of RNA polymerase (-RNAP). The 702-bp fragment of the L20-operon contained the genes for initiation factor-3 (IF3) and large ribosomal subunit proteins L35 and L20. As in other prokaryotes, the genes of the -operon and the L20-operon were present as single copies in the genome ofB. aphidicola. Comparisons of the amino acid sequences of these proteins were consistent with the previously established close relationship betweenB. aphidicola andE. coli and a distant relationship to species ofBacillus.