Cloning and structure of the hem A gene of Escherichia coli K-12

An Escherichia coli gene, which complements two independent hemA mutants of E. coli, has been cloned onto a multi-copy plasmid and both its strands have been sequenced. Both complemented mutants produce 5-aminolevulinic acid (ALA) and display fluorescence after 24h. The cloned sequence appears to encode a 46-kDa protein, which when produced in the maxicell procedure is processed to a 41-kDa protein as determined by sodium dodecyl sulfate-polyacrylamide-gel electrophoresis. The amino acid sequence of the cloned gene product shows no significant homologies with any cloned ALA synthase, nor with any protein, in two E. coli databanks. A second cloned gene fragment, which has its coding region 34 bp away from the coding region of the gene that complements hemA, has been identified as part of protein release factor 1(RF1), thus confirming the location of hemA at min 26.7 and mapping it precisely near RF1. We have shown that E. coli utilizes the intact five-carbon chain of glutamate for the synthesis of ALA [Li et al., J Bacteriol. 171 (1989b) 2547-2552].     

Morphological mutants of Escherichia coli K12. Mapping of the env C mutation

Summary Morphological env C mutation affects the septum and leads to chain formation. Genetic analysis of a non-conditional env C mutant is performed; the gene order found is xyl-mtl-env C-pyr E.     

Mapping of the constitutive lysyl-tRNA synthetase gene of Escherichia coli K-12.

The constitutive lysyl-tRNA synthetase gene (lysS) was mapped at 62.1 min on the Escherichia coli chromosome by a combination of conjugation and transduction, with physical confirmation by two-dimensional gel electrophoresis. Revertant analysis suggests that the altered isoelectric point and the low amount of the mutant LysS protein may be due to a single mutational event.     

Mapping of insertion element IS30 in the Escherichia coli K12 chromosome

Summary We identified seven phage clones containing the insertion element IS30 in a phage library mini-set, which includes 476 clones carrying chromosomal segments that cover almost the entire chromosome ofEscherichia coli K12 W3110 (Kohara et al. 1987). We could assign locations and orientations to four copies of IS30 (namedis30A tois30D) on the W3110 chromosome by restriction analysis of phage DNAs containing them. These IS30s were present at the same locations in chromosomes of both W3110 and anotherE. coli K12 strain JE5519, and thus are assumed to be present in otherE. coli K12 derivatives, including early isolates. Among the IS30 copies found, one (is30B) contained a large deletion and possessed only a 181 by stretch of the right terminal region of IS30.EMBL Accession Number: The EMBL accession number of the sequence reported in this paper is X17345     

Formate : a new electron donor for nitrite reduction in Escherichia coli K12.

Reduction of nitrite by unbroken cells of $\text{Escherichia coli}$ occurs with formate as electron donor. This activity constitutes about 25 % of the overall nitrite reduction. Electron transfer is performed through the formate dehydrogenase and, probably, a cytochrome-containing chain.     

IS30, a new insertion sequence of Escherichia coli K12

Summary Three independent spontaneous mutations of prophage P1 affecting the ability of the phage to reproduce vegetatively are due to the insertion of a mobile genetic element, called IS 30. The same sequence is also carried in the R plasmid NR 1-Basel, but not in the parental plasmid NR 1. Southern hybridisation study indicates that the Escherichia coli K 12 chromosome carries several copies of IS 30 as a normal resident. IS 30 is 1.2 kb long and contains unique restriction cleavage sites for Bg/II, ClaI, HindIII, NciI and HincII, and it is cleaved twice by the enzymes HpaII and TaqI. The ends of IS 30 are formed by 26 bp long inverted repeats with 3 bases mismatched. Upon transposition IS 30 generates a duplication of only 2 bp of the target. The following observations suggest a pronounced specificity in target selection by IS 30. In transposition to the phage P 1 genome a single integration site was used three times independently, and in both orientations. A short region of sequence homology has been identified between the P 1 and NR 1-Basel insertion sites. IS 30 has mediated cointegration as well as deletion. The entire IS 30 sequences were duplicated in the cointegrates between a pBR 322 derivative containing IS 30 and the genome of phage P 1–15, and several loci on the P1–15 genome served as fusion sites, some of which were used more than once.     

Mapping of a gene for a major outer membrane protein of Escherichia coli K12 with the aid of a newly isolated bacteriophage.

Summary A method is described for the enrichment of phages which can adsorb to a specific determinant of bacterial cell surfaces. A phage was isolated which adsorbs toE. coli cells containing the “major outer membrane” proteinc but not to strains that are lacking this protein. With the aid of this phage a gene,meoA which is responsible for the lack of proteinc was mapped at 48 min on the linkage map ofE. coli K12.     

Cloning and sequence of the crp gene of Escherichia coli K 12.

We have determined the nucleotide sequence of the crp gene of Escherichia coli K 12. From a lambda transducing phage, the crp region was subcloned into pBR322. The gene was localized on the cloned fragment by determining the length of deletions which affect its expression. Its nucleotide sequence was established by using the technique of Maxam and Gilbert. The deduced amino-acid sequence is in agreement with the previously published amino acid composition of the protein (1, 2). Analysis of the sequence confirms that the DNA binding domain is located in the C-terminal portion of the protein.     

Mutants of Escherichia coli K12 accumulating porphobilinogen: a new locus, hemC.

Mutants of Escherichia coli K12 which accumulated the haem precursor porphobilinogen are described. The mutants grew very slowly on carbon and energy sources which K12 uses only oxidatively, and they had low catalase activities, suggesting that they were deficient in haem. Extracts had one-tenth of the parental activity of the enzyme porphobilinogen deaminase. In transduction, the mutation mapped close to genes ilvD and metE at minute 84. The gene was tentatively identified as hemC, coding for porphobilinogen deaminase. The gene symbol hemC replaces the earlier and temporary symbol popE.     

Sulphate permease of Escherichia coli K12.

Some properties of the sulphate transport system and the isolation of sulphate permease mutants in E. coli K12 are described. The gene coding for sulphate permease is located in the same region as the cysA gene in Salmonella typhimurium.     

Chromosomal location of gene governing the trehalose utilization in Escherichia coli K12.

Summary Several mutants unable to utilize trehalose were isolated from Escherichia coli. Their genetic analysis led to determine the following gene order on the chromosomal map: pur B-dad R-tre-hem A-trp. Furthermore, the tre gene belongs to the inversion of the trp chromosomal region between E. coli and S. typhimurium.