Genes for biosynthesis and assembly of CS3 pili of CFA/II enterotoxigenic Escherichia coli: novel regulation of pilus production by bypassing an amber codon.

The complete nucleotide sequence of the 4746bp HindIII fragment encoding the genes for the biosynthesis and assembly of CS3 pili has been determined. By site-directed mutagenesis in conjunction with analysis of the plasmid-encoded proteins in minicells, the actual reading frames for the various products have been determined. This demonstrated that the genes for four of the proteins (63 kD, 48 kD, 33 kD, and 20 kD in size) are encoded entirely within the same open reading frame as a fifth protein (104 kD). However, for synthesis of this latter protein, suppression or readthrough of an internal amber codon is required. Termination at this codon is also necessary for synthesis of the former proteins. Two further proteins are also encoded within the HindIII fragment: a 27 kD precursor of a periplasmic protein and the 17.5kD precursor of the major CS3 fimbrial subunit.

Nucleotide sequence of the traD region in the Escherichia coli F sex factor.

The complete nucleotide sequence has been determined of a 3635-bp region, extending from the HpaI site in traT, at F coordinate 90.3 kb, to beyond the end of traD, of the F sex factor plasmid of Escherichia coli K-12. This region contains the C-terminal coding part of traT and the entire traD gene. An open reading frame (ORF) of 2148 bp within the sequence confirms that traD encodes an 81.4-kDa cytoplasmic membrane protein. The TraD protein has several regions with an unusually high pI (greater than 10), suggesting that they may correspond to the DNA-binding domains. Several other ORFs were detected within the region including the gene (ORF1) for a 26.3-kDa protein and ORF2, probably corresponding to traI, which continues to the end of the sequence. An ORF for an 8.5-kDa protein preceded by an excellent promoter and ribosome-binding site is present in the region following traD but on the opposite strand. This promoter is thought to correspond to the major RNA polymerase binding site in this region, implying that traI does not have its own promoter. The lack of a typical terminator following traD and ORF1 and the translational coupling provided by overlapping stop and start codons is consistent with this conclusion.

Surface exclusion genes traS and traT of the F sex factor of Escherichia coli K-12. Determination of the nucleotide sequence and promoter and terminator activities.

The DNA encoding the surface exclusion genes traS and traT of the F sex factor of Escherichia coli K-12 has been sequenced and the biological activity of the various terminators and promoters determined. The data show that traS encodes a 16,861 Mr protein with no apparent signal sequence, as expected for its cytoplasmic membrane location. The protein is extremely hydrophobic. traS has its own promoter and a weak terminator region follows the gene. After the traS termination loop there is a small intergenic region before the traT promoter. The traT gene encodes a 25,932 Mr precursor for the 23,709 Mr mature protein. The amino-terminal signal peptide is 21 amino acid residues, consistent with it being an outer membrane lipoprotein. A very strong termination loop follows the gene and adjacent to this a further loop can be predicted from the sequence. These secondary structures would be expected to enhance the stability of the mRNA in the presence of 3' specific ribonucleases accounting for the apparent long half-life of the messenger. The amino acid sequence of the mature product of traT of F differs from that of R100 by only a single amino acid substitution (Gly for Ala at position 119), whereas that of pED208 (Folac) differs at 40 positions. traT lies in a region of heteroduplex homology between F and R100, and the nucleotide sequence confirms this and demonstrates that this homology breaks down immediately preceding and following the coding region. Sequence analysis shows that this is also so for pED208. Thus the entire traS of F, R100 and pED208 are very different at the DNA level. An open reading frame, preceded by a typical promoter sequence and a weak and poorly located Shine-Dalgarno sequence, follows traT and corresponds to the start of traD. Alone, this promoter appears to be inactive.

Nucleotide sequence of ompV, the gene for a major Vibrio cholerae outer membrane protein.

The nucleotide sequence of the ompV gene of Vibrio cholerae was determined. The product of the gene is a 28,000 dalton protein which, after the removal of a 19 amino acid signal sequence, produces a mature outer membrane protein of 26,000 daltons. The cleavage site was determined by amino-terminal amino acid sequencing of the purified mature protein. The DNA upstream of the gene shows the presence of a typical promoter region as judged from the Escherichia coli consensus information; however, the Shine-Dalgarno sequence is associated with a region capable of forming a secondary structure in the mRNA. The formation of this structure would inhibit binding of the mRNA to the ribosome and reduce translation. It is proposed that this structure is recognized by a positive activator in V. cholerae and because of its absence in E. coli ompV is poorly expressed. The distribution of rare codons within ompV suggests that they may serve to slow down the translation of particular domains such that the nascent polypeptide has an opportunity to take up its conformation without interference from the later formed regions. Such a mechanism could aid localization of the protein if export were by a contranslational secretion system.