Nucleotide sequence and functional map of pE194, a plasmid that specifies inducible resistance to macrolide, lincosamide, and streptogramin type B antibodies.

AUTOR(ES)

Horinouchi, S

RESUMO

pE194 is a small plasmid (isolated originally in Staphylococcus aureus) which confers erythromycin-inducible resistance to macrolide, lincosamide, and streptogramin type B (MLS) antibiotics. The nucleotide sequence of pE194 contains 3,728 base pairs (bp), corresponding to a molecular mass of 2.4 million daltons. By means of site-specific cleavage with restriction endonucleases and cloning resultant fragments, determinants of the two major biological functions of p E194, i.e., inducible MLS resistance and replication, could be localized and assigned to specific sequences in the plasmid. Restriction endonuclease TaqI cut pE194 at three sites. TaqI fragment A (1,443 bp) contained the determinant for inducible MLS resistance, whereas TaqI fragment B (1,354 bp) contained a determinant necessary for plasmid replication. Regulatory mutations resulting in constitutive expression of MLS resistance mapped in TaqI fragment A, whereas a mutation associated with elevated plasmid copy number was mapped in TaqI fragment B. Also mapping in TaqI fragment B was a plasmid replication determinant comprising two sets of inverted complementary repeat sequences, one of which spanned 124 bp and was adjacent to a second smaller set which was rich in guanine and cytosine residues. pE194 contained six open reading frames which were theoretically capable of coding for proteins with maximum molecular masses as follows (in daltons): A, 48,300; B, 29,200; C, 14,000; D, 13,900; E, 12,600; and F, 2,700. Insertion of plasmid pBR322 into the single PstI site located in frame A of pE194 resulted in a composite plasmid which could replicate in both Bacillus subtilis and Escherichia coli, suggesting that an intact polypeptide A is dispensable for both replication of pE194 and for MLS resistance. Frame B specified inducible MLS resistance, whereas frame F specified the putative peptide associated with the proposed B determinant translational attenuator. The extent to which frames C, D, and E, all contained in TaqI fragment B, were translated into polypeptide products is not known; however, a base change in frame E was found in a comparison between the high-copy-number mutant, cop-6, and the wild-type strains.

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