The chromosomal integration site of theStreptomyces element pSAM2 overlaps a putative tRNA gene conserved among actinomycetes

Abstract

Summary The pSAM2 element ofStreptomyces ambofaciens integrates site-specifically in the genome of differentStreptomyces species by recombination between a 58 by sequence common to the plasmid (attP) and the chromosome (attB). Southern hybridization analysis showed that sequences similar to the pSAM2attB site were found in otheractinomycetes (Mycobacterium,Nocardia,Micromonospora) as well as unrelated bacteria (Bacillus circulans,Escherichia coli,Clostridium botulinum,Bordetella pertussis, andLegionella pneumophila). Hybridizing fragments fromB. circulans andMycobacterium tuberculosis were cloned and sequenced. Comparison of these sequences with the sequence of the integration zone ofS. ambofaciens revealed a conserved region of 76 by which overlapped with theattB site. This conserved sequence was similar to theSalmonella typhimurium andE. coli tRNA ^suppro_inf1 genes as well as a number of eucaryotic tRNA genes and had a proline-tRNA-like cloverleaf structure. Furthermore, theStreptomyces lividans attB site of theStreptomyces glaucescens element pIJ408 was also found to overlap a potential tRNA gene (tRNA^thr). We note here that these two putative tRNA genes as well as those which overlap theattB site of the elements SLP1 ofStreptomyces coelicolor and pMEA100 ofNocardia mediterranei all contain the site where integrative recombination takes place. These presumptive actinomycete tRNA genes lack the 3′ terminal CCA sequence found in most procaryotic tRNA genes.