Circular permutation of DNA cytosine-N4 methyltransferases: in vivo coexistence in the BcnI system and in vitro probing by hybrid formation
AUTOR(ES)
Vilkaitis, Giedrius
FONTE
Oxford University Press
RESUMO
Sequence analysis of the BcnI restriction-modification system from Bacillus centrosporus revealed four open reading frames (bcnIC, bcnIR, bcnIB and bcnIA) that are arranged as two converging collinear pairs. One pair encodes a putative small regulatory protein, C.BcnI, and the restriction endonuclease R.BcnI. The other two gene products are the DNA cytosine-N4 methyltransferases M.BcnIA and M.BcnIB, which differ by circular permutation of conserved sequence motifs. The BcnI methyltransferases are isospecific on double-stranded DNA [methylation specificity CC(C/G)GG], but M.BcnIA can also methylate the target sites in single-stranded DNA. Functional analysis shows that bcnIA is dispensable (bcnIB is capable of protecting the DNA against the in vivo activity of bcnIR); in contrast, no stable clones were obtained if bcnIB alone was deleted from the system. By analogy with the DpnII system, the second methylase M.BcnIA may play a role in the transformation proficiency of its gram-positive host. The interchangeability of homologous elements in the β class of cytosine-N4 methylases was probed by hybrid formation between M.BcnIB and its closest homolog M.Cfr9I (CCCGGG) employing a novel semi-random strategy combined with selection for catalytic activity. The fusion points in the active hybrids mapped in a narrow region located between sequence motifs X and I. Our data illustrate that recombination of two related sequences by circular permutation may serve as an evolutionary mechanism for creating new specificities of amino MTases.
ACESSO AO ARTIGO
http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=101829Documentos Relacionados
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