Véronique Biaudet scite author profile

SummaryHomologous recombination in Bacillus subtilis requires the product of the addA and addB genes, the AddAB enzyme. This enzyme, which is both a helicase and a powerful nuclease, is thought to be the counterpart of the Escherichia coli RecBCD enzyme. From this analogy, it is expected that the nuclease activity of AddAB can be downregulated by a specific DNA sequence, which would correspond to the chi site in E. coli. Using protection of linear double-stranded DNA as a criterion, we identified the five-nucleotide sequence 5Ј-AGCGG-3Ј, or its complement 5Ј-CCGCT-3Ј, as being sufficient for AddAB nuclease attenuation. We have shown further that this attenuation occurs only if the sequence is properly oriented with respect to the translocating AddAB enzyme. Finally, inspection of the complete B. subtilis genome revealed that this five-nucleotide sequence is over-represented and is, in a majority of cases, co-oriented with DNA replication. Based on these observations, we propose that 5Ј-AGCGG-3Ј, or its complement, is the B. subtilis analogue of the E. coli chi sequence.

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Characteristics of Chi distribution on different bacterial genomes

Karoui

Biaudet

Schbath³

et al. 1999

Research in Microbiology

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Improved PCR-Walking for Large-Scale Isolation of Plant T-DNA Borders

Balzergue

Dubreucq²,

Chauvin

et al. 2001

BioTechniques

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Identification of the Chi site of Haemophilus influenzae as several sequences related to the Escherichia coli Chi site

Sourice

Biaudet

Karoui

et al. 1998

Molecular Microbiology

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SummaryThe Escherichia coli Chi site 5Ј-GCTGGTGG-3Ј modulates the activity of the powerful dsDNA exonuclease and helicase RecBCD. Genome sequence analyses revealed that Chi is frequent on the chromosome and oriented with respect to replication on the E. coli genome. Chi is also present much more frequently than predicted statistically for a random 8-mer sequence. Although it is assumed that Chi is ubiquitous, there is virtually no proof that its features are conserved in other microorganisms. We therefore identified and analysed the Chi sequence of an organism for which the full genome sequence was available, Haemophilus influenzae. The biological test we used is based on our finding that rolling circle plasmids provide a specific substrate for RecBCD analogues in different microorganisms. Unexpectedly, several related sequences, corresponding to 5Ј-GNTGGTGG-3Ј and 5Ј-G(G/C)TGGAGG-3Ј, showed Chi activity. As in E. coli, the H. influenzae Chi sites are frequent on the genome, which is in keeping with the need for frequent Chi sites for dsDNA break repair of chromosomal DNA. Although statistically over-represented, this feature is less marked than that of the E. coli Chi site. In contrast to E. coli, the H. influenzae Chi motifs are only slightly oriented with respect to the replication strand. Thus, although Chi appears to have a highly conserved biological role in attenuating exonuclease activity, its sequence characteristics and statistical representation on the genome may differ according to the particular features of the host.

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