Benedicte Michel
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Explore the profile of Benedicte Michel including associated specialties, affiliations and a list of published articles.
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40
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1707
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Recent Articles
31.
Flores M, Bidnenko V, Michel B
EMBO Rep
. 2004 Sep;
5(10):983-8.
PMID: 15375374
Replication forks arrested by inactivation of the main Escherichia coli DNA polymerase (polymerase III) are reversed by the annealing of newly synthesized leading- and lagging-strand ends. Reversed forks are reset...
32.
Michel B, Grompone G, Flores M, Bidnenko V
Proc Natl Acad Sci U S A
. 2004 Aug;
101(35):12783-8.
PMID: 15328417
Impairment of replication fork progression is a serious threat to living organisms and a potential source of genome instability. Studies in prokaryotes have provided evidence that inactivated replication forks can...
33.
Grompone G, Ehrlich D, Michel B
EMBO Rep
. 2004 May;
5(6):607-12.
PMID: 15167889
We have studied the fate of blocked replication forks with the use of the Escherichia coli priA mutant, in which spontaneously arrested replication forks persist owing to the lack of...
34.
Grompone G, Sanchez N, Ehrlich S, Michel B
Mol Microbiol
. 2004 Apr;
52(2):551-62.
PMID: 15066040
Restart of arrested replication forks is an important process and PriA, the main Escherichia coli replication restart protein, is essential for viability under any condition that increases the frequency of...
35.
Grompone G, Bidnenko V, Ehrlich S, Michel B
J Bacteriol
. 2004 Feb;
186(4):1197-9.
PMID: 14762016
The parE10(Ts) mutation, which renders Escherichia coli thermosensitive for growth by inactivation of the essential E. coli topoisomerase topo IV, is lethal at all temperatures when PriA, the main replication...
36.
Viguera E, Petranovic M, Zahradka D, Germain K, Ehrlich D, Michel B
Mol Microbiol
. 2003 Sep;
50(1):193-204.
PMID: 14507374
Escherichia coli DNA polymerase III (Pol III) is one of the best studied replicative DNA polymerases. Here we report the properties of an E. coli mutant that lacks one of...
37.
Grompone G, Ehrlich S, Michel B
Mol Microbiol
. 2003 Apr;
48(3):845-54.
PMID: 12694626
Gyrase is an essential topoisomerase in bacteria that introduces negative supercoils in DNA and relaxes the positive supercoils that form downstream of proteins tracking on DNA, such as DNA or...
38.
Bidnenko V, Ehrlich S, Michel B
EMBO J
. 2002 Jul;
21(14):3898-907.
PMID: 12110601
Replication fork arrest is a source of genome re arrangements, and the recombinogenic properties of blocked forks are likely to depend on the cause of blockage. Here we study the...
39.
Grompone G, Seigneur M, Ehrlich S, Michel B
Mol Microbiol
. 2002 May;
44(5):1331-9.
PMID: 12028381
Certain replication mutations lead in Escherichia coli to a specific reaction named replication fork reversal: at blocked forks, annealing of the nascent strands and pairing of the template strands form...
40.
Flores M, Ehrlich S, Michel B
Mol Microbiol
. 2002 May;
44(3):783-92.
PMID: 11994158
In this report, we study the role of pre-primosome proteins in a strain in which the frequency of replication arrest is increased because of a mutation in a replication protein....