Clementine Dressaire
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Explore the profile of Clementine Dressaire including associated specialties, affiliations and a list of published articles.
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15
Citations
422
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Recent Articles
1.
Dressaire C, Pobre V, Laguerre S, Girbal L, Arraiano C, Cocaign-Bousquet M
BMC Genomics
. 2018 Nov;
19(1):848.
PMID: 30486791
Background: Exoribonucleases are crucial for RNA degradation in Escherichia coli but the roles of RNase R and PNPase and their potential overlap in stationary phase are not well characterized. Here,...
2.
Trichez D, Auriol C, Baylac A, Irague R, Dressaire C, Carnicer-Heras M, et al.
Microb Cell Fact
. 2018 Jul;
17(1):113.
PMID: 30012131
Background: Malate is a C4-dicarboxylic acid widely used as an acidulant in the food and beverage industry. Rational engineering has been performed in the past for the development of microbial...
3.
Walther T, Calvayrac F, Malbert Y, Alkim C, Dressaire C, Cordier H, et al.
Metab Eng
. 2017 Dec;
45:237-245.
PMID: 29248755
2,4-dihydroxybutyrate (DHB) is a precursor for the chemical synthesis of the methionine analogue 2-hydroxy-4-(methylthio)butyrate. Since no annotated metabolic pathway exists for its microbial production from sugar, we have conceived a...
4.
Moreira R, Dressaire C, Barahona S, Galego L, Kaever V, Jenal U, et al.
mBio
. 2017 Sep;
8(5).
PMID: 28928205
The bacterial second messenger cyclic dimeric GMP (c-di-GMP) is a nearly ubiquitous intracellular signaling molecule involved in the transition from the motile to the sessile/biofilm state in bacteria. C-di-GMP regulates...
5.
Walther T, Topham C, Irague R, Auriol C, Baylac A, Cordier H, et al.
Nat Commun
. 2017 Jun;
8:15828.
PMID: 28631755
2,4-Dihydroxybutyric acid (DHB) is a molecule with considerable potential as a versatile chemical synthon. Notably, it may serve as a precursor for chemical synthesis of the methionine analogue 2-hydroxy-4-(methylthio)butyrate, thus,...
6.
Dressaire C, Moreira R, Barahona S, Alves de Matos A, Arraiano C
mBio
. 2015 Feb;
6(1):e02352-14.
PMID: 25691594
Unlabelled: Bacteria are extremely versatile organisms that rapidly adapt to changing environments. When bacterial cells switch from planktonic growth to biofilm, flagellum formation is turned off and the production of...
7.
Dressaire C, Picard F, Redon E, Loubiere P, Queinnec I, Girbal L, et al.
PLoS One
. 2013 Mar;
8(3):e59059.
PMID: 23516597
Bacterial adaptation involves extensive cellular reorganization. In particular, growth rate adjustments are associated with substantial modifications of gene expression and mRNA abundance. In this work we aimed to assess the...
8.
Malecki M, Viegas S, Carneiro T, Golik P, Dressaire C, Ferreira M, et al.
EMBO J
. 2013 Mar;
32(13):1842-54.
PMID: 23503588
The final step of cytoplasmic mRNA degradation proceeds in either a 5'-3' direction catalysed by Xrn1 or in a 3'-5' direction catalysed by the exosome. Dis3/Rrp44, an RNase II family...
9.
Dressaire C, Redon E, Gitton C, Loubiere P, Monnet V, Cocaign-Bousquet M
Microb Cell Fact
. 2011 Oct;
10 Suppl 1:S18.
PMID: 21995707
Background: Amino acid assimilation is crucial for bacteria and this is particularly true for Lactic Acid Bacteria (LAB) that are generally auxotroph for amino acids. The global response of the...
10.
Silva I, Saramago M, Dressaire C, Domingues S, Viegas S, Arraiano C
Wiley Interdiscip Rev RNA
. 2011 Oct;
2(6):818-36.
PMID: 21976285
RNAs are important effectors in the process of gene expression. In bacteria, constant adaptation to environmental demands is accompanied by a continual adjustment of transcripts' levels. The cellular concentration of...