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Items: 14

1.

Genetic Basis of Exploiting Ecological Opportunity During the Long-Term Diversification of a Bacterial Population.

Consuegra J, Plucain J, Gaffé J, Hindré T, Schneider D.

J Mol Evol. 2017 Aug;85(1-2):26-36. doi: 10.1007/s00239-017-9802-z. Epub 2017 Jul 25.

PMID:
28744786
2.

Metabolic modelling in a dynamic evolutionary framework predicts adaptive diversification of bacteria in a long-term evolution experiment.

Großkopf T, Consuegra J, Gaffé J, Willison JC, Lenski RE, Soyer OS, Schneider D.

BMC Evol Biol. 2016 Aug 20;16(1):163. doi: 10.1186/s12862-016-0733-x.

3.

Large chromosomal rearrangements during a long-term evolution experiment with Escherichia coli.

Raeside C, Gaffé J, Deatherage DE, Tenaillon O, Briska AM, Ptashkin RN, Cruveiller S, Médigue C, Lenski RE, Barrick JE, Schneider D.

mBio. 2014 Sep 9;5(5):e01377-14. doi: 10.1128/mBio.01377-14.

4.

A case of adaptation through a mutation in a tandem duplication during experimental evolution in Escherichia coli.

Maharjan RP, Gaffé J, Plucain J, Schliep M, Wang L, Feng L, Tenaillon O, Ferenci T, Schneider D.

BMC Genomics. 2013 Jul 3;14:441. doi: 10.1186/1471-2164-14-441.

5.

Insertion sequence-driven evolution of Escherichia coli in chemostats.

Gaffé J, McKenzie C, Maharjan RP, Coursange E, Ferenci T, Schneider D.

J Mol Evol. 2011 Apr;72(4):398-412. doi: 10.1007/s00239-011-9439-2. Epub 2011 Mar 12.

PMID:
21399911
6.

Identification of three tomato flower and fruit MADS-box proteins with a putative histone deacetylase binding domain.

Gaffe J, Lemercier C, Alcaraz JP, Kuntz M.

Gene. 2011 Jan 15;471(1-2):19-26. doi: 10.1016/j.gene.2010.10.002. Epub 2010 Oct 12.

PMID:
20946942
7.

Genomic identification of a novel mutation in hfq that provides multiple benefits in evolving glucose-limited populations of Escherichia coli.

Maharjan R, Zhou Z, Ren Y, Li Y, Gaffé J, Schneider D, McKenzie C, Reeves PR, Ferenci T, Wang L.

J Bacteriol. 2010 Sep;192(17):4517-21. doi: 10.1128/JB.00368-10. Epub 2010 Jun 11.

8.

Parallel genetic and phenotypic evolution of DNA superhelicity in experimental populations of Escherichia coli.

Crozat E, Winkworth C, Gaffé J, Hallin PF, Riley MA, Lenski RE, Schneider D.

Mol Biol Evol. 2010 Sep;27(9):2113-28. doi: 10.1093/molbev/msq099. Epub 2010 Apr 14.

PMID:
20392810
9.

Plant lipid-associated fibrillin proteins condition jasmonate production under photosynthetic stress.

Youssef A, Laizet Y, Block MA, Maréchal E, Alcaraz JP, Larson TR, Pontier D, Gaffé J, Kuntz M.

Plant J. 2010 Feb 1;61(3):436-45. doi: 10.1111/j.1365-313X.2009.04067.x. Epub 2009 Nov 3.

10.

Fibrillin influence on plastid ultrastructure and pigment content in tomato fruit.

Simkin AJ, Gaffé J, Alcaraz JP, Carde JP, Bramley PM, Fraser PD, Kuntz M.

Phytochemistry. 2007 Jun;68(11):1545-56. Epub 2007 Apr 26.

PMID:
17466343
11.

A plastid terminal oxidase associated with carotenoid desaturation during chromoplast differentiation.

Josse EM, Simkin AJ, Gaffé J, Labouré AM, Kuntz M, Carol P.

Plant Physiol. 2000 Aug;123(4):1427-36.

12.

LEFPS1, a tomato farnesyl pyrophosphate gene highly expressed during early fruit development.

Gaffe J, Bru JP, Causse M, Vidal A, Stamitti-Bert L, Carde JP, Gallusci P.

Plant Physiol. 2000 Aug;123(4):1351-62.

13.

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