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Items: 20

1.

RegA Plays a Key Role in Oxygen-Dependent Establishment of Persistence and in Isocitrate Lyase Activity, a Critical Determinant of In vivo Brucella suis Pathogenicity.

Abdou E, Jiménez de Bagüés MP, Martínez-Abadía I, Ouahrani-Bettache S, Pantesco V, Occhialini A, Al Dahouk S, Köhler S, Jubier-Maurin V.

Front Cell Infect Microbiol. 2017 May 18;7:186. doi: 10.3389/fcimb.2017.00186. eCollection 2017.

2.

Quantitative analysis of the Brucella suis proteome reveals metabolic adaptation to long-term nutrient starvation.

Al Dahouk S, Jubier-Maurin V, Neubauer H, Köhler S.

BMC Microbiol. 2013 Sep 4;13:199. doi: 10.1186/1471-2180-13-199.

3.

RegA, the regulator of the two-component system RegB/RegA of Brucella suis, is a controller of both oxidative respiration and denitrification required for chronic infection in mice.

Abdou E, Deredjian A, Jiménez de Bagüés MP, Köhler S, Jubier-Maurin V.

Infect Immun. 2013 Jun;81(6):2053-61. doi: 10.1128/IAI.00063-13. Epub 2013 Mar 25.

4.

Proteomic analysis of Brucella suis under oxygen deficiency reveals flexibility in adaptive expression of various pathways.

Al Dahouk S, Loisel-Meyer S, Scholz HC, Tomaso H, Kersten M, Harder A, Neubauer H, Köhler S, Jubier-Maurin V.

Proteomics. 2009 Jun;9(11):3011-21. doi: 10.1002/pmic.200800266.

PMID:
19526545
5.

Quantitative analysis of the intramacrophagic Brucella suis proteome reveals metabolic adaptation to late stage of cellular infection.

Al Dahouk S, Jubier-Maurin V, Scholz HC, Tomaso H, Karges W, Neubauer H, Köhler S.

Proteomics. 2008 Sep;8(18):3862-70. doi: 10.1002/pmic.200800026.

PMID:
18704908
6.

Identification and isolation of Brucella suis virulence genes involved in resistance to the human innate immune system.

Liautard J, Ouahrani-Bettache S, Jubier-Maurin V, Lafont V, Köhler S, Liautard JP.

Infect Immun. 2007 Nov;75(11):5167-74. Epub 2007 Aug 20.

7.

Different roles of the two high-oxygen-affinity terminal oxidases of Brucella suis: Cytochrome c oxidase, but not ubiquinol oxidase, is required for persistence in mice.

Jiménez de Bagüés MP, Loisel-Meyer S, Liautard JP, Jubier-Maurin V.

Infect Immun. 2007 Jan;75(1):531-5. Epub 2006 Nov 13.

8.

Requirement of norD for Brucella suis virulence in a murine model of in vitro and in vivo infection.

Loisel-Meyer S, Jiménez de Bagüés MP, Bassères E, Dornand J, Köhler S, Liautard JP, Jubier-Maurin V.

Infect Immun. 2006 Mar;74(3):1973-6.

9.

Antimicrobials: targeting virulence genes necessary for intracellular multiplication.

Liautard JP, Jubier-Maurin V, Boigegrain RA, Köhler S.

Trends Microbiol. 2006 Mar;14(3):109-13. Epub 2006 Feb 15.

PMID:
16469497
10.

Differential use of the two high-oxygen-affinity terminal oxidases of Brucella suis for in vitro and intramacrophagic multiplication.

Loisel-Meyer S, Jiménez de Bagüés MP, Köhler S, Liautard JP, Jubier-Maurin V.

Infect Immun. 2005 Nov;73(11):7768-71.

11.

The intramacrophagic environment of Brucella suis and bacterial response.

Köhler S, Porte F, Jubier-Maurin V, Ouahrani-Bettache S, Teyssier J, Liautard JP.

Vet Microbiol. 2002 Dec 20;90(1-4):299-309.

PMID:
12414150
12.

Major outer membrane protein Omp25 of Brucella suis is involved in inhibition of tumor necrosis factor alpha production during infection of human macrophages.

Jubier-Maurin V, Boigegrain RA, Cloeckaert A, Gross A, Alvarez-Martinez MT, Terraza A, Liautard J, Köhler S, Rouot B, Dornand J, Liautard JP.

Infect Immun. 2001 Aug;69(8):4823-30.

13.

Identification of the nik gene cluster of Brucella suis: regulation and contribution to urease activity.

Jubier-Maurin V, Rodrigue A, Ouahrani-Bettache S, Layssac M, Mandrand-Berthelot MA, Köhler S, Liautard JP.

J Bacteriol. 2001 Jan;183(2):426-34.

14.

Genetic characterization of the nef gene from human immunodeficiency virus type 1 group M strains representing genetic subtypes A, B, C, E, F, G, and H.

Jubier-Maurin V, Saragosti S, Perret JL, Mpoudi E, Esu-Williams E, Mulanga C, Liegeois F, Ekwalanga M, Delaporte E, Peeters M.

AIDS Res Hum Retroviruses. 1999 Jan 1;15(1):23-32.

PMID:
10024049
15.

Regulatory genes of simian immunodeficiency viruses from west African green monkeys (Cercopithecus aethiops sabaeus).

Jubier-Maurin V, Sarni-Manchado P, Veas F, Vidal N, Bibollet-Ruche F, Durand JP, Galat-Luong A, Cuny G.

J Virol. 1995 Nov;69(11):7349-53.

16.

A new 5' sequence associated with mouse L1 elements is representative of a major class of L1 termini.

Jubier-Maurin V, Cuny G, Laurent AM, Paquereau L, Roizes G.

Mol Biol Evol. 1992 Jan;9(1):41-55.

PMID:
1552840
17.

Unrelated sequences at the 5' end of mouse LINE-1 repeated elements define two distinct subfamilies.

Wincker P, Jubier-Maurin V, Roizès G.

Nucleic Acids Res. 1987 Nov 11;15(21):8593-606.

18.

The relationships between the 5' end repeats and the largest members of the L1 interspersed repeated family in the mouse genome.

Jubier-Maurin V, Wincker P, Cuny G, Roizès G.

Nucleic Acids Res. 1987 Sep 25;15(18):7395-410.

19.

Distributions of two recently inserted long interspersed elements of the L1 repetitive family at the Alb and beta h3 loci in wild mice populations.

Bellis M, Jubier-Maurin V, Dod B, Vanlerberghe F, Laurent AM, Senglat C, Bonhomme F, Roizès G.

Mol Biol Evol. 1987 Jul;4(4):351-63.

PMID:
2833674
20.

Comparative study of the L1 family in the genus Mus. Possible role of retroposition and conversion events in its concerted evolution.

Jubier-Maurin V, Dod BJ, Bellis M, Piechaczyk M, Roizes G.

J Mol Biol. 1985 Aug 20;184(4):547-64.

PMID:
2995682

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