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Items: 36

1.

Cytosolic and Secreted Peptidoglycan-Degrading Enzymes in Drosophila Respectively Control Local and Systemic Immune Responses to Microbiota.

Charroux B, Capo F, Kurz CL, Peslier S, Chaduli D, Viallat-Lieutaud A, Royet J.

Cell Host Microbe. 2018 Feb 14;23(2):215-228.e4. doi: 10.1016/j.chom.2017.12.007. Epub 2018 Feb 1.

2.

Oligopeptide Transporters of the SLC15 Family Are Dispensable for Peptidoglycan Sensing and Transport in Drosophila.

Capo F, Chaduli D, Viallat-Lieutaud A, Charroux B, Royet J.

J Innate Immun. 2017;9(5):483-492. doi: 10.1159/000475771. Epub 2017 Jul 18.

3.

Peptidoglycan sensing by octopaminergic neurons modulates Drosophila oviposition.

Kurz CL, Charroux B, Chaduli D, Viallat-Lieutaud A, Royet J.

Elife. 2017 Mar 7;6. pii: e21937. doi: 10.7554/eLife.21937.

4.

Inhibition of a NF-κB/Diap1 Pathway by PGRP-LF Is Required for Proper Apoptosis during Drosophila Development.

Tavignot R, Chaduli D, Djitte F, Charroux B, Royet J.

PLoS Genet. 2017 Jan 13;13(1):e1006569. doi: 10.1371/journal.pgen.1006569. eCollection 2017 Jan.

5.

Bacteria sensing mechanisms in Drosophila gut: Local and systemic consequences.

Capo F, Charroux B, Royet J.

Dev Comp Immunol. 2016 Nov;64:11-21. doi: 10.1016/j.dci.2016.01.001. Epub 2016 Jan 8. Review.

PMID:
26778296
6.

Tissue-Specific Regulation of Drosophila NF-x03BA;B Pathway Activation by Peptidoglycan Recognition Protein SC.

Costechareyre D, Capo F, Fabre A, Chaduli D, Kellenberger C, Roussel A, Charroux B, Royet J.

J Innate Immun. 2016;8(1):67-80. doi: 10.1159/000437368. Epub 2015 Oct 30.

8.

Mechanisms and consequence of bacteria detection by the Drosophila gut epithelium.

Royet J, Charroux B.

Gut Microbes. 2013 May-Jun;4(3):259-63. doi: 10.4161/gmic.24386. Epub 2013 Apr 12.

9.

Peptidoglycan sensing by the receptor PGRP-LE in the Drosophila gut induces immune responses to infectious bacteria and tolerance to microbiota.

Bosco-Drayon V, Poidevin M, Boneca IG, Narbonne-Reveau K, Royet J, Charroux B.

Cell Host Microbe. 2012 Aug 16;12(2):153-65. doi: 10.1016/j.chom.2012.06.002.

10.

SKIV2L mutations cause syndromic diarrhea, or trichohepatoenteric syndrome.

Fabre A, Charroux B, Martinez-Vinson C, Roquelaure B, Odul E, Sayar E, Smith H, Colomb V, Andre N, Hugot JP, Goulet O, Lacoste C, Sarles J, Royet J, Levy N, Badens C.

Am J Hum Genet. 2012 Apr 6;90(4):689-92. doi: 10.1016/j.ajhg.2012.02.009. Epub 2012 Mar 22.

11.

Gut-microbiota interactions in non-mammals: what can we learn from Drosophila?

Charroux B, Royet J.

Semin Immunol. 2012 Feb;24(1):17-24. doi: 10.1016/j.smim.2011.11.003. Epub 2012 Jan 28. Review.

PMID:
22284578
12.

Toll-8/Tollo negatively regulates antimicrobial response in the Drosophila respiratory epithelium.

Akhouayri I, Turc C, Royet J, Charroux B.

PLoS Pathog. 2011 Oct;7(10):e1002319. doi: 10.1371/journal.ppat.1002319. Epub 2011 Oct 13.

13.

Lack of an antibacterial response defect in Drosophila Toll-9 mutant.

Narbonne-Reveau K, Charroux B, Royet J.

PLoS One. 2011 Feb 28;6(2):e17470. doi: 10.1371/journal.pone.0017470.

14.

Polyglutamine Atrophin provokes neurodegeneration in Drosophila by repressing fat.

Napoletano F, Occhi S, Calamita P, Volpi V, Blanc E, Charroux B, Royet J, Fanto M.

EMBO J. 2011 Mar 2;30(5):945-58. doi: 10.1038/emboj.2011.1. Epub 2011 Jan 28.

15.
16.
17.

Neurodegeneration by polyglutamine Atrophin is not rescued by induction of autophagy.

Nisoli I, Chauvin JP, Napoletano F, Calamita P, Zanin V, Fanto M, Charroux B.

Cell Death Differ. 2010 Oct;17(10):1577-87. doi: 10.1038/cdd.2010.31. Epub 2010 Mar 26.

18.

Elimination of plasmatocytes by targeted apoptosis reveals their role in multiple aspects of the Drosophila immune response.

Charroux B, Royet J.

Proc Natl Acad Sci U S A. 2009 Jun 16;106(24):9797-802. doi: 10.1073/pnas.0903971106. Epub 2009 May 29.

19.

Bacterial detection by Drosophila peptidoglycan recognition proteins.

Charroux B, Rival T, Narbonne-Reveau K, Royet J.

Microbes Infect. 2009 May-Jun;11(6-7):631-6. doi: 10.1016/j.micinf.2009.03.004. Epub 2009 Apr 1. Review.

PMID:
19344780
20.

Atrophin recruits HDAC1/2 and G9a to modify histone H3K9 and to determine cell fates.

Wang L, Charroux B, Kerridge S, Tsai CC.

EMBO Rep. 2008 Jun;9(6):555-62. doi: 10.1038/embor.2008.67. Epub 2008 May 2.

21.

Common functions of central and posterior Hox genes for the repression of head in the trunk of Drosophila.

Coiffier D, Charroux B, Kerridge S.

Development. 2008 Jan;135(2):291-300. Epub 2007 Dec 12.

22.

Atrophin contributes to the negative regulation of epidermal growth factor receptor signaling in Drosophila.

Charroux B, Freeman M, Kerridge S, Baonza A.

Dev Biol. 2006 Mar 15;291(2):278-90. Epub 2006 Jan 27.

23.

The tumor-suppressor and cell adhesion molecule Fat controls planar polarity via physical interactions with Atrophin, a transcriptional co-repressor.

Fanto M, Clayton L, Meredith J, Hardiman K, Charroux B, Kerridge S, McNeill H.

Development. 2003 Feb;130(4):763-74.

24.

miRNPs: a novel class of ribonucleoproteins containing numerous microRNAs.

Mourelatos Z, Dostie J, Paushkin S, Sharma A, Charroux B, Abel L, Rappsilber J, Mann M, Dreyfuss G.

Genes Dev. 2002 Mar 15;16(6):720-8.

25.

Grunge, related to human Atrophin-like proteins, has multiple functions in Drosophila development.

Erkner A, Roure A, Charroux B, Delaage M, Holway N, Coré N, Vola C, Angelats C, Pagès F, Fasano L, Kerridge S.

Development. 2002 Mar;129(5):1119-29.

26.

The survival of motor neurons (SMN) protein interacts with the snoRNP proteins fibrillarin and GAR1.

Pellizzoni L, Baccon J, Charroux B, Dreyfuss G.

Curr Biol. 2001 Jul 24;11(14):1079-88.

27.

A functional interaction between the survival motor neuron complex and RNA polymerase II.

Pellizzoni L, Charroux B, Rappsilber J, Mann M, Dreyfuss G.

J Cell Biol. 2001 Jan 8;152(1):75-85.

28.

The survival motor neuron protein of Schizosacharomyces pombe. Conservation of survival motor neuron interaction domains in divergent organisms.

Paushkin S, Charroux B, Abel L, Perkinson RA, Pellizzoni L, Dreyfuss G.

J Biol Chem. 2000 Aug 4;275(31):23841-6.

29.

Gemin4. A novel component of the SMN complex that is found in both gems and nucleoli.

Charroux B, Pellizzoni L, Perkinson RA, Yong J, Shevchenko A, Mann M, Dreyfuss G.

J Cell Biol. 2000 Mar 20;148(6):1177-86.

30.

Gemin3: A novel DEAD box protein that interacts with SMN, the spinal muscular atrophy gene product, and is a component of gems.

Charroux B, Pellizzoni L, Perkinson RA, Shevchenko A, Mann M, Dreyfuss G.

J Cell Biol. 1999 Dec 13;147(6):1181-94.

31.
32.

SMN mutants of spinal muscular atrophy patients are defective in binding to snRNP proteins.

Pellizzoni L, Charroux B, Dreyfuss G.

Proc Natl Acad Sci U S A. 1999 Sep 28;96(20):11167-72.

33.

The C-terminal domain of armadillo binds to hypophosphorylated teashirt to modulate wingless signalling in Drosophila.

Gallet A, Angelats C, Erkner A, Charroux B, Fasano L, Kerridge S.

EMBO J. 1999 Apr 15;18(8):2208-17.

34.

A novel function for SMN, the spinal muscular atrophy disease gene product, in pre-mRNA splicing.

Pellizzoni L, Kataoka N, Charroux B, Dreyfuss G.

Cell. 1998 Nov 25;95(5):615-24.

35.

Trunk-specific modulation of wingless signalling in Drosophila by teashirt binding to armadillo.

Gallet A, Erkner A, Charroux B, Fasano L, Kerridge S.

Curr Biol. 1998 Jul 30-Aug 13;8(16):893-902.

36.

Transcriptional regulation of the Drosophila homeotic gene teashirt by the homeodomain protein Fushi tarazu.

Coré N, Charroux B, McCormick A, Vola C, Fasano L, Scott MP, Kerridge S.

Mech Dev. 1997 Nov;68(1-2):157-72.

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