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Items: 1 to 50 of 61

1.

Mechanisms of bacillary dysentery: lessons learnt from infant rabbits.

Yum LK, Agaisse H.

Gut Microbes. 2019 Oct 1:1-6. doi: 10.1080/19490976.2019.1667726. [Epub ahead of print]

PMID:
31570038
2.

Evolutionary Perspectives on the Moonlighting Functions of Bacterial Factors That Support Actin-Based Motility.

Köseoğlu VK, Agaisse H.

mBio. 2019 Aug 27;10(4). pii: e01520-19. doi: 10.1128/mBio.01520-19.

3.

WIPF2 promotes Shigella flexneri actin-based motility and cell-to-cell spread.

Michard C, Yum LK, Agaisse H.

Cell Microbiol. 2019 Dec;21(12):e13098. doi: 10.1111/cmi.13098. Epub 2019 Aug 26.

PMID:
31414511
4.

Critical role of bacterial dissemination in an infant rabbit model of bacillary dysentery.

Yum LK, Byndloss MX, Feldman SH, Agaisse H.

Nat Commun. 2019 Apr 23;10(1):1826. doi: 10.1038/s41467-019-09808-4.

5.

The Autotransporter IcsA Promotes Shigella flexneri Biofilm Formation in the Presence of Bile Salts.

Köseoğlu VK, Hall CP, Rodríguez-López EM, Agaisse H.

Infect Immun. 2019 Jun 20;87(7). pii: e00861-18. doi: 10.1128/IAI.00861-18. Print 2019 Jul.

6.

A murine model of diarrhea, growth impairment and metabolic disturbances with Shigella flexneri infection and the role of zinc deficiency.

Q S Medeiros PH, Ledwaba SE, Bolick DT, Giallourou N, Yum LK, Costa DVS, Oriá RB, Barry EM, Swann JR, Lima AÂM, Agaisse H, Guerrant RL.

Gut Microbes. 2019;10(5):615-630. doi: 10.1080/19490976.2018.1564430. Epub 2019 Feb 3.

7.

Principles of intracellular bacterial pathogen spread from cell to cell.

Weddle E, Agaisse H.

PLoS Pathog. 2018 Dec 13;14(12):e1007380. doi: 10.1371/journal.ppat.1007380. eCollection 2018 Dec. Review. No abstract available.

8.

Spatial, Temporal, and Functional Assessment of LC3-Dependent Autophagy in Shigella flexneri Dissemination.

Weddle E, Agaisse H.

Infect Immun. 2018 Jul 23;86(8). pii: e00134-18. doi: 10.1128/IAI.00134-18. Print 2018 Aug.

9.

The Ethanolamine Permease EutH Promotes Vacuole Adaptation of Salmonella enterica and Listeria monocytogenes during Macrophage Infection.

Anderson CJ, Satkovich J, Köseoğlu VK, Agaisse H, Kendall MM.

Infect Immun. 2018 Apr 23;86(5). pii: e00172-18. doi: 10.1128/IAI.00172-18. Print 2018 May.

10.

Cardiolipin Synthesis and Outer Membrane Localization Are Required for Shigella flexneri Virulence.

Rossi RM, Yum L, Agaisse H, Payne SM.

mBio. 2017 Aug 29;8(4). pii: e01199-17. doi: 10.1128/mBio.01199-17.

11.

The Metalloprotease Mpl Supports Listeria monocytogenes Dissemination through Resolution of Membrane Protrusions into Vacuoles.

Alvarez DE, Agaisse H.

Infect Immun. 2016 May 24;84(6):1806-1814. doi: 10.1128/IAI.00130-16. Print 2016 Jun.

12.

Molecular and Cellular Mechanisms of Shigella flexneri Dissemination.

Agaisse H.

Front Cell Infect Microbiol. 2016 Mar 11;6:29. doi: 10.3389/fcimb.2016.00029. eCollection 2016. Review.

13.

Integration of linear and dendritic actin nucleation in Nck-induced actin comets.

Borinskaya S, Velle KB, Campellone KG, Talman A, Alvarez D, Agaisse H, Wu YI, Loew LM, Mayer BJ.

Mol Biol Cell. 2016 Jan 15;27(2):247-59. doi: 10.1091/mbc.E14-11-1555. Epub 2015 Nov 25.

14.

A role for the small GTPase Rac1 in vaccinia actin-based motility.

Alvarez DE, Agaisse H.

Small GTPases. 2015;6(2):119-22. doi: 10.1080/21541248.2015.1055182. Review.

15.

Bacterial spread from cell to cell: beyond actin-based motility.

Kuehl CJ, Dragoi AM, Talman A, Agaisse H.

Trends Microbiol. 2015 Sep;23(9):558-66. doi: 10.1016/j.tim.2015.04.010. Epub 2015 May 25. Review.

16.

Shigella flexneri serotype 3a: the rise of a superbug.

Agaisse H.

Lancet Infect Dis. 2015 Aug;15(8):867-8. doi: 10.1016/S1473-3099(15)00003-1. Epub 2015 Apr 27. No abstract available.

17.

STIM1 Is a Novel Component of ER-Chlamydia trachomatis Inclusion Membrane Contact Sites.

Agaisse H, Derré I.

PLoS One. 2015 Apr 27;10(4):e0125671. doi: 10.1371/journal.pone.0125671. eCollection 2015.

18.
19.

A role for the small GTPase Rac1 in vaccinia actin-based motility.

Alvarez DE, Agaisse H.

Small GTPases. 2014;5(2):e29038. doi: 10.4161/sgtp.29038. Epub 2014 Oct 31.

20.

The Shigella flexneri type 3 secretion system is required for tyrosine kinase-dependent protrusion resolution, and vacuole escape during bacterial dissemination.

Kuehl CJ, Dragoi AM, Agaisse H.

PLoS One. 2014 Nov 18;9(11):e112738. doi: 10.1371/journal.pone.0112738. eCollection 2014.

21.

Antivirulence properties of an antifreeze protein.

Heisig M, Abraham NM, Liu L, Neelakanta G, Mattessich S, Sultana H, Shang Z, Ansari JM, Killiam C, Walker W, Cooley L, Flavell RA, Agaisse H, Fikrig E.

Cell Rep. 2014 Oct 23;9(2):417-24. doi: 10.1016/j.celrep.2014.09.034. Epub 2014 Oct 16. Erratum in: Cell Rep. 2014 Dec 24;9(6):2344.

22.
23.

Novel strategies to enforce an epithelial phenotype in mesenchymal cells.

Dragoi AM, Swiss R, Gao B, Agaisse H.

Cancer Res. 2014 Jul 15;74(14):3659-72. doi: 10.1158/0008-5472.CAN-13-3231. Epub 2014 May 20.

24.

Tyrosine kinases, drugs, and Shigella flexneri dissemination.

Dragoi AM, Agaisse H.

Gut Microbes. 2014 Jan-Feb;5(1):44-7. doi: 10.4161/gmic.26523. Epub 2013 Sep 19.

26.

Actin network disassembly powers dissemination of Listeria monocytogenes.

Talman AM, Chong R, Chia J, Svitkina T, Agaisse H.

J Cell Sci. 2014 Jan 1;127(Pt 1):240-9. doi: 10.1242/jcs.140038. Epub 2013 Oct 23.

27.

The formin FHOD1 and the small GTPase Rac1 promote vaccinia virus actin-based motility.

Alvarez DE, Agaisse H.

J Cell Biol. 2013 Sep 30;202(7):1075-90. doi: 10.1083/jcb.201303055. Epub 2013 Sep 23.

28.
29.

Host pathways important for Coxiella burnetii infection revealed by genome-wide RNA interference screening.

McDonough JA, Newton HJ, Klum S, Swiss R, Agaisse H, Roy CR.

mBio. 2013 Jan 29;4(1):e00606-12. doi: 10.1128/mBio.00606-12.

30.

Bruton's tyrosine kinase regulates Shigella flexneri dissemination in HT-29 intestinal cells.

Dragoi AM, Talman AM, Agaisse H.

Infect Immun. 2013 Feb;81(2):598-607. doi: 10.1128/IAI.00853-12. Epub 2012 Dec 10.

31.

The UPD3 cytokine couples environmental challenge and intestinal stem cell division through modulation of JAK/STAT signaling in the stem cell microenvironment.

Zhou F, Rasmussen A, Lee S, Agaisse H.

Dev Biol. 2013 Jan 15;373(2):383-93. doi: 10.1016/j.ydbio.2012.10.023. Epub 2012 Oct 27.

32.

Casein kinase 2 regulates vaccinia virus actin tail formation.

Alvarez DE, Agaisse H.

Virology. 2012 Feb 20;423(2):143-51. doi: 10.1016/j.virol.2011.12.003. Epub 2011 Dec 29.

33.

RNAi screen reveals host cell kinases specifically involved in Listeria monocytogenes spread from cell to cell.

Chong R, Squires R, Swiss R, Agaisse H.

PLoS One. 2011;6(8):e23399. doi: 10.1371/journal.pone.0023399. Epub 2011 Aug 10.

34.

The lipid transfer protein CERT interacts with the Chlamydia inclusion protein IncD and participates to ER-Chlamydia inclusion membrane contact sites.

Derré I, Swiss R, Agaisse H.

PLoS Pathog. 2011 Jun;7(6):e1002092. doi: 10.1371/journal.ppat.1002092. Epub 2011 Jun 23.

35.

Regulatory mimicry in Listeria monocytogenes actin-based motility.

Chong R, Swiss R, Briones G, Stone KL, Gulcicek EE, Agaisse H.

Cell Host Microbe. 2009 Sep 17;6(3):268-78. doi: 10.1016/j.chom.2009.08.006.

36.

RNA interference screen for human genes associated with West Nile virus infection.

Krishnan MN, Ng A, Sukumaran B, Gilfoy FD, Uchil PD, Sultana H, Brass AL, Adametz R, Tsui M, Qian F, Montgomery RR, Lev S, Mason PW, Koski RA, Elledge SJ, Xavier RJ, Agaisse H, Fikrig E.

Nature. 2008 Sep 11;455(7210):242-5. doi: 10.1038/nature07207.

37.

Investigating the involvement of host factors involved in intracellular pathogen infection by RNAi in Drosophila cells.

Agaisse H.

Methods Mol Biol. 2008;415:395-402. doi: 10.1007/978-1-59745-570-1_23.

PMID:
18370167
38.

An adaptive immune response in Drosophila?

Agaisse H.

Cell Host Microbe. 2007 Apr 19;1(2):91-3.

39.

RNAi screen in Drosophila cells reveals the involvement of the Tom complex in Chlamydia infection.

Derré I, Pypaert M, Dautry-Varsat A, Agaisse H.

PLoS Pathog. 2007 Oct 26;3(10):1446-58.

40.

Rab 5 is required for the cellular entry of dengue and West Nile viruses.

Krishnan MN, Sukumaran B, Pal U, Agaisse H, Murray JL, Hodge TW, Fikrig E.

J Virol. 2007 May;81(9):4881-5. Epub 2007 Feb 14.

41.

Self-control in DNA site-specific recombination mediated by the tyrosine recombinase TnpI.

Vanhooff V, Galloy C, Agaisse H, Lereclus D, Révet B, Hallet B.

Mol Microbiol. 2006 May;60(3):617-29.

42.

Genome-wide RNAi screen for host factors required for intracellular bacterial infection.

Agaisse H, Burrack LS, Philips JA, Rubin EJ, Perrimon N, Higgins DE.

Science. 2005 Aug 19;309(5738):1248-51. Epub 2005 Jul 14.

43.

The roles of JAK/STAT signaling in Drosophila immune responses.

Agaisse H, Perrimon N.

Immunol Rev. 2004 Apr;198:72-82. Review.

PMID:
15199955
44.

Signaling role of hemocytes in Drosophila JAK/STAT-dependent response to septic injury.

Agaisse H, Petersen UM, Boutros M, Mathey-Prevot B, Perrimon N.

Dev Cell. 2003 Sep;5(3):441-50.

45.

Sequential activation of signaling pathways during innate immune responses in Drosophila.

Boutros M, Agaisse H, Perrimon N.

Dev Cell. 2002 Nov;3(5):711-22.

46.

Differential requirement for STAT by gain-of-function and wild-type receptor tyrosine kinase Torso in Drosophila.

Li WX, Agaisse H, Mathey-Prevot B, Perrimon N.

Development. 2002 Sep;129(18):4241-8.

47.

Regulation of toxin and virulence gene transcription in Bacillus thuringiensis.

Lereclus D, Agaisse H, Grandvalet C, Salamitou S, Gominet M.

Int J Med Microbiol. 2000 Oct;290(4-5):295-9. Review.

PMID:
11111901
48.

Development and field performance of a broad-spectrum nonviable asporogenic recombinant strain of Bacillus thuringiensis with greater potency and UV resistance.

Sanchis V, Gohar M, Chaufaux J, Arantes O, Meier A, Agaisse H, Cayley J, Lereclus D.

Appl Environ Microbiol. 1999 Sep;65(9):4032-9.

49.

PlcR is a pleiotropic regulator of extracellular virulence factor gene expression in Bacillus thuringiensis.

Agaisse H, Gominet M, Okstad OA, Kolstø AB, Lereclus D.

Mol Microbiol. 1999 Jun;32(5):1043-53.

50.

Bacillus popilliae cry18Aa operon is transcribed by sigmaE and sigmaK forms of RNA polymerase from a single initiation site.

Zhang J, Schairer HU, Schnetter W, Lereclus D, Agaisse H.

Nucleic Acids Res. 1998 Mar 1;26(5):1288-93.

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