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Items: 1 to 20 of 113

1.

In vitro AMPylation Assays Using Purified, Recombinant Proteins.

Truttmann MC, Ploegh HL.

Bio Protoc. 2017 Jul 20;7(14). pii: e2416. doi: 10.21769/BioProtoc.2416.

2.

Fic Proteins of Campylobacter fetus subsp. venerealis Form a Network of Functional Toxin-Antitoxin Systems.

Sprenger H, Kienesberger S, Pertschy B, Pöltl L, Konrad B, Bhutada P, Vorkapic D, Atzmüller D, Feist F, Högenauer C, Gorkiewicz G, Zechner EL.

Front Microbiol. 2017 Oct 17;8:1965. doi: 10.3389/fmicb.2017.01965. eCollection 2017.

3.

Fic-mediated deAMPylation is not dependent on homodimerization and rescues toxic AMPylation in flies.

Casey AK, Moehlman AT, Zhang J, Servage KA, Krämer H, Orth K.

J Biol Chem. 2017 Dec 22;292(51):21193-21204. doi: 10.1074/jbc.M117.799296. Epub 2017 Oct 31.

PMID:
29089387
4.

Legionella Effector AnkX Disrupts Host Cell Endocytic Recycling in a Phosphocholination-Dependent Manner.

Allgood SC, Romero Dueñas BP, Noll RR, Pike C, Lein S, Neunuebel MR.

Front Cell Infect Microbiol. 2017 Sep 8;7:397. doi: 10.3389/fcimb.2017.00397. eCollection 2017.

5.

The cytotoxic type 3 secretion system 1 of Vibrio rewires host gene expression to subvert cell death and activate cell survival pathways.

De Nisco NJ, Kanchwala M, Li P, Fernandez J, Xing C, Orth K.

Sci Signal. 2017 May 16;10(479). pii: eaal4501. doi: 10.1126/scisignal.aal4501.

6.

rAMPing Up Stress Signaling: Protein AMPylation in Metazoans.

Truttmann MC, Ploegh HL.

Trends Cell Biol. 2017 Aug;27(8):608-620. doi: 10.1016/j.tcb.2017.03.004. Epub 2017 Apr 19. Review.

PMID:
28433487
7.

A Legionella Effector Disrupts Host Cytoskeletal Structure by Cleaving Actin.

Liu Y, Zhu W, Tan Y, Nakayasu ES, Staiger CJ, Luo ZQ.

PLoS Pathog. 2017 Jan 27;13(1):e1006186. doi: 10.1371/journal.ppat.1006186. eCollection 2017 Jan.

8.

Unrestrained AMPylation targets cytosolic chaperones and activates the heat shock response.

Truttmann MC, Zheng X, Hanke L, Damon JR, Grootveld M, Krakowiak J, Pincus D, Ploegh HL.

Proc Natl Acad Sci U S A. 2017 Jan 10;114(2):E152-E160. doi: 10.1073/pnas.1619234114. Epub 2016 Dec 28.

9.

FICD acts bifunctionally to AMPylate and de-AMPylate the endoplasmic reticulum chaperone BiP.

Preissler S, Rato C, Perera L, Saudek V, Ron D.

Nat Struct Mol Biol. 2017 Jan;24(1):23-29. doi: 10.1038/nsmb.3337. Epub 2016 Dec 5.

10.

Crystal Structure of the Escherichia coli Fic Toxin-Like Protein in Complex with Its Cognate Antitoxin.

Stanger FV, Harms A, Dehio C, Schirmer T.

PLoS One. 2016 Sep 22;11(9):e0163654. doi: 10.1371/journal.pone.0163654. eCollection 2016.

11.

How Bacteria Subvert Animal Cell Structure and Function.

Jimenez A, Chen D, Alto NM.

Annu Rev Cell Dev Biol. 2016 Oct 6;32:373-397. Epub 2016 May 4. Review.

12.

The Caenorhabditis elegans Protein FIC-1 Is an AMPylase That Covalently Modifies Heat-Shock 70 Family Proteins, Translation Elongation Factors and Histones.

Truttmann MC, Cruz VE, Guo X, Engert C, Schwartz TU, Ploegh HL.

PLoS Genet. 2016 May 3;12(5):e1006023. doi: 10.1371/journal.pgen.1006023. eCollection 2016 May.

13.

A Novel Fic (Filamentation Induced by cAMP) Protein from Clostridium difficile Reveals an Inhibitory Motif-independent Adenylylation/AMPylation Mechanism.

Dedic E, Alsarraf H, Welner DH, Østergaard O, Klychnikov OI, Hensbergen PJ, Corver J, van Leeuwen HC, Jørgensen R.

J Biol Chem. 2016 Jun 17;291(25):13286-300. doi: 10.1074/jbc.M115.705491. Epub 2016 Apr 13.

14.

Adenylylation of Tyr77 stabilizes Rab1b GTPase in an active state: A molecular dynamics simulation analysis.

Luitz MP, Bomblies R, Ramcke E, Itzen A, Zacharias M.

Sci Rep. 2016 Jan 28;6:19896. doi: 10.1038/srep19896.

15.

Intrinsic regulation of FIC-domain AMP-transferases by oligomerization and automodification.

Stanger FV, Burmann BM, Harms A, Aragão H, Mazur A, Sharpe T, Dehio C, Hiller S, Schirmer T.

Proc Natl Acad Sci U S A. 2016 Feb 2;113(5):E529-37. doi: 10.1073/pnas.1516930113. Epub 2016 Jan 19.

16.

AMPylation matches BiP activity to client protein load in the endoplasmic reticulum.

Preissler S, Rato C, Chen R, Antrobus R, Ding S, Fearnley IM, Ron D.

Elife. 2015 Dec 17;4:e12621. doi: 10.7554/eLife.12621.

17.

Elucidating Host-Pathogen Interactions Based on Post-Translational Modifications Using Proteomics Approaches.

Ravikumar V, Jers C, Mijakovic I.

Front Microbiol. 2015 Nov 20;6:1313. doi: 10.3389/fmicb.2015.01312. eCollection 2015. Review.

18.

Global Profiling of Huntingtin-associated protein E (HYPE)-Mediated AMPylation through a Chemical Proteomic Approach.

Broncel M, Serwa RA, Bunney TD, Katan M, Tate EW.

Mol Cell Proteomics. 2016 Feb;15(2):715-25. doi: 10.1074/mcp.O115.054429. Epub 2015 Nov 24.

19.

Major differential gene regulation in Coxiella burnetii between in vivo and in vitro cultivation models.

Kuley R, Bossers-deVries R, Smith HE, Smits MA, Roest HI, Bossers A.

BMC Genomics. 2015 Nov 16;16:953. doi: 10.1186/s12864-015-2143-7.

20.

Comparative secretomics reveals novel virulence-associated factors of Vibrio parahaemolyticus.

He Y, Wang H, Chen L.

Front Microbiol. 2015 Jul 17;6:707. doi: 10.3389/fmicb.2015.00707. eCollection 2015.

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