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Results: 1 to 20 of 42

Cited In for PubMed (Select 11703654)

1.

The structure of a contact-dependent growth-inhibition (CDI) immunity protein from Neisseria meningitidis MC58.

Tan K, Johnson PM, Stols L, Boubion B, Eschenfeldt W, Babnigg G, Hayes CS, Joachimiak A, Goulding CW.

Acta Crystallogr F Struct Biol Commun. 2015 Jun 1;71(Pt 6):702-9. doi: 10.1107/S2053230X15006585. Epub 2015 May 20.

PMID:
26057799
2.

Genetic analysis of the CDI pathway from Burkholderia pseudomallei 1026b.

Koskiniemi S, Garza-Sánchez F, Edman N, Chaudhuri S, Poole SJ, Manoil C, Hayes CS, Low DA.

PLoS One. 2015 Mar 18;10(3):e0120265. doi: 10.1371/journal.pone.0120265. eCollection 2015.

3.

Fap2 of Fusobacterium nucleatum is a galactose-inhibitable adhesin involved in coaggregation, cell adhesion, and preterm birth.

Coppenhagen-Glazer S, Sol A, Abed J, Naor R, Zhang X, Han YW, Bachrach G.

Infect Immun. 2015 Mar;83(3):1104-13. doi: 10.1128/IAI.02838-14. Epub 2015 Jan 5.

PMID:
25561710
4.

Type V Secretion: the Autotransporter and Two-Partner Secretion Pathways.

Bernstein HD.

Ecosal Plus. 2010 Sep 16;2010. doi: 10.1128/ecosalplus.4.3.6. No abstract available.

5.

Of linkers and autochaperones: an unambiguous nomenclature to identify common and uncommon themes for autotransporter secretion.

Drobnak I, Braselmann E, Chaney JL, Leyton DL, Bernstein HD, Lithgow T, Luirink J, Nataro JP, Clark PL.

Mol Microbiol. 2015 Jan;95(1):1-16. doi: 10.1111/mmi.12838. Epub 2014 Nov 24.

PMID:
25345653
6.

The proton-motive force is required for translocation of CDI toxins across the inner membrane of target bacteria.

Ruhe ZC, Nguyen JY, Beck CM, Low DA, Hayes CS.

Mol Microbiol. 2014 Oct;94(2):466-81. doi: 10.1111/mmi.12779. Epub 2014 Sep 17.

PMID:
25174572
7.

Structure of the secretion domain of HxuA from Haemophilus influenzae.

Baelen S, Dewitte F, Clantin B, Villeret V.

Acta Crystallogr Sect F Struct Biol Cryst Commun. 2013 Dec;69(Pt 12):1322-7. doi: 10.1107/S174430911302962X. Epub 2013 Nov 28.

PMID:
24316822
8.

Sequential unfolding of beta helical protein by single-molecule atomic force microscopy.

Alsteens D, Martinez N, Jamin M, Jacob-Dubuisson F.

PLoS One. 2013 Aug 29;8(8):e73572. doi: 10.1371/journal.pone.0073572. eCollection 2013.

9.

Receptor polymorphism restricts contact-dependent growth inhibition to members of the same species.

Ruhe ZC, Wallace AB, Low DA, Hayes CS.

MBio. 2013 Jul 23;4(4). pii: e00480-13. doi: 10.1128/mBio.00480-13.

10.

Bacterial contact-dependent growth inhibition.

Ruhe ZC, Low DA, Hayes CS.

Trends Microbiol. 2013 May;21(5):230-7. doi: 10.1016/j.tim.2013.02.003. Epub 2013 Mar 7. Review.

11.

Delivery of CdiA nuclease toxins into target cells during contact-dependent growth inhibition.

Webb JS, Nikolakakis KC, Willett JL, Aoki SK, Hayes CS, Low DA.

PLoS One. 2013;8(2):e57609. doi: 10.1371/journal.pone.0057609. Epub 2013 Feb 28.

12.

Structural basis of toxicity and immunity in contact-dependent growth inhibition (CDI) systems.

Morse RP, Nikolakakis KC, Willett JL, Gerrick E, Low DA, Hayes CS, Goulding CW.

Proc Natl Acad Sci U S A. 2012 Dec 26;109(52):21480-5. doi: 10.1073/pnas.1216238110. Epub 2012 Dec 10.

13.

The prodomain of the Bordetella two-partner secretion pathway protein FhaB remains intracellular yet affects the conformation of the mature C-terminal domain.

Noël CR, Mazar J, Melvin JA, Sexton JA, Cotter PA.

Mol Microbiol. 2012 Nov;86(4):988-1006. doi: 10.1111/mmi.12036. Epub 2012 Oct 5.

14.

Type V secretion: mechanism(s) of autotransport through the bacterial outer membrane.

Leo JC, Grin I, Linke D.

Philos Trans R Soc Lond B Biol Sci. 2012 Apr 19;367(1592):1088-101. doi: 10.1098/rstb.2011.0208. Review.

15.

Identification of a target cell permissive factor required for contact-dependent growth inhibition (CDI).

Diner EJ, Beck CM, Webb JS, Low DA, Hayes CS.

Genes Dev. 2012 Mar 1;26(5):515-25. doi: 10.1101/gad.182345.111. Epub 2012 Feb 14.

16.

ATP-independent control of autotransporter virulence protein transport via the folding properties of the secreted protein.

Renn JP, Junker M, Besingi RN, Braselmann E, Clark PL.

Chem Biol. 2012 Feb 24;19(2):287-96. doi: 10.1016/j.chembiol.2011.11.009. Epub 2011 Dec 29.

17.

Bacterial surface appendages strongly impact nanomechanical and electrokinetic properties of Escherichia coli cells subjected to osmotic stress.

Francius G, Polyakov P, Merlin J, Abe Y, Ghigo JM, Merlin C, Beloin C, Duval JF.

PLoS One. 2011;6(5):e20066. doi: 10.1371/journal.pone.0020066. Epub 2011 May 31. Erratum in: PLoS One. 2011;6(7). doi: 10.1371/annotation/2d1cbf5c-d0f0-40c6-8f32-eb034182538c.

18.

Amyloid structure and assembly: insights from scanning transmission electron microscopy.

Goldsbury C, Baxa U, Simon MN, Steven AC, Engel A, Wall JS, Aebi U, Müller SA.

J Struct Biol. 2011 Jan;173(1):1-13. doi: 10.1016/j.jsb.2010.09.018. Epub 2010 Sep 22. Review.

19.

Passing the baton between laps: adhesion and cohesion in Pseudomonas putida biofilms.

Fuqua C.

Mol Microbiol. 2010 Aug;77(3):533-6. doi: 10.1111/j.1365-2958.2010.07250.x. Epub 2010 Jun 10.

20.

Identification and characterization of two Bordetella avium gene products required for hemagglutination.

Temple LM, Miyamoto DM, Mehta M, Capitini CM, Von Stetina S, Barnes HJ, Christensen VL, Horton JR, Spears PA, Orndorff PE.

Infect Immun. 2010 Jun;78(6):2370-6. doi: 10.1128/IAI.00140-10. Epub 2010 Mar 29.

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