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Items: 32

1.

Cathelicidin Peptides Restrict Bacterial Growth via Membrane Perturbation and Induction of Reactive Oxygen Species.

Rowe-Magnus DA, Kao AY, Prieto AC, Pu M, Kao C.

MBio. 2019 Sep 10;10(5). pii: e02021-19. doi: 10.1128/mBio.02021-19.

2.

Calcium-dependent site-switching regulates expression of the atypical iam pilus locus in Vibrio vulnificus.

Pu M, Storms E, Chodur DM, Rowe-Magnus DA.

Environ Microbiol. 2019 Jul 29. doi: 10.1111/1462-2920.14763. [Epub ahead of print]

PMID:
31355512
3.

Environmental Calcium Initiates a Feed-Forward Signaling Circuit That Regulates Biofilm Formation and Rugosity in Vibrio vulnificus.

Chodur DM, Coulter P, Isaacs J, Pu M, Fernandez N, Waters CM, Rowe-Magnus DA.

MBio. 2018 Aug 28;9(4). pii: e01377-18. doi: 10.1128/mBio.01377-18.

4.

Complex Control of a Genomic Island Governing Biofilm and Rugose Colony Development in Vibrio vulnificus.

Chodur DM, Rowe-Magnus DA.

J Bacteriol. 2018 Jul 25;200(16). pii: e00190-18. doi: 10.1128/JB.00190-18. Print 2018 Aug 15.

5.

A Tad pilus promotes the establishment and resistance of Vibrio vulnificus biofilms to mechanical clearance.

Pu M, Rowe-Magnus DA.

NPJ Biofilms Microbiomes. 2018 Apr 23;4:10. doi: 10.1038/s41522-018-0052-7. eCollection 2018.

6.

Erratum for Chodur et al., "The Proline Variant of the W[F/L/M][T/S]R Cyclic Di-GMP Binding Motif Suppresses Dependence on Signal Association for Regulator Function".

Chodur DM, Guo L, Pu M, Bruger E, Fernandez N, Waters C, Rowe-Magnus DA.

J Bacteriol. 2018 Feb 23;200(6). pii: e00036-18. doi: 10.1128/JB.00036-18. Print 2018 Mar 15. No abstract available.

7.

A conserved tad pilus promotes Vibrio vulnificus oyster colonization.

Pu M, Duriez P, Arazi M, Rowe-Magnus DA.

Environ Microbiol. 2018 Feb;20(2):828-841. doi: 10.1111/1462-2920.14025. Epub 2017 Dec 29.

PMID:
29235706
8.

Complete Genome Sequence of the Pathogenic Vibrio vulnificus Type Strain ATCC 27562.

Rusch DB, Rowe-Magnus DA.

Genome Announc. 2017 Aug 31;5(35). pii: e00907-17. doi: 10.1128/genomeA.00907-17.

9.

The Proline Variant of the W[F/L/M][T/S]R Cyclic Di-GMP Binding Motif Suppresses Dependence on Signal Association for Regulator Function.

Chodur DM, Guo L, Pu M, Bruger E, Fernandez N, Waters C, Rowe-Magnus DA.

J Bacteriol. 2017 Sep 5;199(19). pii: e00344-17. doi: 10.1128/JB.00344-17. Print 2017 Oct 1. Erratum in: J Bacteriol. 2018 Feb 23;200(6):.

10.

Cathelicidin Antimicrobial Peptides with Reduced Activation of Toll-Like Receptor Signaling Have Potent Bactericidal Activity against Colistin-Resistant Bacteria.

Kao C, Lin X, Yi G, Zhang Y, Rowe-Magnus DA, Bush K.

MBio. 2016 Sep 20;7(5). pii: e01418-16. doi: 10.1128/mBio.01418-16.

11.

Integration host factor and LuxR synergistically bind DNA to coactivate quorum-sensing genes in Vibrio harveyi.

Chaparian RR, Olney SG, Hustmyer CM, Rowe-Magnus DA, van Kessel JC.

Mol Microbiol. 2016 Sep;101(5):823-40. doi: 10.1111/mmi.13425. Epub 2016 Jun 16.

12.

Overlapping and unique contributions of two conserved polysaccharide loci in governing distinct survival phenotypes in Vibrio vulnificus.

Guo Y, Rowe-Magnus DA.

Environ Microbiol. 2011 Nov;13(11):2888-990. doi: 10.1111/j.1462-2920.2011.02564.x. Epub 2011 Sep 5.

PMID:
21895917
13.

Chitin-induced carbotype conversion in Vibrio vulnificus.

Neiman J, Guo Y, Rowe-Magnus DA.

Infect Immun. 2011 Aug;79(8):3195-203. doi: 10.1128/IAI.00158-11. Epub 2011 Jun 13.

14.

Evidence for the horizontal transfer of an unusual capsular polysaccharide biosynthesis locus in marine bacteria.

Nakhamchik A, Wilde C, Chong H, Rowe-Magnus DA.

Infect Immun. 2010 Dec;78(12):5214-22. doi: 10.1128/IAI.00653-10. Epub 2010 Oct 4.

15.

Identification of a c-di-GMP-regulated polysaccharide locus governing stress resistance and biofilm and rugose colony formation in Vibrio vulnificus.

Guo Y, Rowe-Magnus DA.

Infect Immun. 2010 Mar;78(3):1390-402. doi: 10.1128/IAI.01188-09. Epub 2010 Jan 11.

16.

Integrase-directed recovery of functional genes from genomic libraries.

Rowe-Magnus DA.

Nucleic Acids Res. 2009 Sep;37(17):e118. doi: 10.1093/nar/gkp561. Epub 2009 Jul 13.

17.

Structure of the lipopolysaccharide core of Vibrio vulnificus type strain 27562.

Vinogradov E, Wilde C, Anderson EM, Nakhamchik A, Lam JS, Rowe-Magnus DA.

Carbohydr Res. 2009 Mar 10;344(4):484-90. doi: 10.1016/j.carres.2008.12.017. Epub 2008 Dec 25.

PMID:
19185290
18.

Cyclic-di-GMP regulates extracellular polysaccharide production, biofilm formation, and rugose colony development by Vibrio vulnificus.

Nakhamchik A, Wilde C, Rowe-Magnus DA.

Appl Environ Microbiol. 2008 Jul;74(13):4199-209. doi: 10.1128/AEM.00176-08. Epub 2008 May 16.

19.
20.

Chromosomal toxin-antitoxin loci can diminish large-scale genome reductions in the absence of selection.

Szekeres S, Dauti M, Wilde C, Mazel D, Rowe-Magnus DA.

Mol Microbiol. 2007 Mar;63(6):1588-605.

21.
22.

Comparative analysis of superintegrons: engineering extensive genetic diversity in the Vibrionaceae.

Rowe-Magnus DA, Guerout AM, Biskri L, Bouige P, Mazel D.

Genome Res. 2003 Mar;13(3):428-42.

23.

The role of integrons in antibiotic resistance gene capture.

Rowe-Magnus DA, Mazel D.

Int J Med Microbiol. 2002 Jul;292(2):115-25. Review.

PMID:
12195734
24.

Bacterial resistance evolution by recruitment of super-integron gene cassettes.

Rowe-Magnus DA, Guerout AM, Mazel D.

Mol Microbiol. 2002 Mar;43(6):1657-69.

25.

Integrons: natural tools for bacterial genome evolution.

Rowe-Magnus DA, Mazel D.

Curr Opin Microbiol. 2001 Oct;4(5):565-9. Review.

PMID:
11587934
26.

The evolutionary history of chromosomal super-integrons provides an ancestry for multiresistant integrons.

Rowe-Magnus DA, Guerout AM, Ploncard P, Dychinco B, Davies J, Mazel D.

Proc Natl Acad Sci U S A. 2001 Jan 16;98(2):652-7.

27.
28.

Super-integrons.

Rowe-Magnus DA, Guérout AM, Mazel D.

Res Microbiol. 1999 Nov-Dec;150(9-10):641-51. Review.

PMID:
10673003
29.

Resistance gene capture.

Rowe-Magnus DA, Mazel D.

Curr Opin Microbiol. 1999 Oct;2(5):483-8. Review.

PMID:
10508722
30.
32.

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