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Items: 11

1.

Whole-Genome Sequencing-Based Characterization of 100 Listeria monocytogenes Isolates Collected from Food Processing Environments over a Four-Year Period.

Hurley D, Luque-Sastre L, Parker CT, Huynh S, Eshwar AK, Nguyen SV, Andrews N, Moura A, Fox EM, Jordan K, Lehner A, Stephan R, Fanning S.

mSphere. 2019 Aug 7;4(4). pii: e00252-19. doi: 10.1128/mSphere.00252-19.

2.

New Insights on the Role of the pLMST6 Plasmid in Listeria monocytogenes Biocide Tolerance and Virulence.

Kropac AC, Eshwar AK, Stephan R, Tasara T.

Front Microbiol. 2019 Jul 9;10:1538. doi: 10.3389/fmicb.2019.01538. eCollection 2019.

3.

Variable Carbon Source Utilization, Stress Resistance, and Virulence Profiles Among Listeria monocytogenes Strains Responsible for Listeriosis Outbreaks in Switzerland.

Muchaamba F, Eshwar AK, Stevens MJA, von Ah U, Tasara T.

Front Microbiol. 2019 May 3;10:957. doi: 10.3389/fmicb.2019.00957. eCollection 2019.

4.

Atypical Hemolytic Listeria innocua Isolates Are Virulent, albeit Less than Listeria monocytogenes.

Moura A, Disson O, Lavina M, Thouvenot P, Huang L, Leclercq A, Fredriksson-Ahomaa M, Eshwar AK, Stephan R, Lecuit M.

Infect Immun. 2019 Mar 25;87(4). pii: e00758-18. doi: 10.1128/IAI.00758-18. Print 2019 Apr.

5.

Interaction of matrix metalloproteinase-9 and Zpx in Cronobacter turicensis LMG 23827T mediated infections in the zebrafish model.

Eshwar AK, Wolfrum N, Stephan R, Fanning S, Lehner A.

Cell Microbiol. 2018 Nov;20(11):e12888. doi: 10.1111/cmi.12888. Epub 2018 Aug 3.

PMID:
29972620
6.

Cold-Shock Domain Family Proteins (Csps) Are Involved in Regulation of Virulence, Cellular Aggregation, and Flagella-Based Motility in Listeria monocytogenes.

Eshwar AK, Guldimann C, Oevermann A, Tasara T.

Front Cell Infect Microbiol. 2017 Oct 26;7:453. doi: 10.3389/fcimb.2017.00453. eCollection 2017.

7.

Comparative Genomic Characterization of the Highly Persistent and Potentially Virulent Cronobacter sakazakii ST83, CC65 Strain H322 and Other ST83 Strains.

Chase HR, Gopinath GR, Eshwar AK, Stoller A, Fricker-Feer C, Gangiredla J, Patel IR, Cinar HN, Jeong H, Lee C, Negrete F, Finkelstein S, Stephan R, Tall BD, Lehner A.

Front Microbiol. 2017 Jun 26;8:1136. doi: 10.3389/fmicb.2017.01136. eCollection 2017.

8.

Linking Genomo- and Pathotype: Exploiting the Zebrafish Embryo Model to Investigate the Divergent Virulence Potential among Cronobacter spp.

Eshwar AK, Tall BD, Gangiredla J, Gopinath GR, Patel IR, Neuhauss SC, Stephan R, Lehner A.

PLoS One. 2016 Jun 29;11(6):e0158428. doi: 10.1371/journal.pone.0158428. eCollection 2016.

9.

The DSF type quorum sensing signalling system RpfF/R regulates diverse phenotypes in the opportunistic pathogen Cronobacter.

Suppiger A, Eshwar AK, Stephan R, Kaever V, Eberl L, Lehner A.

Sci Rep. 2016 Jan 4;6:18753. doi: 10.1038/srep18753.

10.

Evaluation of zebrafish as a model to study the pathogenesis of the opportunistic pathogen Cronobacter turicensis.

Fehr A, Eshwar AK, Neuhauss SC, Ruetten M, Lehner A, Vaughan L.

Emerg Microbes Infect. 2015 May;4(5):e29. doi: 10.1038/emi.2015.29. Epub 2015 May 27.

11.

Influence of FkpA variants on survival and replication of Cronobacter spp. in human macrophages.

Eshwar AK, Tasara T, Stephan R, Lehner A.

Res Microbiol. 2015 Apr;166(3):186-95. doi: 10.1016/j.resmic.2015.02.005. Epub 2015 Feb 25.

PMID:
25724920

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