Dr. Yannick Born

Dr. Yannick Born
ZHAW Life Sciences und Facility Management

+41 (0) 58 934 54 21
yannick.born@zhaw.ch

Persönliches Profil

Tätigkeit an der ZHAW als

Wissenschaftlicher Mitarbeiter

Aus- und Fortbildung

Doktorat, Dr. sc. ETH, 2012, ETH Zürich (Lebensmittelmikrobiologie, D-HEST)
Masterstudium, MSc ETH in Biologie (Schwerpunkt Mikrobiologie & Immunologie), 2008, ETH Zürich (D-BIOL)
Bachelorstudium, BSc ETH in Biologie, 2006, ETH Zürich (D-BIOL)

Projekte

Mitarbeit an folgenden Projekten

Publikationen

Beiträge, peer-reviewed

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Engineering of bacteriophages Y2::dpoL1-C and Y2::luxAB for efficient control and rapid detection of the fire blight pathogen, Erwinia amylovora

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Applied and Environmental Microbiology, 83, 12. e00341-17. Peer reviewed.

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Erwinia gerundensis sp. nov., a cosmopolitan epiphyte originally isolated from pome fruit trees

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International Journal of Systematic and Evolutionary Microbiology, 66, 3. 1583-1592. Peer reviewed.

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The Fe2+ chelator Proferrorosamine A: a gene cluster of Erwinia rhapontici P45 involved in its synthesis and its impact on growth of Erwinia amylovora CFBP1430

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Microbiology Peer reviewed.

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Encapsulation and controlled release of bacteriophages for food protection using electrospun nanofibers

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NART 2015, Nanofibers, Applications and Related Technologies. Conference Proceedings, ISBN 978-80-7494-265-5 49-56. Peer reviewed.

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Protection of Erwinia amylovora bacteriophage Y2 from UV-induced damage by natural compounds

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Bacteriophage, 5, 4. e1074330. Peer reviewed.

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The tail-associated depolymerase of Erwinia amylovora phage L1 mediates host cell adsorption and enzymatic capsule removal, which can enhance infection by other phage

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Environmental Microbiology doi: 10.1111/1462-2920.12212. [Epub ahead of print], 16, 7. 2168-2180. Peer reviewed.

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Novel virulent and broad-host-range Erwinia amylovora bacteriophages reveal a high degree of mosaicism and a relationship to Enterobacteriaceae phages

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Applied and Environmental Microbiology, 77, 17. 5945-5954. Peer reviewed.

Beiträge, nicht peer-reviewed

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Engineered phages for efficient control and rapid detection of viable Erwinia amylovora cells

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In: Viruses of Microbes Conference. Vortrag. Liverpool: 18.-22. Juli.

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Identification of phage receptors in Erwinia amylovora after transposon mutagenesis

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In: Viruses of Microbes Conference, Posterpräsentation, Liverpool: 18.-22. Juli.

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The effectiveness of T5-like phages to control Salmonella enterica

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Bacteriophages, Talk, Moscow: October 13-15.

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A bacteriophage cocktail to control Salmonella Typhimurium

: Posterpräsentation.

21st biennial Evergreen International Phage Meeting. Olympia (USA)

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Bakteriophagen zur Bekämpfung von Feuerbrand

: Posterpräsentation.

In: Gemeinsam gegen Feuerbrand. 1. Nationale Tagung. Wädenswil: Agroscope.

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Implications of the phage depolymerase DpoL1 on Erwinia amylovora

: Posterpresentation.

21st biennual Evergreen International Phage Meeting. Olympia (USA)

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Detection of the causative agent of fire blight - Erwinia amylovora (Burrill) Winslow et al. - in the southeast of Kazakhstan

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Acta Horticulturae, 1056: 129-132.

Publikationen vor Tätigkeit an der ZHAW

Born Y, Fieseler L, Klumpp J, Eugster MR, Zurfluh K, Duffy B, Loessner MJ. 2013. The tail-associated depolymerase of Erwinia amylovora phage L1 mediates host cell adsorption and enzymatic capsule removal, which can enhance infection by other phage. Environ. Microbiol. in press

Kim K-P, Born Y, Lurz R, Eichenseher F, Zimmer M, Loessner MJ, Klumpp J. 2012. Inducible Clostridium perfringens bacteriophages ΦS9 and ΦS63: Different genome structures and a fully functional sigK intervening element. Bacteriophage 2:89–97.

Born Y, Fieseler L, Marazzi J, Lurz R, Duffy B, Loessner MJ. 2011. Novel virulent and broad-host-range Erwinia amylovora bacteriophages reveal a high degree of mosaicism and a relationship to Enterobacteriaceae phages. Appl. Environ. Microbiol. 77:5945–5954.

Dorscht J, Klumpp J, Bielmann R, Schmelcher M, Born Y, Zimmer M, Calendar R, Loessner MJ. 2009. Comparative genome analysis of Listeria bacteriophages reveals extensive mosaicism, programmed translational frameshifting, and a novel prophage insertion site. J. Bacteriol. 191:7206–7215.