Genome Sequences of Gordonia Bacteriophages Obliviate, UmaThurman, and Guacamole | Zendy

Welkin H. Pope | Zendy; Armaan F. Akbar | Zendy; Taylor N. Ayers | Zendy; Selena G. Belohoubek | Zendy; Connie F. Chung | Zendy; Allison C. Hartman | Zendy; Tejus Kayiti | Zendy; Cecilia M. Kessler | Zendy; Philipp I. Koman | Zendy; Grigoriy A. Kotovskiy | Zendy; Taylor M. Morgan | Zendy; Rebecca Rohac | Zendy; Gabriela M. Silva | Zendy; Charles E. Willis | Zendy; Katherine A. Milliken | Zendy; Kathleen A. Shedlock | Zendy; Ann-Catherine J. Stanton | Zendy; Chelsea L. Toner | Zendy; Emily C. Furbee | Zendy; Sarah R. Grubb | Zendy; Marcie H. Warner | Zendy; Matthew T. Montgomery | Zendy; Rebecca A. Garlena | Zendy; Daniel A. Russell | Zendy; Deborah JacobsSera | Zendy; Graham F. Hatfull | Zendy

AI Assistant Blog Pricing

Home ZAIA Blog

Open Access

Genome Sequences of Gordonia Bacteriophages Obliviate, UmaThurman, and Guacamole

Author(s) -

Welkin H. Pope,

Armaan F. Akbar,

Taylor N. Ayers,

Selena G. Belohoubek,

Connie F. Chung,

Allison C. Hartman,

Tejus Kayiti,

Cecilia M. Kessler,

Philipp I. Koman,

Grigoriy A. Kotovskiy,

Taylor M. Morgan,

Rebecca Rohac,

Gabriela M. Silva,

Charles E. Willis,

Katherine A. Milliken,

Kathleen A. Shedlock,

Ann-Catherine J. Stanton,

Chelsea L. Toner,

Emily C. Furbee,

Sarah R. Grubb,

Marcie H. Warner,

Matthew T. Montgomery,

Rebecca A. Garlena,

Daniel A. Russell,

Deborah JacobsSera,

Graham F. Hatfull

Publication year - 2016

Publication title -

genome announcements

Language(s) - English

Resource type - Journals

ISSN - 2169-8287

DOI - 10.1128/genomea.00595-16

Subject(s) - biology , genome , genetics , evolutionary biology , microbiology and biotechnology , gene

We describe three newly isolated phages-Obliviate, UmaThurman, and Guacamole-that infect Gordonia terrae 3612. The three genomes are related to one another but are not closely related to other previously sequenced phages or prophages. The three phages are predicted to use integration-dependent immunity systems as described in several mycobacteriophages.

The content you want is available to Zendy users.

Already have an account? Click here to sign in.

Having issues? You can contact us here

Accelerating Research