Transcriptome analysis of hypoxic cancer cells uncovers intron retention in EIF2B5 as a mechanism to inhibit translation. [electronic resource]

By:

Brady, Lauren K

Contributor(s):

Wang, Hejia
Radens, Caleb M
Bi, Yue
Radovich, Milan
Maity, Amit
Ivan, Cristina
Ivan, Mircea
Barash, Yoseph
Koumenis, Constantinos

Producer: 20171030Description: e2002623 p. digitalISSN:

1545-7885

Subject(s):

Alternative Splicing -- genetics
Base Sequence
Cell Line, Tumor
Eukaryotic Initiation Factor-2B -- genetics
Gene Expression Profiling -- methods
Gene Expression Regulation, Neoplastic
Genetic Loci
Head and Neck Neoplasms -- genetics
Humans
Introns -- genetics
Models, Biological
Nucleotide Motifs -- genetics
Phosphorylation
Polymerase Chain Reaction
Protein Binding
Protein Biosynthesis -- genetics
Protein Isoforms -- genetics
RNA Polymerase II -- metabolism
RNA, Messenger -- genetics
Regulatory Sequences, Nucleic Acid -- genetics
Reproducibility of Results
Tumor Hypoxia -- genetics

Online resources:

Available from publisher's website

In: PLoS biology vol. 15

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Transcriptome analysis of hypoxic cancer cells uncovers intron retention in EIF2B5 as a mechanism to inhibit translation.

APA

Brady L. K., Wang H., Radens C. M., Bi Y., Radovich M., Maity A., Ivan C., Ivan M., Barash Y. & Koumenis C. (20171030). Transcriptome analysis of hypoxic cancer cells uncovers intron retention in EIF2B5 as a mechanism to inhibit translation. : PLoS biology.

Chicago

Brady Lauren K, Wang Hejia, Radens Caleb M, Bi Yue, Radovich Milan, Maity Amit, Ivan Cristina, Ivan Mircea, Barash Yoseph and Koumenis Constantinos. 20171030. Transcriptome analysis of hypoxic cancer cells uncovers intron retention in EIF2B5 as a mechanism to inhibit translation. : PLoS biology.

Harvard

Brady L. K., Wang H., Radens C. M., Bi Y., Radovich M., Maity A., Ivan C., Ivan M., Barash Y. and Koumenis C. (20171030). Transcriptome analysis of hypoxic cancer cells uncovers intron retention in EIF2B5 as a mechanism to inhibit translation. : PLoS biology.

MLA

Brady Lauren K, Wang Hejia, Radens Caleb M, Bi Yue, Radovich Milan, Maity Amit, Ivan Cristina, Ivan Mircea, Barash Yoseph and Koumenis Constantinos. Transcriptome analysis of hypoxic cancer cells uncovers intron retention in EIF2B5 as a mechanism to inhibit translation. : PLoS biology. 20171030.

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