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Gene expression / Protein biosynthesis / Cis-regulatory RNA elements / Internal ribosome entry site / EIF4G / Messenger RNA / EIF4E / Eukaryotic translation / Polyadenylation / Biology / RNA / Genetics


Cap-Independent Translation Is Required for Starvation-Induced Differentiation in Yeast Wendy V. Gilbert, et al. Science 317, ); DOI: scienceThe following resources related to this article are
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Document Date: 2015-06-12 11:41:21

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Washington / DC / New Haven / /

Company

M. Stoneley A. E. / Cold Spring Harbor Laboratory Press / R. E. Burke S. P. / Jh4 / NINDS / Spitzer Funds / /

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United States / /

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Facility

Howard Hughes Medical Institute / D Howard Hughes Medical Institute / Cold Spring Harbor / University of California / Doudna laboratory / /

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free energy / online version / internal ribosome entry site / machinery / heavy chain / Online Material / mutation machinery / error-prone mismatch repair machinery / translation machinery / /

MedicalCondition

ORF / apparent dissociation / eIF4G-independent cricket paralysis virus / vaccinia viral mRNAs / /

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AID / /

Organization

Department of Immunobiology / Damon Runyon Cancer Research Foundation / American Association for the Advancement of Science / Chemistry / and Howard Hughes Medical Institute / University of California / Berkeley / Yale University School of Medicine / Department of Molecular and Cell Biology / Howard Hughes Medical Institute / Department of Chemistry / /

Person

David G. Schatz / Jennifer A. Doudna / Nat / G. F. Sprague Jr. / Shyam Unniraman / /

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Position

firefly luciferase reporter / Investigator / ApppG-capped hairpin reporter / reporter / Tamira K. Butler / /

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California / New York / Connecticut / /

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Molecular Biology / /

Technology

antibodies / gene expression / /

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