RNAi Screening Implicates a SKN-1–Dependent Transcriptional Response in Stress Resistance and Longevity Deriving from Translation Inhibition Jinling Wang1., Stacey Robida-Stubbs1., Jennifer M. A. Tullet1¤a, Jean-Franc

Source URL: blackwellweb.joslin.harvard.edu

• Gene expression
• Molecular genetics
• RNA
• Molecular biology
• RNA interference
• Protein biosynthesis
• Caenorhabditis elegans
• EIF4G
• DNA repair
• Eukaryotic initiation factor 4F
• Daf-16

Mass spectrometry reveals modularity and a complete subunit interaction map of the eukaryotic translation factor eIF3 Min Zhou*, Alan M. Sandercock*, Christopher S. Fraser†, Gabriela Ridlova*, Elaine Stephens*, Matthew

Source URL: rna.berkeley.edu

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

Source URL: rna.berkeley.edu

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

doi:j.molcel

Source URL: rna.berkeley.edu

• Protein biosynthesis
• Gene expression
• Molecular biology
• Eukaryotic initiation factor
• EIF2
• Hepatitis C virus internal ribosome entry site
• Eukaryotic translation
• Ribosome
• Ribosomal RNA
• Biology
• RNA
• Biochemistry

The eukaryotic translation initiation regulator CDC123 defines a divergent clade of ATP-grasp enzymes with a predicted role in novel protein modifications

Source URL: www.biologydirect.com

Allosteric collaboration between elongation factor G and the ribosomal L1 stalk directs tRNA movements during translation Jingyi Feia, Jonathan E. Bronsona, Jake M. Hofmanb,1, Rathi L. Srinivasc, Chris H. Wigginsd, and R

Source URL: www.pnas.org

• Chemistry
• Prokaryotic translation
• EF-G
• EF-Tu
• Translation
• Transfer RNA
• 50S
• Eukaryotic elongation factors
• Ribosome
• Protein biosynthesis
• Biology
• Biochemistry

Vol 461j29 October 2009jdoi:nature08403 REVIEWS What recent ribosome structures have revealed about the mechanism of translation T. Martin Schmeing1 & V. Ramakrishnan1

Source URL: www.mrc-lmb.cam.ac.uk

• Prokaryotic translation
• Translation
• EF-G
• EF-Tu
• Transfer RNA
• 50S
• Eukaryotic translation
• Ribosome
• Ribosomal RNA
• Biology
• Protein biosynthesis
• Biochemistry

Proc. Natl. Acad. Sci. USA Vol. 96, pp. 4301–4306, April 1999 Biochemistry Location of translational initiation factor IF3 on the small ribosomal subunit

Source URL: www.mrc-lmb.cam.ac.uk

• Prokaryotic initiation factor
• Ribosome
• Ribosomal RNA
• 50S
• Eukaryotic initiation factor
• Translation
• Ribosomal protein
• 30S
• Transfer RNA
• Biology
• Protein biosynthesis
• Biochemistry

doi:j.molcel

Source URL: www.mrc-lmb.cam.ac.uk

• RNA
• Gene expression
• Molecular biology
• Eukaryotic initiation factor
• Hepatitis C virus internal ribosome entry site
• EIF2
• Ribosome
• Eukaryotic translation
• Prokaryotic translation
• Biology
• Biochemistry
• Protein biosynthesis

The role of ribosome recycling, diffusion, and mRNA loop formation in translational regulation Tom Chou Dept. of Biomathematics UCLA Los Angeles, CA

Source URL: icsb-2001.org

• Gene expression
• Molecular biology
• RNA
• Messenger RNA
• Translation
• Ribosome
• Eukaryotic translation
• Transcription
• Prokaryotic translation
• Biology
• Biochemistry
• Protein biosynthesis