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Life Sciences - Biochemistry & Biophysics | Protein Synthesis and Targeting in Yeast

Protein Synthesis and Targeting in Yeast

Proceedings of the NATO Advanced Research Workshop on Protein Synthesis and Targeting in Yeast, held at Canterbury, Kent, UK, July 4-8, 1992

Series: Nato ASI Subseries H:, Vol. 71

Brown, Alistair J.P., Tuite, Mick, McCarthy, John E.G. (Eds.)

Softcover reprint of the original 1st ed. 1993, XV, 414 p.

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  • About this book

Due to fundamental similarities between the yeast Saccharomyces cerevisiae and multicellular organisms at the molecular level, and the powerful range of experimental tools available for this yeast, S. cerevisiae is proving an ideal model system for studies on protein synthesis and targeting. The topics covered are: - Messenger RNA stability and translation.- The translation apparatus. - Translational control andfidelity. - Protein targeting to the mitochondrion. - Nuclear transport. - The secretory pathway. - Protein folding and degradation. - Protein splicing. Modern and often novel molecular, genetic and biochemical approaches as well as most recent data are provided. The reader will gain a comprehensive view of the current status of the field.

Content Level » Research

Keywords » Genexpression - Hefe - Proteinsynthese - Saccharomyces cerevisiae - Translation - gene expression - protein synthesis - translation - yeast

Related subjects » Biochemistry & Biophysics - Cell Biology - Microbiology

Table of contents 

Mrna Stability and Translation.- 1: Identification of the cis-acting sequences and trans-acting factors involved in nonsense-mediated mRNA decay.- 2: RNA14 and RNA15, two proteins regulating mRNA stability in Saccharomyces cerevisiae.- 3: Translational control in Saccharomyces cerevisiae studies in vivo and in vitro.- The Ribosome.- 4: Thoughts on the regulation of ribosome synthesis in Saccharomyces cerevisiae.- 5: Regulation of ribosomal protein synthesis in yeasts (Saccharomyces and Kluyveromyces).- 6: The evolution of ribosomal proteins and yeast.- 7: The acidic ribosomal proteins and the control of protein synthesis in yeast.- Translational Fidelity.- 8: SUP35 and SUP45 genes code for ribosome-bound proteins involved in the control of translational fidelity in yeast.- 9: Mutations affecting translational accuracy in yeast.- 10: Dosage-dependent modifiers of psi’-dependent omnipotent suppression in yeast.- 11: Aberrant mRNA decoding by the dimorphic yeast Candida albicans.- Translation Factors.- 12: Effect of initiation factor eIF-5A depletion on cell proliferation and protein synthesis.- 13: Analysis of the genes encoding eIF-4A from yeast.- 14: Uncharged tRNA and derepression of the general amino acid control: autoregulation of yeast lysyl-tRNA synthetase.- Translation in the Mitochondrion.- 15: Positive control of translation in organellar genetic systems.- 16: Translation in yeast mitochondria.- 17: Yeast mitochondrial translation: nuclear genes involved in the expression of the mitochondrial genome.- Mitochondrial Import and Sorting.- 18: Early events in protein import into mitochondria.- 19: Targeting pathways to the mitochondrial inner membrane.- 20: Intra-mitochondrial sorting of precursor proteins.- 21: Genetic characterization of the intermembrane space sorting domains of yeast cytochrome b2.- 22: Mitochondrial import of cytochrome C.- Nuclear Transport.- 23: Using yeast to study exchange of macromolecules between the cytoplasm and the nucleus..- 24: Nucleocytoplasmic transport in ribosome biogenesis.- 25: Approaches towards a genetic analysis of the nuclear pore complex in yeast.- Targeting to the Endoplasmic Reticulum and Beyond.- 26: The SRP-dependent protein targeting pathway in Saccharomyces cerevisiae.- 27: Similarities between Scerevisiae Sec 61p and E. coli SecY suggest a common origin for protein translocases of the eukaryotic ER and the bactenal plasma membrane.- 28: ATP transport into yeast ER is a prerequisite for preprotein transfer across the ER membrane.- 29: Cross-linking signal sequences to components of yeast microsomes.- 30: The nucleotide cycle of SEC4 is important for its function in vesicular transport.- 31: Vacuolar protein sorting in yeast.- 32: Eukaryotic MDR1/P-glycoprotein homologues: unconventional secretion processes mediated by a growing family of ATP-dependent membrane translocators.- Intracellular Protein Folding.- 33: The role of protein disulfide isomerase in yeast.- 34: Novel chaperone-like pro-sequences allow secretion of recombinant human insulin-like growth factor-1 from yeast.- 35: mRNA translation and protein folding in vivo.- Protein Splicing and Degradation.- 36: Protein splicing of yeast TFP1: evidence for a new class of mobile genetic elements.- 37: Ubiquitin-dependent protein degradation.- 38: The TIF463A and TIF463B genes encode the large subunits of the yeast cap binding protein complex.

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