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  • Author: Wu CC
  • References

Author: Wu CC


References 21 references


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  • Filipek K, et al. (2024) Phosphorylation of P-stalk proteins defines the ribosomal state for interaction with auxiliary protein factors. EMBO Rep 25(12):5478-5506 PMID:39468350
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  • McQuown AJ, et al. (2023) A Zpr1 co-chaperone mediates folding of eukaryotic translation elongation factor 1A via a GTPase cycle. Mol Cell 83(17):3108-3122.e13 PMID:37597513
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  • Sabbarini IM, et al. (2023) Zinc-finger protein Zpr1 is a bespoke chaperone essential for eEF1A biogenesis. Mol Cell 83(2):252-265.e13 PMID:36630955
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  • Shafieinouri M, et al. (2022) High-Resolution Ribosome Profiling for Determining Ribosome Functional States During Translation Elongation. Methods Mol Biol 2428:173-186 PMID:35171480
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  • Wang TH, et al. (2022) The flavonoid corylin exhibits lifespan extension properties in mouse. Nat Commun 13(1):1238 PMID:35264584
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  • Tesina P, et al. (2020) Molecular mechanism of translational stalling by inhibitory codon combinations and poly(A) tracts. EMBO J 39(3):e103365 PMID:31858614
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  • D'Orazio KN, et al. (2019) The endonuclease Cue2 cleaves mRNAs at stalled ribosomes during No Go Decay. Elife 8 PMID:31219035
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  • Tsai YY, et al. (2019) Delta-9 fatty acid desaturase overexpression enhanced lipid production and oleic acid content in Rhodosporidium toruloides for preferable yeast lipid production. J Biosci Bioeng 127(4):430-440 PMID:30316698
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  • Khoo SK, et al. (2018) The TFIIE-related Rpc82 subunit of RNA polymerase III interacts with the TFIIB-related transcription factor Brf1 and the polymerase cleft for transcription initiation. Nucleic Acids Res 46(3):1157-1166 PMID:29177422
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  • Liakath-Ali K, et al. (2018) An evolutionarily conserved ribosome-rescue pathway maintains epidermal homeostasis. Nature 556(7701):376-380 PMID:29643507
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  • Schuller AP, et al. (2017) eIF5A Functions Globally in Translation Elongation and Termination. Mol Cell 66(2):194-205.e5 PMID:28392174
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  • Hu HL, et al. (2015) A Region of Bdp1 Necessary for Transcription Initiation That Is Located within the RNA Polymerase III Active Site Cleft. Mol Cell Biol 35(16):2831-40 PMID:26055328
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  • Khoo SK, et al. (2014) Mapping the protein interaction network for TFIIB-related factor Brf1 in the RNA polymerase III preinitiation complex. Mol Cell Biol 34(3):551-9 PMID:24277937
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  • Wu CC, et al. (2012) RNA polymerase III subunit architecture and implications for open promoter complex formation. Proc Natl Acad Sci U S A 109(47):19232-7 PMID:23132938
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  • Wu CC, et al. (2011) The TFIIF-like Rpc37/53 dimer lies at the center of a protein network to connect TFIIIC, Bdp1, and the RNA polymerase III active center. Mol Cell Biol 31(13):2715-28 PMID:21536656
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  • Liu KL, et al. (2008) Novel microchip for in situ TEM imaging of living organisms and bio-reactions in aqueous conditions. Lab Chip 8(11):1915-21 PMID:18941693
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  • Wu CC, et al. (2006) The cadmium transport sites of CadA, the Cd2+-ATPase from Listeria monocytogenes. J Biol Chem 281(40):29533-41 PMID:16835223
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  • MacCoss MJ, et al. (2005) Measurement of the isotope enrichment of stable isotope-labeled proteins using high-resolution mass spectra of peptides. Anal Chem 77(23):7646-53 PMID:16316172
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  • MacCoss MJ, et al. (2003) A correlation algorithm for the automated quantitative analysis of shotgun proteomics data. Anal Chem 75(24):6912-21 PMID:14670053
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  • Wu CC and MacCoss MJ (2002) Shotgun proteomics: tools for the analysis of complex biological systems. Curr Opin Mol Ther 4(3):242-50 PMID:12139310
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  • Wu CC, et al. (2000) GMx33: a novel family of trans-Golgi proteins identified by proteomics. Traffic 1(12):963-75 PMID:11208086
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