Large-scale Proteomic Analysis of the Human Spliceosome References
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[1] S. Alahari,et al. prp4 from Schizosaccharomyces pombe, a mutant deficient in pre-mRNA splicing isolated using genes containing artificial introns , 1991, Molecular and General Genetics MGG.
[2] Juri Rappsilber,et al. Microcolumns with self-assembled particle frits for proteomics. , 2002, Journal of chromatography. A.
[3] D. Bentley. The mRNA assembly line: transcription and processing machines in the same factory. , 2002, Current opinion in cell biology.
[4] B. Graveley. Sex, AGility, and the Regulation of Alternative Splicing , 2002, Cell.
[5] Kevin Struhl,et al. TREX is a conserved complex coupling transcription with messenger RNA export , 2002, Nature.
[6] K. Hamil,et al. Protein Inhibitors of Activated STAT Resemble Scaffold Attachment Factors and Function as Interacting Nuclear Receptor Coregulators* , 2002, The Journal of Biological Chemistry.
[7] J. Valcárcel,et al. Splicing Regulation at the Second Catalytic Step by Sex-lethal Involves 3′ Splice Site Recognition by SPF45 , 2002, Cell.
[8] Ed Hurt,et al. A Conserved mRNA Export Machinery Coupled to pre-mRNA Splicing , 2002, Cell.
[9] K. Hahn,et al. Tpr is localized within the nuclear basket of the pore complex and has a role in nuclear protein export , 2002, The Journal of cell biology.
[10] T. Misteli,et al. A cyclophilin functions in pre‐mRNA splicing , 2002, The EMBO journal.
[11] M. Mann,et al. What does it mean to identify a protein in proteomics? , 2002, Trends in biochemical sciences.
[12] Gary D Bader,et al. Systematic identification of protein complexes in Saccharomyces cerevisiae by mass spectrometry , 2002, Nature.
[13] P. Bork,et al. Functional organization of the yeast proteome by systematic analysis of protein complexes , 2002, Nature.
[14] Matthias Mann,et al. Paraspeckles A Novel Nuclear Domain , 2002, Current Biology.
[15] M. Mann,et al. Directed Proteomic Analysis of the Human Nucleolus , 2002, Current Biology.
[16] Roger E. Moore,et al. Composition and functional characterization of the yeast spliceosomal penta-snRNP. , 2002, Molecular cell.
[17] Ruedi Aebersold,et al. Advances in Proteome Analysis by Mass Spectrometry* , 2001, The Journal of Biological Chemistry.
[18] M. Garcia-Blanco,et al. The Transcription Elongation Factor CA150 Interacts with RNA Polymerase II and the Pre-mRNA Splicing Factor SF1 , 2001, Molecular and Cellular Biology.
[19] A. Lamond,et al. A Direct Interaction between the Carboxyl-terminal Region of CDC5L and the WD40 Domain of PLRG1 Is Essential for Pre-mRNA Splicing* , 2001, The Journal of Biological Chemistry.
[20] J. Yong,et al. SMN interacts with a novel family of hnRNP and spliceosomal proteins , 2001, The EMBO journal.
[21] Zuo Zhang,et al. The Fate of dsRNA in the Nucleus A p54nrb-Containing Complex Mediates the Nuclear Retention of Promiscuously A-to-I Edited RNAs , 2001, Cell.
[22] A. Lamond,et al. SPF30 Is an Essential Human Splicing Factor Required for Assembly of the U4/U5/U6 Tri-small Nuclear Ribonucleoprotein into the Spliceosome* , 2001, The Journal of Biological Chemistry.
[23] C. Will,et al. Spliceosomal UsnRNP biogenesis, structure and function. , 2001, Current opinion in cell biology.
[24] A. Krainer,et al. Pre-mRNA splicing in the new millennium. , 2001, Current opinion in cell biology.
[25] J. Yates,et al. Large-scale analysis of the yeast proteome by multidimensional protein identification technology , 2001, Nature Biotechnology.
[26] B. Kuster,et al. Functional analysis of the human CDC5L complex and identification of its components by mass spectrometry , 2000, The EMBO journal.
[27] I. Chernushevich. Duty Cycle Improvement for a Quadrupole—Time-of-Flight Mass Spectrometer and its Use for Precursor Ion Scans , 2000 .
[28] E. Hurt,et al. The protein Aly links pre-messenger-RNA splicing to nuclear export in metazoans , 2000, Nature.
[29] B. Chait,et al. The Yeast Nuclear Pore Complex: Composition, Architecture, and Transport Mechanism , 2000 .
[30] D. N. Perkins,et al. Probability‐based protein identification by searching sequence databases using mass spectrometry data , 1999, Electrophoresis.
[31] E. Koonin,et al. G-patch: a new conserved domain in eukaryotic RNA-processing proteins and type D retroviral polyproteins. , 1999, Trends in biochemical sciences.
[32] L. Minvielle-Sebastia,et al. mRNA polyadenylation and its coupling to other RNA processing reactions and to transcription. , 1999, Current opinion in cell biology.
[33] B. Blencowe,et al. The PWI motif: a new protein domain in splicing factors. , 1999, Trends in biochemical sciences.
[34] M. Kupiec,et al. The identification and characterization of a novel splicing protein, Isy1p, of Saccharomyces cerevisiae. , 1999, RNA.
[35] S. Doxsey,et al. Functional Analysis of Tpr: Identification of Nuclear Pore Complex Association and Nuclear Localization Domains and a Role in mRNA Export , 1998, The Journal of cell biology.
[36] Juri Rappsilber,et al. Mass spectrometry and EST-database searching allows characterization of the multi-protein spliceosome complex , 1998, Nature Genetics.
[37] A. Hartmann,et al. SAF-B protein couples transcription and pre-mRNA splicing to SAR/MAR elements. , 1998, Nucleic acids research.
[38] M. Mann,et al. Analysis of the Saccharomyces Spindle Pole by Matrix-assisted Laser Desorption/Ionization (MALDI) Mass Spectrometry , 1998, The Journal of cell biology.
[39] M. Wilm,et al. TAP, the human homolog of Mex67p, mediates CTE-dependent RNA export from the nucleus. , 1998, Molecular cell.
[40] R. Reed,et al. Human homologs of yeast Prp16 and Prp17 reveal conservation of the mechanism for catalytic step II of pre‐mRNA splicing , 1998, The EMBO journal.
[41] M. Mann,et al. A comprehensive biochemical and genetic analysis of the yeast U1 snRNP reveals five novel proteins. , 1998, RNA.
[42] K Nasmyth,et al. Mass spectrometric analysis of the anaphase-promoting complex from yeast: identification of a subunit related to cullins. , 1998, Science.
[43] C. Guthrie,et al. Mechanical Devices of the Spliceosome: Motors, Clocks, Springs, and Things , 1998, Cell.
[44] U. Stahl,et al. The protein family of RNA helicases. , 1998, Critical reviews in biochemistry and molecular biology.
[45] C. Will,et al. Protein functions in pre-mRNA splicing. , 1997, Current opinion in cell biology.
[46] L. Minvielle-Sebastia,et al. A comparison of mammalian and yeast pre-mRNA 3'-end processing. , 1997, Current opinion in cell biology.
[47] M. Mann,et al. Identification of the proteins of the yeast U1 small nuclear ribonucleoprotein complex by mass spectrometry. , 1997, Proceedings of the National Academy of Sciences of the United States of America.
[48] A. Shevchenko,et al. Mass spectrometric sequencing of proteins silver-stained polyacrylamide gels. , 1996, Analytical chemistry.
[49] A. Shevchenko,et al. Femtomole sequencing of proteins from polyacrylamide gels by nano-electrospray mass spectrometry , 1996, Nature.
[50] M. Mann,et al. Identification of hnRNP P2 as TLS/FUS using electrospray mass spectrometry. , 1995, RNA.
[51] B. Séraphin. Sm and Sm‐like proteins belong to a large family: identification of proteins of the U6 as well as the U1, U2, U4 and U5 snRNPs. , 1995, The EMBO journal.
[52] Y. Shamoo,et al. Multiple RNA binding domains (RBDs) just don't add up. , 1995, Nucleic acids research.
[53] M. Wilm,et al. Error-tolerant identification of peptides in sequence databases by peptide sequence tags. , 1994, Analytical chemistry.
[54] Joe D. Lewis,et al. A nuclear cap binding protein complex involved in pre-mRNA splicing , 1994, Cell.
[55] C. Burd,et al. hnRNP proteins and the biogenesis of mRNA. , 1993, Annual review of biochemistry.
[56] C. Guthrie,et al. An essential splicing factor, SLU7, mediates 3' splice site choice in yeast. , 1992, Genes & development.
[57] A. Krämer,et al. Purification of splicing factor SF1, a heat-stable protein that functions in the assembly of a presplicing complex , 1992, Molecular and cellular biology.
[58] J Vandekerckhove,et al. Microsequences of 145 proteins recorded in the two‐dimensional gel protein database of normal human epidermal keratinocytes , 1992, Electrophoresis.
[59] R. Reed,et al. Protein composition of mammalian spliceosomes assembled in vitro. , 1990, Proceedings of the National Academy of Sciences of the United States of America.