Conspicuous accumulation of transcription elongation repressor hrp130/CA150 on the intron-rich Balbiani ring 3 gene
暂无分享,去创建一个
E. Sonnhammer | B. Daneholt | Jian Zhao | Xin-Lai Sun | A. Alzhanova-Ericsson | N. Visa | K. Kylberg | Teresa Soop | K. Palka
[1] Christopher J. Lee,et al. Combining partial order alignment and progressive multiple sequence alignment increases alignment speed and scalability to very large alignment problems , 2004, Bioinform..
[2] M. Bycroft,et al. The structure of an FF domain from human HYPA/FBP11. , 2002, Journal of molecular biology.
[3] Kevin Struhl,et al. TREX is a conserved complex coupling transcription with messenger RNA export , 2002, Nature.
[4] T. Maniatis,et al. An extensive network of coupling among gene expression machines , 2002, Nature.
[5] A. Furger,et al. Integrating mRNA Processing with Transcription , 2002, Cell.
[6] 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.
[7] P. Silver,et al. Messenger RNAs are recruited for nuclear export during transcription. , 2001, Genes & development.
[8] B. Daneholt,et al. Assembly and transport of a premessenger RNP particle , 2001, Proceedings of the National Academy of Sciences of the United States of America.
[9] S. Masich,et al. In situ transcription and splicing in the Balbiani ring 3 gene , 2001, The EMBO journal.
[10] A. Greenleaf,et al. The Splicing Factor, Prp40, Binds the Phosphorylated Carboxyl-terminal Domain of RNA Polymerase II* , 2000, The Journal of Biological Chemistry.
[11] M. Garcia-Blanco,et al. Expression analysis and mapping of the mouse and human transcriptional regulator CA150 , 2000, Mammalian Genome.
[12] M. Garcia-Blanco,et al. Protein-interaction modules that organize nuclear function: FF domains of CA150 bind the phosphoCTD of RNA polymerase II. , 2000, Proceedings of the National Academy of Sciences of the United States of America.
[13] W. Lim,et al. Converging on proline: the mechanism of WW domain peptide recognition , 2000, Nature Structural Biology.
[14] J. Manley,et al. RNA polymerase II and the integration of nuclear events. , 2000, Genes & development.
[15] M. Bedford,et al. The FF domain: a novel motif that often accompanies WW domains. , 1999, Trends in biochemical sciences.
[16] M. Garcia-Blanco,et al. Transcriptional Cofactor CA150 Regulates RNA Polymerase II Elongation in a TATA-Box-Dependent Manner , 1999, Molecular and Cellular Biology.
[17] M. Swanson,et al. hnRNP complexes: composition, structure, and function. , 1999, Current opinion in cell biology.
[18] D. Bentley,et al. Coupling RNA polymerase II transcription with pre-mRNA processing. , 1999, Current opinion in cell biology.
[19] B. Daneholt,et al. The hrp23 Protein in the Balbiani Ring Pre-mRNP Particles Is Released Just before or at the Binding of the Particles to the Nuclear Pore Complex , 1998, The Journal of cell biology.
[20] Juri Rappsilber,et al. Mass spectrometry and EST-database searching allows characterization of the multi-protein spliceosome complex , 1998, Nature Genetics.
[21] S. Belikov,et al. Transcriptional termination in the Balbiani ring 1 gene is closely coupled to 3'-end formation and excision of the 3'-terminal intron. , 1998, Genes & development.
[22] M. Sudol,et al. The WW Domain of Neural Protein FE65 Interacts with Proline-rich Motifs in Mena, the Mammalian Homolog of DrosophilaEnabled* , 1997, The Journal of Biological Chemistry.
[23] R. Young,et al. CA150, a nuclear protein associated with the RNA polymerase II holoenzyme, is involved in Tat-activated human immunodeficiency virus type 1 transcription , 1997, Molecular and cellular biology.
[24] D. Sterner,et al. Assaying CTD kinases in vitro and phosphorylation-modulated properties of RNA polymerase II in vivo. , 1997, Methods.
[25] M. Rosbash,et al. Cross-Intron Bridging Interactions in the Yeast Commitment Complex Are Conserved in Mammals , 1997, Cell.
[26] P. Leder,et al. FBP WW domains and the Abl SH3 domain bind to a specific class of proline‐rich ligands , 1997, The EMBO journal.
[27] 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.
[28] E. Kiseleva,et al. A protein of the SR family of splicing factors binds extensively to exonic Balbiani ring pre-mRNA and accompanies the RNA from the gene to the nuclear pore. , 1996, Genes & development.
[29] L. Wieslander,et al. The intranuclear site of excision of each intron in Balbiani ring 3 pre-mRNA is influenced by the time remaining to transcription termination and different excision efficiencies for the various introns. , 1996, RNA.
[30] E. Kiseleva,et al. Identification of two RNA-binding proteins in Balbiani ring premessenger ribonucleoprotein granules and presence of these proteins in specific subsets of heterogeneous nuclear ribonucleoprotein particles , 1996, Molecular and cellular biology.
[31] H. Kao,et al. Identification of Prp40, a novel essential yeast splicing factor associated with the U1 small nuclear ribonucleoprotein particle , 1996, Molecular and Cellular Biology.
[32] E. Kiseleva,et al. A Pre-mRNA-Binding Protein Accompanies the RNA from the Gene through the Nuclear Pores and into Polysomes , 1996, Cell.
[33] M. Sudol,et al. The WW domain of Yes-associated protein binds a proline-rich ligand that differs from the consensus established for Src homology 3-binding modules. , 1995, Proceedings of the National Academy of Sciences of the United States of America.
[34] P. Bork,et al. Characterization of a novel protein‐binding module — the WW domain , 1995, FEBS letters.
[35] E. Kiseleva,et al. Assembly and disassembly of spliceosomes along a specific pre‐messenger RNP fiber. , 1994, The EMBO journal.
[36] C. Burd,et al. Conserved structures and diversity of functions of RNA-binding proteins. , 1994, Science.
[37] S. Fakan,et al. Perichromatin fibrils are in situ forms of nascent transcripts. , 1994, Trends in cell biology.
[38] I. Mattaj. RNA recognition: A family matter? , 1993, Cell.
[39] G. Dreyfuss,et al. Association of individual hnRNP proteins and snRNPs with nascent transcripts , 1993, The Journal of cell biology.
[40] A. Krämer,et al. Three protein factors (SF1, SF3 and U2AF) function in pre‐splicing complex formation in addition to snRNPs. , 1991, The EMBO journal.
[41] S. S. Dignam,et al. Balbiani ring 3 in Chironomus tentans encodes a 185-kDa secretory protein which is synthesized throughout the fourth larval instar. , 1990, Gene.
[42] U. Lendahl,et al. The Balbiani ring 3 gene in Chironomus tentans has a diverged repetitive structure split by many introns. , 1990, Journal of molecular biology.
[43] G. Dreyfuss,et al. A novel heterogeneous nuclear RNP protein with a unique distribution on nascent transcripts , 1989, The Journal of cell biology.
[44] B. Daneholt,et al. Structure of the chromatin axis during transcription , 1988, Chromosoma.
[45] G. Dreyfuss,et al. Immunopurification of heterogeneous nuclear ribonucleoprotein particles reveals an assortment of RNA-binding proteins. , 1988, Genes & development.
[46] J. Gall,et al. Monoclonal antibodies that recognize transcription unit proteins on newt lampbrush chromosomes , 1987, The Journal of cell biology.
[47] N. Saitou,et al. The neighbor-joining method: a new method for reconstructing phylogenetic trees. , 1987, Molecular biology and evolution.
[48] E. Bautz,et al. Differential distribution of RNA polymerase B and nonhistone chromosomal proteins in polytene chromosomes of Drosophila melanogaster. , 1983, The EMBO journal.
[49] C. Wyss. Ecdysterone, insulin and fly extract needed for the proliferation of normal Drosophila cells in defined medium. , 1982, Experimental cell research.
[50] M. Lezzi,et al. Heat shock phenomena in Chironomus tentans , 1981, Chromosoma.
[51] J. Sommerville,et al. Immunofluorescent localization of transcriptional activity on lampbrush chromosomes , 1978, Chromosoma.
[52] C. Pelling. [RIBONUCLEIC ACID SYNTHESIS IN GIANT CHROMOSOMES. AUTORADIOGRAPHIC INVESTIGATIONS ON CHIRONOMUS TENTANS]. , 1964, Chromosoma.
[53] C. Pelling. Ribonukleinsäure-Synthese der Riesenchromosomen , 2004, Chromosoma.
[54] C. Abbadie,et al. Monoclonal antibodies to lampbrush chromosome antigens of Pleurodeles waltlii , 2004, Chromosoma.
[55] L. Wieslander. The Balbiani ring multigene family: coding repetitive sequences and evolution of a tissue-specific cell function. , 1994, Progress in nucleic acid research and molecular biology.
[56] C. Burd,et al. hnRNP proteins and the biogenesis of mRNA. , 1993, Annual review of biochemistry.
[57] E. Harlow,et al. Antibodies: A Laboratory Manual , 1988 .
[58] M. Aebi,et al. Precision and orderliness in splicing , 1987 .
[59] B. Daneholt,et al. The content of deoxyribonucleic acid in individual polytene chromosomes of Chironomus tentans. , 1967, Cytogenetics.