Structural Basis of Transcription: An RNA Polymerase II Elongation Complex at 3.3 Å Resolution
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P. Cramer | D. Bushnell | A. Gnatt | R. Kornberg | J. Fu | Jia-Luo Fu
[1] F. Young. Biochemistry , 1955, The Indian Medical Gazette.
[2] Carl L. Hubbs,et al. SCRIPPS INSTITUTION OF OCEANOGRAPHY, UNIVERSITY OF CALIFORNIA , 1963 .
[3] C. Hsu,et al. RNA polymerase: correlation between transcript length, abortive product synthesis, and formation of a stable ternary complex. , 1982, Biochemistry.
[4] M. Chamberlin,et al. Studies of in vitro transcription by calf thymus RNA polymerase II using a novel duplex DNA template. , 1982, The Journal of biological chemistry.
[5] M. Chamberlin,et al. Isolation and properties of transcribing ternary complexes of Escherichia coli RNA polymerase positioned at a single template base. , 1987, Journal of molecular biology.
[6] R Lavery,et al. The definition of generalized helicoidal parameters and of axis curvature for irregular nucleic acids. , 1988, Journal of biomolecular structure & dynamics.
[7] M. Chamberlin,et al. RNA chain initiation by Escherichia coli RNA polymerase. Structural transitions of the enzyme in early ternary complexes. , 1989, Biochemistry.
[8] T. Steitz,et al. Structural basis for the 3′‐5′ exonuclease activity of Escherichia coli DNA polymerase I: a two metal ion mechanism. , 1991, The EMBO journal.
[9] R. Young,et al. Two dissociable subunits of yeast RNA polymerase II stimulate the initiation of transcription at a promoter in vitro. , 1991, The Journal of biological chemistry.
[10] J. Zou,et al. Improved methods for building protein models in electron density maps and the location of errors in these models. , 1991, Acta crystallographica. Section A, Foundations of crystallography.
[11] R. Kornberg,et al. Reconstitution of transcription with five purified initiation factors and RNA polymerase II from Saccharomyces cerevisiae. , 1992, The Journal of biological chemistry.
[12] P. V. von Hippel,et al. Functional transcription elongation complexes from synthetic RNA-DNA bubble duplexes. , 1992, Science.
[13] AC Tose. Cell , 1993, Cell.
[14] T. Steitz. DNA- and RNA-dependent DNA polymerases , 1993, Structural Insights into Gene Expression and Protein Synthesis.
[15] D. Goodsell,et al. Crystallographic analysis of C-C-A-A-G-C-T-T-G-G and its implications for bending in B-DNA. , 1993, Biochemistry.
[16] J. Navaza,et al. AMoRe: an automated package for molecular replacement , 1994 .
[17] C. Turnbough,et al. An Escherichia coli RNA polymerase defective in transcription due to its overproduction of abortive initiation products. , 1994, Journal of molecular biology.
[18] Jonathan T. Wang,et al. Abortive Cycling and the Release of Polymerase for Elongation at the σ54-dependent glnAp2 Promoter (*) , 1995, The Journal of Biological Chemistry.
[19] W. Gu,et al. Increased accommodation of nascent RNA in a product site on RNA polymerase II during arrest. , 1996, Proceedings of the National Academy of Sciences of the United States of America.
[20] B. Finzel,et al. The structure of an RNA/DNA hybrid: a substrate of the ribonuclease activity of HIV-1 reverse transcriptase. , 1996, Journal of molecular biology.
[21] Z. Otwinowski,et al. [20] Processing of X-ray diffraction data collected in oscillation mode. , 1997, Methods in enzymology.
[22] R. Conaway,et al. General transcription factors for RNA polymerase II. , 1997, Progress in nucleic acid research and molecular biology.
[23] Samuel H. Wilson,et al. Crystal structures of human DNA polymerase beta complexed with gapped and nicked DNA: evidence for an induced fit mechanism. , 1997, Biochemistry.
[24] F. Holstege,et al. Three transitions in the RNA polymerase II transcription complex during initiation , 1997, The EMBO journal.
[25] A. Gnatt,et al. Formation and Crystallization of Yeast RNA Polymerase II Elongation Complexes* , 1997, The Journal of Biological Chemistry.
[26] M. Kashlev,et al. Crucial role of the RNA:DNA hybrid in the processivity of transcription. , 1998, Molecular cell.
[27] James R. Kiefer,et al. Visualizing DNA replication in a catalytically active Bacillus DNA polymerase crystal , 1998, Nature.
[28] R J Read,et al. Crystallography & NMR system: A new software suite for macromolecular structure determination. , 1998, Acta crystallographica. Section D, Biological crystallography.
[29] T. Steitz,et al. Structural biology: A mechanism for all polymerases , 1998, Nature.
[30] S. Doublié,et al. Crystal structure of a bacteriophage T7 DNA replication complex at 2.2 Å resolution , 1998, Nature.
[31] K. Severinov,et al. Crystal Structure of Thermus aquaticus Core RNA Polymerase at 3.3 Å Resolution , 1999, Cell.
[32] Grant J. Jensen,et al. Yeast RNA Polymerase II at 5 Å Resolution , 1999, Cell.
[33] T. Steitz,et al. Structure of a transcribing T7 RNA polymerase initiation complex. , 1999, Science.
[34] E. Nudler. Transcription elongation: structural basis and mechanisms. , 1999, Journal of molecular biology.
[35] G. Jensen,et al. Electron Crystal Structure of an RNA Polymerase II Transcription Elongation Complex , 1999, Cell.
[36] P. Cramer,et al. Architecture of RNA polymerase II and implications for the transcription mechanism. , 2000, Science.
[37] E. Geiduschek,et al. The orientation of DNA in an archaeal transcription initiation complex , 2000, Nature Structural Biology.
[38] L. Beese,et al. Crystal structure of a pol alpha family DNA polymerase from the hyperthermophilic archaeon Thermococcus sp. 9 degrees N-7. , 2000, Journal of molecular biology.
[39] Younggyu Kim,et al. Structural Organization of the RNA Polymerase-Promoter Open Complex , 2000, Cell.
[40] S. Darst,et al. A Structural Model of Transcription Elongation , 2000 .
[41] M. Kashlev,et al. The 8-Nucleotide-long RNA:DNA Hybrid Is a Primary Stability Determinant of the RNA Polymerase II Elongation Complex* , 2000, The Journal of Biological Chemistry.
[42] Topology of yeast RNA polymerase II subunits in transcription elongation complexes studied by photoaffinity cross-linking. , 2000, Biochemistry.
[43] D. M. Cunnold,et al. Evidence for Substantial Variations of Atmospheric Hydroxyl Radicals in the Past Two Decades , 2001, Science.