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Items: 1 to 20 of 112

1.

Spt6 enhances the elongation rate of RNA polymerase II in vivo.

Ardehali MB, Yao J, Adelman K, Fuda NJ, Petesch SJ, Webb WW, Lis JT.

EMBO J. 2009 Apr 22;28(8):1067-77. doi: 10.1038/emboj.2009.56. Epub 2009 Mar 12.

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Tracking FACT and the RNA polymerase II elongation complex through chromatin in vivo.

Saunders A, Werner J, Andrulis ED, Nakayama T, Hirose S, Reinberg D, Lis JT.

Science. 2003 Aug 22;301(5636):1094-6.

4.

The RNA processing exosome is linked to elongating RNA polymerase II in Drosophila.

Andrulis ED, Werner J, Nazarian A, Erdjument-Bromage H, Tempst P, Lis JT.

Nature. 2002 Dec 19-26;420(6917):837-41.

PMID:
12490954
5.

Drosophila Paf1 modulates chromatin structure at actively transcribed genes.

Adelman K, Wei W, Ardehali MB, Werner J, Zhu B, Reinberg D, Lis JT.

Mol Cell Biol. 2006 Jan;26(1):250-60.

6.

Drosophila ELL is associated with actively elongating RNA polymerase II on transcriptionally active sites in vivo.

Gerber M, Ma J, Dean K, Eissenberg JC, Shilatifard A.

EMBO J. 2001 Nov 1;20(21):6104-14.

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8.

Regulation of the transcriptional activity of poised RNA polymerase II by the elongation factor ELL.

Smith ER, Winter B, Eissenberg JC, Shilatifard A.

Proc Natl Acad Sci U S A. 2008 Jun 24;105(25):8575-9. doi: 10.1073/pnas.0804379105. Epub 2008 Jun 17.

9.

Fcp1 dephosphorylation of the RNA polymerase II C-terminal domain is required for efficient transcription of heat shock genes.

Fuda NJ, Buckley MS, Wei W, Core LJ, Waters CT, Reinberg D, Lis JT.

Mol Cell Biol. 2012 Sep;32(17):3428-37. doi: 10.1128/MCB.00247-12. Epub 2012 Jun 25.

11.

Human Spt6 stimulates transcription elongation by RNA polymerase II in vitro.

Endoh M, Zhu W, Hasegawa J, Watanabe H, Kim DK, Aida M, Inukai N, Narita T, Yamada T, Furuya A, Sato H, Yamaguchi Y, Mandal SS, Reinberg D, Wada T, Handa H.

Mol Cell Biol. 2004 Apr;24(8):3324-36.

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14.

P-TEFb is critical for the maturation of RNA polymerase II into productive elongation in vivo.

Ni Z, Saunders A, Fuda NJ, Yao J, Suarez JR, Webb WW, Lis JT.

Mol Cell Biol. 2008 Feb;28(3):1161-70. Epub 2007 Dec 10.

15.

The large noncoding hsrω-n transcripts are essential for thermotolerance and remobilization of hnRNPs, HP1 and RNA polymerase II during recovery from heat shock in Drosophila.

Lakhotia SC, Mallik M, Singh AK, Ray M.

Chromosoma. 2012 Feb;121(1):49-70. doi: 10.1007/s00412-011-0341-x. Epub 2011 Sep 9. Erratum in: Chromosoma. 2012 Feb;121(1):105-6.

PMID:
21913129
16.

Immunostaining of Drosophila polytene chromosomes to investigate recruitment of chromatin-binding proteins.

Murawska M, Brehm A.

Methods Mol Biol. 2012;809:267-77. doi: 10.1007/978-1-61779-376-9_18.

PMID:
22113282
17.

Kinetics of promoter Pol II on Hsp70 reveal stable pausing and key insights into its regulation.

Buckley MS, Kwak H, Zipfel WR, Lis JT.

Genes Dev. 2014 Jan 1;28(1):14-9. doi: 10.1101/gad.231886.113.

18.

Coordination of transcription, RNA processing, and surveillance by P-TEFb kinase on heat shock genes.

Ni Z, Schwartz BE, Werner J, Suarez JR, Lis JT.

Mol Cell. 2004 Jan 16;13(1):55-65.

19.

RNA polymerase II elongation factors of Saccharomyces cerevisiae: a targeted proteomics approach.

Krogan NJ, Kim M, Ahn SH, Zhong G, Kobor MS, Cagney G, Emili A, Shilatifard A, Buratowski S, Greenblatt JF.

Mol Cell Biol. 2002 Oct;22(20):6979-92.

20.

Kinetic competition between elongation rate and binding of NELF controls promoter-proximal pausing.

Li J, Liu Y, Rhee HS, Ghosh SK, Bai L, Pugh BF, Gilmour DS.

Mol Cell. 2013 Jun 6;50(5):711-22. doi: 10.1016/j.molcel.2013.05.016.

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