Author(s): Gillette TG, Gonzalez F, Delahodde A, Johnston SA, Kodadek T
Recent studies from a number of laboratories have revealed a surprising number of connections between RNA polymerase II transcription and the ubiquitin/proteasome pathway. We now find yet another intersection of these pathways by showing that the 26S proteasome associates with regions of the GAL1, GAL10, and HSP82 genes, including the 3' ends, in a transcription-dependent fashion. The appearance of the proteasome on these inducible genes correlates with both the accumulation of transcripts and the buildup of RNA polymerase II complexes in the same region. Furthermore, the 26S proteasome and RNA polymerase II coimmunoprecipitate, and inhibition of 26S proteolytic activity leads to increased read through of a transcription termination site. We suggest that the proteasome is generally recruited to the DNA at sites of stalled RNA polymerase and may act to resolve these complexes.
Referred From: https://www.ncbi.nlm.nih.gov/pubmed/15069196
Author(s): Koo MW, Cho CH
Author(s): Yang CS, Maliakal P, Meng X
Author(s): Gupta S, Ahmad N, Mohan RR, Husain MM, Mukhtar H
Author(s): Gupta S, Ahmad N, Mukhtar H
Author(s): Katiyar SK, Challa A, McCormick TS, Cooper KD, Mukhtar H
Author(s): Katiyar SK, Matsui MS, Elmets CA, Mukhtar H
Author(s): Yamane T, Takahashi T, Kuwata K, Oya K, Inagake M, et al.
Author(s): Saeki K, Kobayashi N, Inazawa Y, Zhang H, Nishitoh H, et al.
Author(s): Hayakawa S, Kimura T, Saeki K, Koyama Y, Aoyagi Y, et al.
Author(s): Hayakawa S, Saeki K, Sazuka M, Suzuki Y, Shoji Y, et al.
Author(s): Tanaka S, Aizawa K, Katayanagi N, Tanaka O
Author(s): Smith DM, Wang Z, Kazi A, Li LH, Chan TH, et al.
Author(s): Nam S, Smith DM, Dou QP
Author(s): Baumeister W, Walz J, Zühl F, Seemüller E
Author(s): Rocca A, Lamaze C, Subtil A, Dautry-Varsat A
Author(s): Pickering AM, Koop AL, Teoh CY, Ermak G, Grune T, et al.
Author(s): Ferdous A, Gonzalez F, Sun L, Kodadek T, Johnston SA
Author(s): Archer CT, Delahodde A, Gonzalez F, Johnston SA, Kodadek T
Author(s): Gonzalez F, Delahodde A, Kodadek T, Johnston SA
Author(s): Gillette TG, Huang W, Russell SJ, Reed SH, Johnston SA, et al.
Author(s): Gillette TG, Yu S, Zhou Z, Waters R, Johnston SA, et al.
Author(s): Reed SH, Gillette TG
Author(s): Hu X, Bryington M, Fisher AB, Liang X, Zhang X, et al.
Author(s): Horie N, Hirabayashi N, Takahashi Y, Miyauchi Y, Taguchi H, et al.
Author(s): Cheynier V
Author(s): Fenteany G, Schreiber SL
Author(s): Concannon CG, Koehler BF, Reimertz C, Murphy BM, Bonner C, et al.
Author(s): DeMartino GN
Author(s): Salvesen GS
Author(s): Wang H, Shimoji M, Yu SW, Dawson TM, Dawson VL
Author(s): Yu SW, Wang H, Dawson TM, Dawson VL
Author(s): Polyak K, Kato JY, Solomon MJ, Sherr CJ, Massague J, et al.
Author(s): Toyoshima H, Hunter T
Author(s): Guttridge DC, Albanese C, Reuther JY, Pestell RG, Baldwin AS Jr
Author(s): Lambert JD, Lee MJ, Lu H, Meng X, Hong JJ, et al.
Author(s): Lambert JD, Yang CS
Author(s): Lambert JD, Yang CS
Author(s): Chen D, Milacic V, Chen MS, Wan SB, Lam WH, et al.
Author(s): Zhang Q, Tang X, Lu Q, Zhang Z, Rao J, et al.
Author(s): Golden EB, Lam PY, Kardosh A, Gaffney KJ, Cadenas E, et al.
