Phosphorylation-regulated binding of RNA polymerase II to fibrous polymers of low-complexity domains.

Kwon, Ilmin; Kato, Masato; Xiang, Siheng; Wu, Leeju; Theodoropoulos, Pano; Mirzaei, Hamid; Han, Tina; Xie, Shanhai; Corden, Jeffry L; McKnight, Steven L

Kwon, Ilmin; Kato, Masato; Xiang, Siheng; Wu, Leeju; Theodoropoulos, Pano; Mirzaei, Hamid; Han, Tina; Xie, Shanhai; Corden, Jeffry L; McKnight, Steven L.

Affiliation

Kwon I; Department of Biochemistry University of Texas Southwestern Medical Center 5323 Harry Hines Boulevard Dallas, TX 75390-9152.
Kato M; Department of Biochemistry University of Texas Southwestern Medical Center 5323 Harry Hines Boulevard Dallas, TX 75390-9152.
Xiang S; Department of Biochemistry University of Texas Southwestern Medical Center 5323 Harry Hines Boulevard Dallas, TX 75390-9152.
Wu L; Department of Biochemistry University of Texas Southwestern Medical Center 5323 Harry Hines Boulevard Dallas, TX 75390-9152.
Theodoropoulos P; Department of Biochemistry University of Texas Southwestern Medical Center 5323 Harry Hines Boulevard Dallas, TX 75390-9152.
Mirzaei H; Department of Biochemistry University of Texas Southwestern Medical Center 5323 Harry Hines Boulevard Dallas, TX 75390-9152.
Han T; Department of Biochemistry University of Texas Southwestern Medical Center 5323 Harry Hines Boulevard Dallas, TX 75390-9152.
Xie S; Department of Biochemistry University of Texas Southwestern Medical Center 5323 Harry Hines Boulevard Dallas, TX 75390-9152.
Corden JL; Department of Molecular Biology and Genetics The Johns Hopkins University School of Medicine Baltimore, MD 21205.
McKnight SL; Department of Biochemistry University of Texas Southwestern Medical Center 5323 Harry Hines Boulevard Dallas, TX 75390-9152.

Cell ; 155(5): 1049-1060, 2013 Nov 21.

Article in En | MEDLINE | ID: mdl-24267890

ABSTRACT

ABSTRACT

The low-complexity (LC) domains of the products of the fused in sarcoma (FUS), Ewings sarcoma (EWS), and TAF15 genes are translocated onto a variety of different DNA-binding domains and thereby assist in driving the formation of cancerous cells. In the context of the translocated fusion proteins, these LC sequences function as transcriptional activation domains. Here, we show that polymeric fibers formed from these LC domains directly bind the C-terminal domain (CTD) of RNA polymerase II in a manner reversible by phosphorylation of the iterated, heptad repeats of the CTD. Mutational analysis indicates that the degree of binding between the CTD and the LC domain polymers correlates with the strength of transcriptional activation. These studies offer a simple means of conceptualizing how RNA polymerase II is recruited to active genes in its unphosphorylated state and released for elongation following phosphorylation of the CTD.

Subject(s)

RNA Polymerase II/chemistry; RNA Polymerase II/metabolism; Transcriptional Activation; HeLa Cells; Humans; Hydrogels/chemistry; Hydrogels/metabolism; Microsatellite Repeats; Phosphorylation; Polymerization; Protein Structure, Tertiary; RNA-Binding Protein EWS/metabolism; RNA-Binding Protein FUS/chemistry; RNA-Binding Protein FUS/genetics; RNA-Binding Protein FUS/metabolism; TATA-Binding Protein Associated Factors/chemistry; TATA-Binding Protein Associated Factors/metabolism

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Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: RNA Polymerase II / Transcriptional Activation Limits: Humans Language: En Journal: Cell Year: 2013 Document type: Article

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