Splicing modulators act at the branch point adenosine binding pocket defined by the PHF5A–SF3b complex

A number of natural occurring small-molecule splicing modulators are known. Here, the authors combine chemogenomic, structural and biochemical methods and show that these compounds also target the spliceosome-associated protein PHF5A and propose a potential modulator binding site in the PHF5A–SF3B1...

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Autores principales: Teng Teng, Jennifer HC Tsai, Xiaoling Puyang, Michael Seiler, Shouyong Peng, Sudeep Prajapati, Daniel Aird, Silvia Buonamici, Benjamin Caleb, Betty Chan, Laura Corson, Jacob Feala, Peter Fekkes, Baudouin Gerard, Craig Karr, Manav Korpal, Xiang Liu, Jason T. Lowe, Yoshiharu Mizui, James Palacino, Eunice Park, Peter G. Smith, Vanitha Subramanian, Zhenhua Jeremy Wu, Jian Zou, Lihua Yu, Agustin Chicas, Markus Warmuth, Nicholas Larsen, Ping Zhu
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2017
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Acceso en línea:https://doaj.org/article/bcd02552d59140f1871d75acbfffec14
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Sumario:A number of natural occurring small-molecule splicing modulators are known. Here, the authors combine chemogenomic, structural and biochemical methods and show that these compounds also target the spliceosome-associated protein PHF5A and propose a potential modulator binding site in the PHF5A–SF3B1 complex.