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Three human RNA polymerases interact with TFIIH via a common RPB6 subunit

K.M. Okuda, L.S. Churchman, R.D. Chapman +252 more · 2022 · Nucleic acids research · Oxford University Press · added 2026-04-20

K.M. Okuda, L.S. Churchman, R.D. Chapman, M. Heidemann, C. Hintermair, D. Eick, E. Compe, J.M. Egly, P. Di Lello, L.M. Miller Jenkins, C. Mas, C. Langlois, E. Malitskaya, A. Fradet-Turcotte, J. Archambault, P. Legault, J.G. Omichinski, M. Okuda, A. Tanaka, M. Satoh, S. Mizuta, M. Takazawa, Y. Ohkuma, Y. Nishimura, L.M. Jenkins, T.N. Jones, B.D. Nguyen, T. Hara, H. Yamaguchi, J.D. Dikeakos, E. Appella, M. Lussier-Price, S. Soni, T. Morse, G. Arseneault, J. Lafrance-Vanasse, J.J. Bieker, K. Araki, K. Ohtani, K. Potempa, M.S. Kobor, P.R. Chabot, L. Raiola, L. Cappadocia, M. Kinoshita, E. Kakumu, K. Sugasawa, Y. Nakazawa, C. Guo, T. Ogi, V. Gervais, V. Lamour, A. Jawhari, F. Frindel, E. Wasielewski, S. Dubaele, J.C. Thierry, B. Kieffer, A. Poterszman, H.T. Chen, Y. He, C. Yan, J. Fang, C. Inouye, R. Tjian, I. Ivanov, E. Nogales, B.J. Greber, T.H.D. Nguyen, P.V. Afonine, P.D. Adams, D.B. Toso, J. Cavanagh, W.J. Fairbroher, A.G., III Palmer, N.J. Skelton, F. Delaglio, S. Grzesiek, G.W. Vuister, G. Zhu, J. Pfeifer, A. Bax, B.A. Johnson, R.A. Blevins, G. Cornilescu, A.T. Brünger, C.D. Schwieters, J.J. Kuszewski, N. Tjandra, G.M. Clore, J.P. Linge, M.A. Williams, C.A. Spronk, A.M. Bonvin, M. Nilges, R.A. Laskowski, J.A.C. Rullmann, M.W. MacArthur, R. Kaptein, J.M. Thornton, R. Koradi, M. Billeter, K. Wüthrich, T. Ekimoto, J. Kurita, M. Ikeguchi, S. Yamashita, A.R. Lehmann, C. McQuin, A. Goodman, V. Chernyshev, L. Kamentsky, B.A. Cimini, K.W. Karhohs, M. Doan, L. Ding, S.M. Rafelski, D. Thirstrup, P. Cramer, D.A. Bushnell, J. Fu, A.L. Gnatt, B. Maier-Davis, N.E. Thompson, R.R. Burgess, A.M. Edwards, P.R. David, R.D. Kornberg, F. del Río-Portilla, A. Gaskell, D. Gilbert, J.A. Ladias, G. Wagner, K. Kayukawa, Y. Makino, S. Yogosawa, T. Tamura, G.L. Christensen, C.D. Kelstrup, C. Lyngsø, U. Sarwar, R. Bøgebo, S.P. Sheikh, S. Gammeltoft, J.V. Olsen, J.L. Hansen, T. Dodd, J.A. Tainer, S.E. Tsutakawa, S.M. Vos, L. Farnung, M. Boehning, C. Wigge, A. Linden, H. Urlaub, E. Evans, J. Fellows, A. Coffer, R.D. Wood, A. Tapias, J. Auriol, D. Forget, J.H. Enzlin, O.D. Schärer, F. Coin, B. Coulombe, W.L. de Laat, N.G. Jaspers, J.H. Hoeijmakers, H. Spåhr, G. Calero, L. Minakhin, S. Bhagat, A. Brunning, E.A. Campbell, S.A. Darst, R.H. Ebright, K. Severinov, S. Nouraini, J.D. Friesen, D. Xu, S. Nelson, M. Lee, A. Ishiguro, Y. Nogi, K. Hisatake, M. Muramatsu, A. Ishihama, Q. Tan, M.H. Prysak, N.A. Woychik, J.F. Briand, F. Navarro, P. Rematier, C. Boschiero, S. Labarre, M. Werner, G.V. Shpakovski, P. Thuriaux, A.I. Garrido-Godino, M.C. García-López, V. Goler-Baron, M. Selitrennik, O. Barkai, G. Haimovich, R. Lotan, M. Choder, Z.R. Qiu, B. Schwer, S. Shuman, L. Daniel, E. Cerutti, L.M. Donnio, J. Nonnekens, C. Carrat, S. Zahova, P.O. Mari, G. Giglia-Mari, Y. Yang, J. Hu, C.P. Selby, W. Li, A. Yimit, Y. Jiang, A. Sancar, Y. van der Weegen, H. Golan-Berman, T.E.T. Mevissen, K. Apelt, R. González-Prieto, J. Goedhart, E.E. Heilbrun, A.C.O. Vertegaal, D. van den Heuvel, J.C. Walter, Y. Hara, Y. Oka, O. Komine, Y. Daigaku, M. Isono, M. Shimada, N. Deger, L.A. Lindsey-Boltz, C. Engel, S. Sainsbury, A.C. Cheung, D. Kostrewa, N.A. Hoffmann, A.J. Jakobi, M. Moreno-Morcillo, S. Glatt, J. Kosinski, W.J.H. Hagen, C. Sachse, C.W. Müller Show less

Abstract In eukaryotes, three RNA polymerases (RNAPs) play essential roles in the synthesis of various types of RNA: namely, RNAPI for rRNA; RNAPII for mRNA and most snRNAs; and RNAPIII for tRNA and other small RNAs. All three RNAPs possess a short flexible tail derived from their common subunit RPB6. However, the function of this shared N-terminal tail (NTT) is not clear. Here we show that NTT interacts with the PH domain (PH-D) of the p62 subunit of the general transcription/repair factor TFIIH, and present the structures of RPB6 unbound and bound to PH-D by nuclear magnetic resonance (NMR). Using available cryo-EM structures, we modelled the activated elongation complex of RNAPII bound to TFIIH. We also provide evidence that the recruitment of TFIIH to transcription sites through the p62–RPB6 interaction is a common mechanism for transcription-coupled nucleotide excision repair (TC-NER) of RNAPI- and RNAPII-transcribed genes. Moreover, point mutations in the RPB6 NTT cause a significant reduction in transcription of RNAPI-, RNAPII- and RNAPIII-transcribed genes. These and other results show that the p62–RPB6 interaction plays multiple roles in transcription, TC-NER, and cell proliferation, suggesting that TFIIH is engaged in all RNAP systems. Show less

📄 PDF DOI: 10.1093/nar/gkab612

NMR synthesis

Studying non-covalent drug–DNA interactions

Sayeed Ur Rehman, Tarique Sarwar, Mohammed Amir Husain +2 more · 2015 · Archives of Biochemistry and Biophysics · Elsevier · added 2026-04-20

Sayeed Ur Rehman, Tarique Sarwar, Mohammed Amir Husain, Hassan Mubarak Ishqi, Mohammad Tabish Show less

Drug-DNA interactions have been extensively studied in the recent past. Various techniques have been employed to decipher these interactions. DNA is a major target for a wide range of drugs that may specifically or non-specifically interact with DNA and affect its functions. Interaction between small molecules and DNA are of two types, covalent interactions and non-covalent interactions. Three major modes of non-covalent interactions are electrostatic interactions, groove binding and intercalative binding. This review primarily focuses on discussing various techniques used to study non-covalent interactions that occur between drugs and DNA. Additionally, we report several techniques that may be employed to analyse the binding mode of a drug with DNA. These techniques provide data that are reliable and simple to interpret. Show less

no PDF DOI: 10.1016/j.abb.2015.03.024

👤 U. Sarwar

Three human RNA polymerases interact with TFIIH via a common RPB6 subunit

Studying non-covalent drug–DNA interactions