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Molecular and Cellular Biology Volume 34, 2014 - Issue 15
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Article

Mutations on the DNA Binding Surface of TBP Discriminate between Yeast TATA and TATA-Less Gene Transcription

Ivanka Kamenovaa Program in Molecular and Cellular Biology, University of Washington, Seattle, Washington, USA;b Division of Basic Sciences, Fred Hutchinson Cancer Research Center, Seattle, Washington, USA
,
Linda Warfieldb Division of Basic Sciences, Fred Hutchinson Cancer Research Center, Seattle, Washington, USA
&
Steven Hahnb Division of Basic Sciences, Fred Hutchinson Cancer Research Center, Seattle, Washington, USACorrespondence[email protected]
Pages 2929-2943 | Received 19 Dec 2013, Accepted 18 May 2014, Published online: 20 Mar 2023

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Priyanka Barman, Rwik Sen, Amala Kaja, Jannatul Ferdoush, Shalini Guha, Chhabi K. Govind & Sukesh R. Bhaumik. (2022) Genome-Wide Regulations of the Preinitiation Complex Formation and Elongating RNA Polymerase II by an E3 Ubiquitin Ligase, San1. Molecular and Cellular Biology 42:1.
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Rafal Donczew & Steven Hahn. (2018) Mechanistic Differences in Transcription Initiation at TATA-Less and TATA-Containing Promoters. Molecular and Cellular Biology 38:1.
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Articles from other publishers (13)

Yanfang Liu, Yuping Lin, Yufeng Guo, Fengli Wu, Yuanyuan Zhang, Xianni Qi, Zhen Wang & Qinhong Wang. (2021) Stress tolerance enhancement via SPT15 base editing in Saccharomyces cerevisiae. Biotechnology for Biofuels 14:1.
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Clemens Grimm, Julia Bartuli, Bettina Boettcher, Aladar A. Szalay & Utz Fischer. (2021) Structural basis of the complete poxvirus transcription initiation process. Nature Structural & Molecular Biology 28:10, pages 779-788.
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Chenxi Qiu, Huiyan Jin, Irina Vvedenskaya, Jordi Abante Llenas, Tingting Zhao, Indranil Malik, Alex M. Visbisky, Scott L. Schwartz, Ping Cui, Pavel Čabart, Kang Hoo Han, William K. M. Lai, Richard P. Metz, Charles D. Johnson, Sing-Hoi Sze, B. Franklin Pugh, Bryce E. Nickels & Craig D. Kaplan. (2020) Universal promoter scanning by Pol II during transcription initiation in Saccharomyces cerevisiae. Genome Biology 21:1.
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Charles N. J. Ravarani, Tilman Flock, Sreenivas Chavali, Madhanagopal Anandapadamanaban, M. Madan Babu & Santhanam Balaji. (2020) Molecular determinants underlying functional innovations of TBP and their impact on transcription initiation. Nature Communications 11:1.
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Rafal Donczew, Linda Warfield, Derek Pacheco, Ariel Erijman & Steven Hahn. (2020) Two roles for the yeast transcription coactivator SAGA and a set of genes redundantly regulated by TFIID and SAGA. eLife 9.
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Sarah N. Le, Christopher R. Brown, Stacy Harvey, Hinrich Boeger, Hans Elmlund & Dominika Elmlund. (2019) The TAFs of TFIID Bind and Rearrange the Topology of the TATA-Less RPS5 Promoter. International Journal of Molecular Sciences 20:13, pages 3290.
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Oleksandr Dergai & Nouria Hernandez. (2019) How to Recruit the Correct RNA Polymerase? Lessons from snRNA Genes. Trends in Genetics 35:6, pages 457-469.
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Kevin Kramm, Christoph Engel & Dina Grohmann. (2019) Transcription initiation factor TBP: old friend new questions. Biochemical Society Transactions 47:1, pages 411-423.
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Partha P. Mitra. 2018. Gene Expression and Regulation in Mammalian Cells - Transcription From General Aspects. Gene Expression and Regulation in Mammalian Cells - Transcription From General Aspects.
Kiyoshi Watanabe & Tetsuro Kokubo. (2017) SAGA mediates transcription from the TATA-like element independently of Taf1p/TFIID but dependent on core promoter structures in Saccharomyces cerevisiae. PLOS ONE 12:11, pages e0188435.
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Linda Warfield, Srinivas Ramachandran, Tiago Baptista, Didier Devys, Laszlo Tora & Steven Hahn. (2017) Transcription of Nearly All Yeast RNA Polymerase II-Transcribed Genes Is Dependent on Transcription Factor TFIID. Molecular Cell 68:1, pages 118-129.e5.
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Muyu Xu, Elsie Gonzalez-Hurtado & Ernest Martinez. (2016) Core promoter-specific gene regulation: TATA box selectivity and Initiator-dependent bi-directionality of serum response factor-activated transcription. Biochimica et Biophysica Acta (BBA) - Gene Regulatory Mechanisms 1859:4, pages 553-563.
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Hiroshi Okuda, Akinori Kanai, Shinji Ito, Hirotaka Matsui & Akihiko Yokoyama. (2015) AF4 uses the SL1 components of RNAP1 machinery to initiate MLL fusion- and AEP-dependent transcription. Nature Communications 6:1.
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