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Mechanism of Transcription Anti-termination in Human Mitochondria.

Cell. 2017 Nov 16;171(5):1082-1093.e13. Epub 2017 Oct 12
Hauke S Hillen 1 , Andrey V Parshin 2 , Karen Agaronyan 2 , Yaroslav I Morozov 2 , James J Graber 2 , Aleksandar Chernev 3 , Kathrin Schwinghammer 1 , Henning Urlaub 3 , Michael Anikin 2 , Patrick Cramer 4 , Dmitry Temiakov 5
Hauke S Hillen 1 , Andrey V Parshin 2 , Karen Agaronyan 2 , Yaroslav I Morozov 2 , James J Graber 2 , Aleksandar Chernev 3 , Kathrin Schwinghammer 1 , Henning Urlaub 3 , Michael Anikin 2 , Patrick Cramer 4 , Dmitry Temiakov 5
+ et al

[No authors listed]

Author information
  • 1 Department of Molecular Biology, Max Planck Institute for Biophysical Chemistry, Am Fassberg 11, 37077 Göttingen, Germany.
  • 2 Department of Cell Biology, Rowan University, School of Osteopathic Medicine, 2 Medical Center Drive, Stratford, NJ 08084, USA.
  • 3 Bioanalytical Mass Spectrometry, Max Planck Institute for Biophysical Chemistry, 37077 Göttingen, Germany; Bioanalytics, Institute for Clinical Chemistry, University Medical Center Göttingen, 37075 Göttingen, Germany.
  • 4 Department of Molecular Biology, Max Planck Institute for Biophysical Chemistry, Am Fassberg 11, 37077 Göttingen, Germany. Electronic address: patrick.cramer@mpibpc.mpg.de.
  • 5 Department of Cell Biology, Rowan University, School of Osteopathic Medicine, 2 Medical Center Drive, Stratford, NJ 08084, USA. Electronic address: temiakdm@rowan.edu.

摘要

In human mitochondria, transcription termination events at a G-quadruplex region near the replication origin are thought to drive replication of mtDNA by generation of an RNA primer. This process is suppressed by a key regulator of mtDNA-the transcription factor TEFM. We determined the structure of an anti-termination complex in which TEFM is bound to transcribing mtRNAP. The structure reveals interactions of the dimeric pseudonuclease core of TEFM with mobile structural elements in mtRNAP and the nucleic acid components of the elongation complex (EC). Binding of TEFM to the DNA forms a downstream "sliding clamp," providing high processivity to the EC. TEFM also binds near the RNA exit channel to prevent formation of the RNA G-quadruplex structure required for termination and thus synthesis of the replication primer. Our data provide insights into target specificity of TEFM and mechanisms by which it regulates the switch between transcription and replication of mtDNA.

KEYWORDS: G-quadruplex, POLRMT, TEFM, TFAM, TFB2M, elongation, mitochondria, replication, transcription

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