Highly efficient 5' capping of mitochondrial RNA with NAD+ and NADH by yeast and human mitochondrial RNA polymerase
Published 2018 View Full Article
- Home
- Publications
- Publication Search
- Publication Details
Title
Highly efficient 5' capping of mitochondrial RNA with NAD+ and NADH by yeast and human mitochondrial RNA polymerase
Authors
Keywords
-
Journal
eLife
Volume 7, Issue -, Pages -
Publisher
eLife Sciences Publications, Ltd
Online
2018-12-10
DOI
10.7554/elife.42179
References
Ask authors/readers for more resources
Related references
Note: Only part of the references are listed.- CapZyme-Seq Comprehensively Defines Promoter-Sequence Determinants for RNA 5′ Capping with NAD +
- (2018) Irina O. Vvedenskaya et al. MOLECULAR CELL
- Structural basis of mitochondrial transcription
- (2018) Hauke S. Hillen et al. NATURE STRUCTURAL & MOLECULAR BIOLOGY
- Identification, Biosynthesis, and Decapping of NAD-Capped RNAs in B. subtilis
- (2018) Jens Frindert et al. Cell Reports
- Noncanonical features and modifications on the 5′-end of bacterial sRNAs and mRNAs
- (2018) Nikita Vasilyev et al. Wiley Interdisciplinary Reviews-RNA
- Boronate affinity electrophoresis for the purification and analysis of cofactor-modified RNAs
- (2017) Gabriele Nübel et al. METHODS
- Bacterial RNA polymerase caps RNA with various cofactors and cell wall precursors
- (2017) Christina Julius et al. NUCLEIC ACIDS RESEARCH
- Absolute Quantification of Matrix Metabolites Reveals the Dynamics of Mitochondrial Metabolism
- (2016) Walter W. Chen et al. CELL
- Cap-like structures in bacterial RNA and epitranscriptomic modification
- (2016) Andres Jäschke et al. CURRENT OPINION IN MICROBIOLOGY
- The mechanism of RNA 5′ capping with NAD+, NADH and desphospho-CoA
- (2016) Jeremy G. Bird et al. NATURE
- Structure and function of the bacterial decapping enzyme NudC
- (2016) Katharina Höfer et al. Nature Chemical Biology
- Metabolite concentrations, fluxes and free energies imply efficient enzyme usage
- (2016) Junyoung O Park et al. Nature Chemical Biology
- Capture and sequencing of NAD-capped RNA sequences with NAD captureSeq
- (2016) Marie-Luise Winz et al. Nature Protocols
- mRNA capping: biological functions and applications
- (2016) Anand Ramanathan et al. NUCLEIC ACIDS RESEARCH
- Human mitochondrial transcription factors TFAM and TFB2M work synergistically in promoter melting during transcription initiation
- (2016) Aparna Ramachandran et al. NUCLEIC ACIDS RESEARCH
- Identification of NAD+capped mRNAs inSaccharomyces cerevisiae
- (2016) Robert W. Walters et al. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
- Biosensor reveals multiple sources for mitochondrial NAD+
- (2016) X. A. Cambronne et al. SCIENCE
- Crystal Structure of a Transcribing RNA Polymerase II Complex Reveals a Complete Transcription Bubble
- (2015) Christopher O. Barnes et al. MOLECULAR CELL
- Molecular Basis of Transcription-Coupled Pre-mRNA Capping
- (2015) Fuensanta W. Martinez-Rucobo et al. MOLECULAR CELL
- RNA capping: progress and prospects
- (2015) Stewart Shuman RNA
- Determination of thein vivoNAD:NADH ratio inSaccharomyces cerevisiaeunder anaerobic conditions, using alcohol dehydrogenase as sensor reaction
- (2015) K. M. Bekers et al. YEAST
- The primary σ factor in Escherichia coli can access the transcription elongation complex from solution in vivo
- (2015) Seth R Goldman et al. eLife
- Global Transcriptional Start Site Mapping Using Differential RNA Sequencing Reveals Novel Antisense RNAs in Escherichia coli
- (2014) Maureen K. Thomason et al. JOURNAL OF BACTERIOLOGY
- NAD captureSeq indicates NAD as a bacterial cap for a subset of regulatory RNAs
- (2014) Hana Cahová et al. NATURE
- Two independent transcription initiation codes overlap on vertebrate core promoters
- (2014) Vanja Haberle et al. NATURE
- Organization of the human mitochondrial transcription initiation complex
- (2014) Elena Yakubovskaya et al. NUCLEIC ACIDS RESEARCH
- Interactions of the yeast mitochondrial RNA polymerase with the +1 and +2 promoter bases dictate transcription initiation efficiency
- (2014) Aishwarya P. Deshpande et al. NUCLEIC ACIDS RESEARCH
- The transcription start site landscape of C. elegans
- (2013) T. L. Saito et al. GENOME RESEARCH
- The landscape of RNA polymerase II transcription initiation in C. elegans reveals promoter and enhancer architectures
- (2013) R. A.- J. Chen et al. GENOME RESEARCH
- Structure of human mitochondrial RNA polymerase
- (2011) Rieke Ringel et al. NATURE
- Evolution of multisubunit RNA polymerases in the three domains of life
- (2011) Finn Werner et al. NATURE REVIEWS MICROBIOLOGY
- Enzymology of RNA cap synthesis
- (2010) Agnidipta Ghosh et al. Wiley Interdisciplinary Reviews-RNA
- TFB2 Is a Transient Component of the Catalytic Site of the Human Mitochondrial RNA Polymerase
- (2009) Marina Sologub et al. CELL
- Mitochondrial Transcription Factor Mtf1 Traps the Unwound Non-template Strand to Facilitate Open Complex Formation
- (2009) Swaroopa Paratkar et al. JOURNAL OF BIOLOGICAL CHEMISTRY
- LC/MS analysis of cellular RNA reveals NAD-linked RNA
- (2009) Y Grace Chen et al. Nature Chemical Biology
- Massive transcriptional start site analysis of human genes in hypoxia cells
- (2009) Katsuya Tsuchihara et al. NUCLEIC ACIDS RESEARCH
- Determination of the cytosolic free NAD/NADH ratio inSaccharomyces cerevisiaeunder steady-state and highly dynamic conditions
- (2008) André B. Canelas et al. BIOTECHNOLOGY AND BIOENGINEERING
- Fluorescence Mapping of the Open Complex of Yeast Mitochondrial RNA Polymerase
- (2008) Guo-Qing Tang et al. JOURNAL OF BIOLOGICAL CHEMISTRY
- The bacterial enzyme RppH triggers messenger RNA degradation by 5′ pyrophosphate removal
- (2008) Atilio Deana et al. NATURE
Find Funding. Review Successful Grants.
Explore over 25,000 new funding opportunities and over 6,000,000 successful grants.
ExplorePublish scientific posters with Peeref
Peeref publishes scientific posters from all research disciplines. Our Diamond Open Access policy means free access to content and no publication fees for authors.
Learn More