Browsing publications by Dr Richard Temperley

Newcastle AuthorsTitleYearFull text
Dr Emma Clark
Dr Richard Temperley
Amy Barnard
Professor Craig Robson
p68/DdX5 Supports β-Catenin & RNAP II during Androgen Receptor Mediated Transcription in Prostate Cancer2013
Dr Richard Temperley
Dr Mateusz Wydro
Professor Robert Lightowlers
Professor Zofia Chrzanowska-Lightowlers
Human mitochondrial mRNAs - like members of all families, similar but different2010
Dr Richard Temperley
Ricarda Richter
Sven Dennerlein
Professor Robert Lightowlers
Professor Zofia Chrzanowska-Lightowlers
et al.
Hungry Codons Promote Frameshifting in Human Mitochondrial Ribosomes2010
Dr Mateusz Wydro
Agnieszka Bobrowicz
Dr Richard Temperley
Professor Robert Lightowlers
Professor Zofia Chrzanowska-Lightowlers
et al.
Targeting of the cytosolic poly(A) binding protein PABPC1 to mitochondria causes mitochondrial translation inhibition2010
Dr Hamid Reza Soleimanpour Lichaei
Dr Joao Passos
Dr Mateusz Wydro
Joanna Rorbach
Dr Richard Temperley
et al.
mtRF1a Is a Human Mitochondrial Translation Release Factor Decoding the Major Termination Codons UAA and UAG2007
Dr Richard Temperley
Professor Robert Lightowlers
Professor Zofia Chrzanowska-Lightowlers
Serum-deprivation stimulates cap-binding by PARN at the expense of eIF4E, consistent with the observed decrease in mRNA stability2005
Professor Zofia Chrzanowska-Lightowlers
Dr Richard Temperley
Dr Paul Smith
Professor Robert Lightowlers
Functional polypeptides can be synthesized from human mitochondrial transcripts lacking termination codons2004
Professor Zofia Chrzanowska-Lightowlers
Dr Richard Temperley
Professor Robert Lightowlers
Human mitochondria possess a translation-dependent deadenylation decay pathway2004
Dr Richard Temperley
Professor Robert Lightowlers
Professor Zofia Chrzanowska-Lightowlers
Messenger RNA stability in mitochondria: Different means to an end2004
Dr Richard Temperley
Dr Kasia Tonska
Professor Robert Lightowlers
Professor Zofia Chrzanowska-Lightowlers
Investigation of a pathogenic mtDNA microdeletion reveals a translation-dependent deadenylation decay pathway in human mitochondria2003
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