Caractérisation du domaine C-terminal de l'ARN polymérase II et de la phosphatase Glc7 dans la terminaison transcriptionnelle chez Saccharomyces cerevisiae
P Collin - 2019 - papyrus.bib.umontreal.ca
La terminaison transcriptionnelle de l'ARN polymérase II (ARNPII) est l'étape de la
transcription la moins bien comprise. Deux modèles ont toutefois été proposés pour la …
transcription la moins bien comprise. Deux modèles ont toutefois été proposés pour la …
Genomewide analysis of road-block termination
T Candelli - 2016 - theses.hal.science
Transcription of DNA into RNA intermediates constitutes the first step in gene expression.
During the last decade, several studies showed that about 80-90% of the genome is …
During the last decade, several studies showed that about 80-90% of the genome is …
Dynamics of RNA transcription and transcript stabilisation in wild-type and mutant Saccharomyces cerevisiae
R Woloszczuk - 2016 - ora.ox.ac.uk
Ribonucleic acids (RNAs) are a diverse and highly dynamic class of molecules. Coding
RNAs facilitate the production of proteins from the heritable information stored in …
RNAs facilitate the production of proteins from the heritable information stored in …
Structural and functional studies of the transcriptional regulator Seb1 in fission yeast
S Wittmann - 2016 - ora.ox.ac.uk
RNA polymerase II (Pol II) is responsible for the transcription of all protein-coding and some
non-coding genes in eukaryotes. Its largest subunit, Rpb1, contains a unique C-terminal …
non-coding genes in eukaryotes. Its largest subunit, Rpb1, contains a unique C-terminal …
[图书][B] The role of Rtr1 and Rrp6 in rnapii transcription termination
MJ Fox - 2015 - search.proquest.com
Abstract RNA Polymerase II (RNAPII) is responsible for transcription of messenger RNA
(mRNA) and many small non-coding RNAs. Progression through the RNAPII transcription …
(mRNA) and many small non-coding RNAs. Progression through the RNAPII transcription …
Mechanism and targets of Sen1 helicase in termination of noncoding RNA synthesis in yeast
X Chen - 2015 - search.proquest.com
In the yeast S. cerevisiae, the essential gene SEN1 encodes a superfamily I helicase that is
required for terminating transcription of many non-coding RNA genes by RNA polymerase II …
required for terminating transcription of many non-coding RNA genes by RNA polymerase II …
Investigations into transcription and transcripts in Saccharomyces cerevisiae
H Fischl - 2015 - ora.ox.ac.uk
Transcription of the Saccharomyces cerevisiae genome by RNA polymerase II (Pol II) is
pervasive, occurring on the sense and antisense strands of protein-coding genes and at …
pervasive, occurring on the sense and antisense strands of protein-coding genes and at …
Mass spectrometric techniques for protein characterisation and quantification in Saccharomyces cerevisiae
D Yagoub - 2015 - unsworks.unsw.edu.au
The aim of this study was to perform a large-scale examination of the proteome of yeast to
identify native sites of protein methylation, while simultaneously exploring technical issues …
identify native sites of protein methylation, while simultaneously exploring technical issues …
[图书][B] Extra-Transcriptional Effects of Chromatin Bound RNA Polymerase III Transcription Complexes
A Korde - 2014 - search.proquest.com
Transcription by RNA polymerase III (Pol III) requires sequential assembly of Pol III-specific
transcription factors. At the tRNA gene, the TFIIIC complex recognizes and specifically binds …
transcription factors. At the tRNA gene, the TFIIIC complex recognizes and specifically binds …
Terminate and make a loop: regulation of transcriptional directionality
S Tan-Wong, P Grzechnik, N Proudfoot - Trends in Biochemical …, 2014 - ora.ox.ac.uk
Bidirectional promoters are a common feature of many eukaryotic organisms from yeast to
humans. RNA Polymerase II that is recruited to this type of promoter can start transcribing in …
humans. RNA Polymerase II that is recruited to this type of promoter can start transcribing in …