Add to ORKGDcp1/2 is the major eukaryotic RNA decapping complex, comprised of the enzyme Dcp2 and activator Dcp1, which removes the 5' m(7)G cap from mRNA, committing the transcript to degradation. Dcp1/2 activity is crucial for RNA quality control and turnover, and deregulation of these processes may lead to disease development. The molecular details of Dcp1/2 catalysis remain elusive, in part because both cap substrate (m(7)GpppN) and m(7)GDP product are bound by Dcp1/2 with weak (mM) affinity. In order to find inhibitors to use in elucidating the catalytic mechanism of Dcp2, we screened a small library of synthetic m(7)G nucleotides (cap analogs) bearing modifications in the oligophosphate chain. One of the most potent cap analogs, m(7)GpSpppSm(7)G...
mRNA decapping irreversibly targets mRNAs for fast decay. Cap removal is catalyzed by decapping prot...
Decapping by Dcp2 is an essential step in 5'-to-3' mRNA decay. In yeast, decapping requires an open-...
Eukaryotic 5' mRNA cap structures participate to the post-transcriptional control of gene expression...
The 5′ cap consists of 7-methylguanosine (m<sup>7</sup>G) linked by a 5′–5′-triphosphate bridge to ...
Removal of the 5' cap on mRNA by the decapping enzyme Dcp2 is a critical step in 5'-to-3' mRNA decay...
International audienceIn eukaryotes, the elimination of the m7GpppN mRNA cap, a process known as dec...
Analogues of the mRNA 5΄-cap are useful tools for studying mRNA translation and degradation, with em...
Regulation of mRNA half-life is a crucial control point of gene expression. Removal of the protecti...
Decapping by Dcp2 is an essential step in 5′-3 ′ mRNA decay. In yeast, decapping requires an open-to...
mRNA turnover represents a fundamental point of post-transcriptional control of gene expression in e...
The modulation of mRNA degradation is an essential determining point for regulation of gene expressi...
The conserved decapping enzyme Dcp2 recognizes and removes the 5' eukaryotic cap from mRNA transcrip...
The lifetime of eukaryotic messenger RNA is highly regulated by elements on both the 5' and 3' ends ...
Messenger RNA degradation is a fundamental aspect of eukaryotic gene expression, regulation, and qua...
Crystal structures of enzymes are indispensable to understanding their mechanisms on a molecular lev...
mRNA decapping irreversibly targets mRNAs for fast decay. Cap removal is catalyzed by decapping prot...
Decapping by Dcp2 is an essential step in 5'-to-3' mRNA decay. In yeast, decapping requires an open-...
Eukaryotic 5' mRNA cap structures participate to the post-transcriptional control of gene expression...
The 5′ cap consists of 7-methylguanosine (m<sup>7</sup>G) linked by a 5′–5′-triphosphate bridge to ...
Removal of the 5' cap on mRNA by the decapping enzyme Dcp2 is a critical step in 5'-to-3' mRNA decay...
International audienceIn eukaryotes, the elimination of the m7GpppN mRNA cap, a process known as dec...
Analogues of the mRNA 5΄-cap are useful tools for studying mRNA translation and degradation, with em...
Regulation of mRNA half-life is a crucial control point of gene expression. Removal of the protecti...
Decapping by Dcp2 is an essential step in 5′-3 ′ mRNA decay. In yeast, decapping requires an open-to...
mRNA turnover represents a fundamental point of post-transcriptional control of gene expression in e...
The modulation of mRNA degradation is an essential determining point for regulation of gene expressi...
The conserved decapping enzyme Dcp2 recognizes and removes the 5' eukaryotic cap from mRNA transcrip...
The lifetime of eukaryotic messenger RNA is highly regulated by elements on both the 5' and 3' ends ...
Messenger RNA degradation is a fundamental aspect of eukaryotic gene expression, regulation, and qua...
Crystal structures of enzymes are indispensable to understanding their mechanisms on a molecular lev...
mRNA decapping irreversibly targets mRNAs for fast decay. Cap removal is catalyzed by decapping prot...
Decapping by Dcp2 is an essential step in 5'-to-3' mRNA decay. In yeast, decapping requires an open-...
Eukaryotic 5' mRNA cap structures participate to the post-transcriptional control of gene expression...