The CTD code of RNA polymerase II: a structural view
Jazyk angličtina Země Spojené státy americké Médium print-electronic
Typ dokumentu časopisecké články, práce podpořená grantem, přehledy
PubMed
23042580
DOI
10.1002/wrna.1138
Knihovny.cz E-zdroje
- MeSH
- genetická transkripce MeSH
- methyltransferasy metabolismus MeSH
- peptidylprolylisomerasa Pin1 MeSH
- peptidylprolylisomerasa metabolismus MeSH
- posttranslační úpravy proteinů * MeSH
- prolin metabolismus MeSH
- proteinfosfatasy MeSH
- proteiny vázající RNA genetika metabolismus MeSH
- RNA-polymerasa II * chemie genetika metabolismus MeSH
- Saccharomyces cerevisiae - proteiny MeSH
- Saccharomyces cerevisiae enzymologie genetika MeSH
- sekvence aminokyselin MeSH
- terciární struktura proteinů MeSH
- transportní proteiny metabolismus MeSH
- Publikační typ
- časopisecké články MeSH
- práce podpořená grantem MeSH
- přehledy MeSH
- Názvy látek
- ESS1 protein, S cerevisiae MeSH Prohlížeč
- methyltransferasy MeSH
- mRNA (nucleoside-O(2'))-methyltransferase MeSH Prohlížeč
- peptidylprolylisomerasa Pin1 MeSH
- peptidylprolylisomerasa MeSH
- PIN1 protein, human MeSH Prohlížeč
- prolin MeSH
- proteinfosfatasy MeSH
- proteiny vázající RNA MeSH
- RNA-polymerasa II * MeSH
- Saccharomyces cerevisiae - proteiny MeSH
- SSU72 protein, human MeSH Prohlížeč
- transportní proteiny MeSH
RNA polymerase II (RNA pol II) is not only the fundamental enzyme for gene expression but also the central coordinator of co-transcriptional processing. RNA pol II associates with a large number of enzymes and protein/RNA-binding factors through its C-terminal domain (CTD) that consists of tandem repeats of the heptapeptide consensus Y(1)S(2)P(3) T(4)S(5)P(6)S(7). The CTD is posttranslationally modified, yielding specific patterns (often called the CTD code) that are recognized by appropriate factors in coordination with the transcription cycle. Serine phosphorylations are currently the best characterized elements of the CTD code; however, the roles of the proline isomerization and other modifications of the CTD remain poorly understood. The dynamic remodeling of the CTD modifications by kinases, phosphatases, isomerases, and other enzymes introduce changes in the CTD structure and dynamics. These changes serve as structural switches that spatially and temporally regulate the binding of processing factors. Recent structural studies of the CTD bound to various proteins have revealed the basic rules that govern the recognition of these switches and shed light on the roles of these protein factors in the assemblies of the processing machineries.
Citace poskytuje Crossref.org
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