Gene/Protein
Disease
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Enzyme
Compound
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Target Concepts:
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Query: EC:2.7.7.6 (
RNA polymerase
)
34,946
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
To improve our understanding of
RNA polymerase II
, the gene that encodes its third-largest subunit, RPB3, was isolated from a lambda gt11 DNA library by using antibody probes. The RPB3 DNA sequence predicts a 318-amino-acid protein whose sequence was confirmed, in part, by microsequence analysis of the gel-purified RNA polymerase II subunit. RPB3 was found to be an essential single-copy gene that is tightly linked to HIS6 on chromosome IX. An RPB3 temperature-sensitive mutant that arrested growth after three to four generations at the restrictive temperature was isolated. When the mutant was shifted to the restrictive temperature,
RNA polymerase II
could no longer assemble, previously assembled functional enzyme was depleted, and mRNA levels were consequently reduced. These results demonstrate that RPB3 is an essential component of the mRNA transcription apparatus. Finally, the RPB3 protein is similar in sequence and length to
RPC5
, a subunit common to RNA polymerases I and III, suggesting that these subunits may play similar roles in RNA polymerases I, II, and III.
...
PMID:RNA polymerase II subunit RPB3 is an essential component of the mRNA transcription apparatus. 268 62
Unlike Saccharomyces cerevisiae
RNA polymerase III
, human
RNA polymerase III
has not been entirely characterized. Orthologues of the yeast
RNA polymerase III
subunits C128 and C37 remain unidentified, and for many of the other subunits, the available information is limited to database sequences with various degrees of similarity to the yeast subunits. We have purified an
RNA polymerase III
complex and identified its components. We found that two
RNA polymerase III
subunits, referred to as RPC8 and RPC9, displayed sequence similarity to the
RNA polymerase II
RPB7 and RPB4 subunits, respectively. RPC8 and RPC9 associated with each other, paralleling the association of the
RNA polymerase II
subunits, and were thus paralogues of RPB7 and RPB4. Furthermore, the complex contained a prominent 80-kDa polypeptide, which we called
RPC5
and which corresponded to the human orthologue of the yeast C37 subunit despite limited sequence similarity.
RPC5
associated with RPC53, the human orthologue of S. cerevisiae C53, paralleling the association of the S. cerevisiae C37 and C53 subunits, and was required for transcription from the type 2 VAI and type 3 human U6 promoters. Our results provide a characterization of human
RNA polymerase III
and show that the
RPC5
subunit is essential for transcription.
...
PMID:Characterization of human RNA polymerase III identifies orthologues for Saccharomyces cerevisiae RNA polymerase III subunits. 1239 Nov 70
Transcription of protein-coding genes in Leishmania major and other trypanosomatids differs from that in most eukaryotes and bioinformatic analyses have failed to identify several components of the
RNA polymerase
(RNAP) complexes. To increase our knowledge about this basic cellular process, we used tandem affinity purification (TAP) to identify subunits of RNAP II and III. Mass spectrometric analysis of the complexes co-purified with TAP-tagged LmRPB2 (encoded by LmjF31.0160) identified seven RNAP II subunits: RPB1, RPB2, RPB3, RPB5, RPB7, RPB10 and RPB11. With the exception of RPB10 and RPB11, and the addition of RPB8, these were also identified using TAP-tagged constructs of one (encoded by LmjF34.0890) of the two LmRPB6 orthologues. The latter experiments also identified the RNAP III subunits RPC1 (C160), RPC2 (C128), RPC3 (C82), RPC4 (C53),
RPC5
(C37), RPC6 (C34), RPC9 (C17), RPAC1 (AC40) and RPAC2 (AC19). Significantly, the complexes precipitated by TAP-tagged LmRPB6 did not contain any RNAP I-specific subunits, suggesting that, unlike in other eukaryotes, LmRPB6 is not shared by all three polymerases but is restricted to RNAP II and III, while the LmRPB6z (encoded by LmjF25.0140) isoform is limited to RNAP I. Similarly, we identified peptides from only one (encoded by LmjF18.0780) of the two RPB5 orthologues and one (LmjF13.1120) of the two RPB10 orthologues, suggesting that LmRPB5z (LmjF18.0790) and LmRPB10z (LmjF13.1120) are also restricted to RNAP I. In addition to these RNAP subunits, we also identified a number of other proteins that co-purified with the RNAP II and III complexes, including a potential transcription factor, several histones, an ATPase involved in chromosome segregation, an endonuclease, four helicases, RNA splicing factor PTSR-1, at least two RNA binding proteins and several proteins of unknown function.
...
PMID:Characterization of the RNA polymerase II and III complexes in Leishmania major. 1727 24
In eukaryotic cells,
RNA polymerase III
is highly conserved and transcribes housekeeping genes such as ribosomal 5S rRNA, tRNA and other small RNAs. The
RPC5
-like subunit is one of the 17 subunits forming RNAPIII and its exact functional roles in the transcription are poorly understood. In this work, we report that virus-induced gene silencing of transcripts encoding a putative
RPC5
-like subunit of the RNA Polymerase III in a model species Nicotiana benthamiana had pleiotropic effects, including but not limited to severe dwarfing appearance, chlorosis, nearly complete reduction of internodes and abnormal leaf shape. Using transcriptomic analysis, we identified genes and pathways affected by
RPC5
silencing and thus presumably related to the cellular roles of the subunit as well as to the downstream cascade of reactions in response to partial loss of RNA Polymerase III function. Our results suggest that silencing of the RPC5L in N. benthamiana disrupted not only functions commonly associated with the core RNA Polymerase III transcripts, but also more diverse cellular processes, including responses to stress. We believe this is the first demonstration that activity of the
RPC5
subunit is critical for proper functionality of RNA Polymerase III and normal plant development.
...
PMID:Virus-induced gene silencing of the RPC5-like subunit of RNA polymerase III caused pleiotropic effects in Nicotiana benthamiana. 2728 27
RNA polymerase
(Pol) III has a noncanonical role of viral DNA sensing in the innate immune system. This polymerase transcribes viral genomes to produce RNAs that lead to induction of type I interferons (IFNs). However, the genetic and functional links of Pol III to innate immunity in humans remain largely unknown. Here, we describe a rare homozygous mutation (D40H) in the
POLR3E
gene, coding for a protein subunit of Pol III, in a child with recurrent and systemic viral infections and Langerhans cell histiocytosis. Fibroblasts derived from the patient exhibit impaired induction of type I IFN and increased susceptibility to human cytomegalovirus (HCMV) infection. Cultured cell lines infected with HCMV show induction of
POLR3E
expression. However, induction is not restricted to DNA virus, as sindbis virus, an RNA virus, enhances the expression of this protein. Likewise, foreign nonviral DNA elevates the steady-state level of
POLR3E
and elicits promoter-dependent and -independent transcription by Pol III. Remarkably, the molecular mechanism underlying the D40H mutation of
POLR3E
involves the assembly of defective initiation complexes of Pol III. Our study links mutated
POLR3E
and Pol III to an innate immune deficiency state in humans.
...
PMID:A mutation in POLR3E impairs antiviral immune response and RNA polymerase III. 3284 46
