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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)
Human small nuclear (sn) RNA genes are transcribed by either
RNA polymerase II
or III depending upon the arrangement of their core promoter elements. Regardless of polymerase specificity, these genes share a requirement for a general transcription factor called the snRNA activating protein complex or
SNAP
(C). This multi-subunit complex recognizes the proximal sequence element (PSE) commonly found in the upstream promoters of human snRNA genes.
SNAP
(C) consists of five subunits: SNAP190, SNAP50, SNAP45, SNAP43, and SNAP19. Previous studies have shown that a partial
SNAP
(C) composed of SNAP190 (1-514), SNAP50, and SNAP43 expressed in baculovirus is capable of PSE-specific DNA binding and transcription of human snRNA genes by RNA polymerases II and III. Expression in a baculovirus system yields active complex but the concentration of such material is insufficient for many bio-analytical methods. Herein, we describe the co-expression in Escherichia coli of a partial
SNAP
(C) containing SNAP190 (1-505), SNAP50, SNAP43, and SNAP19. The co-expressed complex binds DNA specifically and recruits TBP to U6 promoter DNA. Importantly, this partial complex functions in reconstituted transcription of both human U1 and U6 snRNA genes by RNA polymerases II and III, respectively. This co-expression system will facilitate the functional characterization of this unusual multi-protein transcription factor that plays an important early role for transcription by two different polymerases.
...
PMID:Co-expression of multiple subunits enables recombinant SNAPC assembly and function for transcription by human RNA polymerases II and III. 1660 80
The
RNA polymerase
(pol) II and III human small nuclear RNA (snRNA) genes have very similar promoters and recruit a number of common factors. In particular, both types of promoters utilize the small nuclear RNA activating protein complex (
SNAP
(c)) and the TATA box binding protein (TBP) for basal transcription, and are activated by Oct-1. We find that
SNAP
(c) purified from cell lines expressing tagged
SNAP
(c) subunits is associated with Yin Yang-1 (YY1), a factor implicated in both activation and repression of transcription. Recombinant YY1 accelerates the binding of
SNAP
(c) to the proximal sequence element, its target within snRNA promoters. Moreover, it enhances the formation of a complex on the pol III U6 snRNA promoter containing all the factors (
SNAP
(c), TBP, TFIIB-related factor 2 (Brf2), and B double prime 1 (Bdp1)) that are sufficient to direct in vitro U6 transcription when complemented with purified pol III, as well as that of a subcomplex containing TBP, Brf2, and Bdp1. YY1 is found on both the
RNA polymerase II
U1 and the
RNA polymerase III
U6 promoters as determined by chromatin immunoprecipitations. Thus, YY1 represents a new factor that participates in transcription complexes formed on both pol II and III promoters.
...
PMID:A role for Yin Yang-1 (YY1) in the assembly of snRNA transcription complexes. 1676 83
Human U6 small nuclear RNA gene transcription by
RNA polymerase III
requires the general transcription factor
SNAP
(C), which binds to human small nuclear RNA core promoter elements and nucleates pre-initiation complex assembly with the Brf2-TFIIIB complex. Multiple components in this pathway are phosphorylated by the protein kinase CK2, including the Bdp1 subunit of the Brf2-TFIIIB complex, and
RNA polymerase III
, with negative and positive outcomes for U6 transcription, respectively. However, a role for CK2 phosphorylation of
SNAP
(C) in U6 transcription has not been defined. In this report, we investigated the role of CK2 in modulating the transcriptional properties of
SNAP
(C) and demonstrate that within
SNAP
(C), CK2 phosphorylates the N-terminal half of the SNAP190 subunit at two regions (amino acids 20-63 and 514-545) that each contain multiple CK2 consensus sites. SNAP190 phosphorylation by CK2 inhibits both
SNAP
(C) DNA binding and U6 transcription activity. Mutational analyses of SNAP190 support a model wherein CK2 phosphorylation triggers an allosteric inhibition of the SNAP190 Myb DNA binding domain.
...
PMID:The protein kinase CK2 phosphorylates SNAP190 to negatively regulate SNAPC DNA binding and human U6 transcription by RNA polymerase III. 1767 Jul 47
We sequenced genes coding for components of the SNARE complex (STX1A, VAMP2,
SNAP25
) and their regulatory proteins (STXBP1/Munc18-1, SYT1), which are essential for neurotransmission, in 95 patients with idiopathic mental retardation. We identified de novo mutations in STXBP1 (nonsense, p.R388X; splicing, c.169+1G>A) in two patients with severe mental retardation and nonsyndromic epilepsy. Reverse
transcriptase
polymerase chain reaction and sequencing showed that the splicing mutation creates a stop codon downstream of exon-3. No de novo or deleterious mutations in STXBP1 were found in 190 control subjects, or in 142 autistic patients. These results suggest that STXBP1 disruption is associated with autosomal dominant mental retardation and nonsyndromic epilepsy.
...
PMID:De novo STXBP1 mutations in mental retardation and nonsyndromic epilepsy. 1955 57
The covalent attachment of small ubiquitin-like modifier (SUMO) to target proteins, defined as sumoylation, is an important post-translational modification that regulates diverse cellular processes and many human diseases. However, functional analysis of sumo modification is usually hampered by the lack of sensitive methods for measuring extremely low abundance of specific sumoylated target in the cells. Here, we develop an ultrasensitive method for intracellular sumoylation assay based on
SNAP
tag (a mutant of O6-alkylguanine-DNA alkyltransferase)-mediated translation and
RNA polymerase
-based amplification. Intracellular sumo modification is first converted to the double-stranded DNA (dsDNA) containing the specific T7 promoter sequence via the covalent conjugation of
SNAP
tag with its substrate benzyl guanidine derivate; then, the dsDNA is extensively transcribed by T7
RNA polymerase
to produce large amounts of RNAs, which are easily monitored using the RNA intercalating dye RiboGreen and a standard fluorometer. This method exhibits excellent specificity and high sensitivity and can detect as little as 5 pg of sumoylated p53 proteins, which has improved by as much as 1000-fold than that in the conventional Western blotting assay. Moreover, this method can measure intracellular sumoylation under different physiological conditions. Due to the common translation and amplification module, this method can be further extended to detect a variety of sumoylated proteins and other ubiquitin-like modifications in the cells and might provide a powerful tool for comprehensive analysis of the functions of sumoylation and other ubiquitin-like modifications in the fundamental biological processes and many human diseases.
...
PMID:Sensitive detection of intracellular sumoylation via SNAP tag-mediated translation and RNA polymerase-based amplification. 2224 41
SNAP
(c) is one of a few basal transcription factors used by both
RNA polymerase
(pol) II and pol III. To define the set of active
SNAP
(c)-dependent promoters in human cells, we have localized genome-wide four
SNAP
(c) subunits, GTF2B (TFIIB), BRF2, pol II, and pol III. Among some seventy loci occupied by
SNAP
(c) and other factors, including pol II snRNA genes, pol III genes with type 3 promoters, and a few un-annotated loci, most are primarily occupied by either pol II and GTF2B, or pol III and BRF2. A notable exception is the RPPH1 gene, which is occupied by significant amounts of both polymerases. We show that the large majority of
SNAP
(c)-dependent promoters recruit POU2F1 and/or ZNF143 on their enhancer region, and a subset also recruits GABP, a factor newly implicated in
SNAP
(c)-dependent transcription. These activators associate with pol II and III promoters in G1 slightly before the polymerase, and ZNF143 is required for efficient transcription initiation complex assembly. The results characterize a set of genes with unique properties and establish that polymerase specificity is not absolute in vivo.
...
PMID:Genomic study of RNA polymerase II and III SNAPc-bound promoters reveals a gene transcribed by both enzymes and a broad use of common activators. 2316 7
Temporal lobe epilepsy is characterized by spontaneous recurrent seizures (SRS) and associated with behavioral problems. However, the molecular mechanisms underlying these problems are not yet clear. In this study, kainic acid (KA) was systemically administered to immature male Wistar rats to induce SRS. The behavior of the immature rats was evaluated with a water maze, elevated-plus mazes, and open field tests. The expression patterns of synaptophysin,
SNAP-25
, and synaptotagmin 1 (Syt 1) were examined by reverse-
transcriptase
polymerase chain reaction (RT-PCR) and Western blot analysis. KA-treated rats with SRS demonstrated learning and memory deficits, reduced anxiety, and increased locomotor activity, compared with placebo-treated rats and KA-treated rats without SRS. No neuronal cell loss was observed in the hippocampus 6 weeks after exposure to KA. However, RT-PCR and Western blot analyses revealed decreased synaptophysin,
SNAP-25
, and Syt 1 expression in KA-treated rats with SRS. Synaptophysin,
SNAP-25
, and Syt1 expression levels were found to be positively correlated with learning and memory but negatively correlated with anxiety and locomotor activity. These data suggested that SRS may induce changes in synaptophysin,
SNAP-25
, and Syt1 expression and may be functionally related to SRS-induced behavioral deficits.
...
PMID:Abnormal expression of synaptophysin, SNAP-25, and synaptotagmin 1 in the hippocampus of kainic acid-exposed rats with behavioral deficits. 2483 94
RNA polymerase II
(Pol II) small nuclear RNA (snRNA) promoters and type 3 Pol III promoters have highly similar structures; both contain an interchangeable enhancer and "proximal sequence element" (PSE), which recruits the
SNAP
complex (SNAPc). The main distinguishing feature is the presence, in the type 3 promoters only, of a TATA box, which determines Pol III specificity. To understand the mechanism by which the absence or presence of a TATA box results in specific Pol recruitment, we examined how SNAPc and general transcription factors required for Pol II or Pol III transcription of SNAPc-dependent genes (i.e., TATA-box-binding protein [TBP], TFIIB, and TFIIA for Pol II transcription and TBP and BRF2 for Pol III transcription) assemble to ensure specific Pol recruitment. TFIIB and BRF2 could each, in a mutually exclusive fashion, be recruited to SNAPc. In contrast, TBP-TFIIB and TBP-BRF2 complexes were not recruited unless a TATA box was present, which allowed selective and efficient recruitment of the TBP-BRF2 complex. Thus, TBP both prevented BRF2 recruitment to Pol II promoters and enhanced BRF2 recruitment to Pol III promoters. On Pol II promoters, TBP recruitment was separate from TFIIB recruitment and enhanced by TFIIA. Our results provide a model for specific Pol recruitment at SNAPc-dependent promoters.
...
PMID:Mechanism of selective recruitment of RNA polymerases II and III to snRNA gene promoters. 2978 64
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