EC:2.7.7.6 - FACTA Search

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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)

RNA polymerase II transcripts, heterogeneous nuclear RNAs (hnRNAs), associate in the nucleus with specific proteins that bind premessenger RNA (hnRNP proteins) and with small nuclear ribonucleoprotein particles (snRNPs). These hnRNA-hnRNP-snRNP complexes assemble on nascent transcripts and hnRNA is processed to mRNA in them. HnRNP proteins have been localized to the nucleoplasm and their functions were presumed to be limited to nuclear events in mRNA biogenesis. It was proposed that an exchange of hnRNP for mRNA-binding proteins accompanies transport of mRNA from the nucleus to the cytoplasm. We show here that several of the abundant hnRNP proteins, including A1, shuttle between the nucleus and the cytoplasm. HnRNP proteins may thus also have cytoplasmic functions. Furthermore, when in the cytoplasm, A1 is bound to mRNA and RNA polymerase II transcription is necessary before it can return to the nucleus. We propose that the cytoplasmic ribonucleoprotein complex of mRNA with hnRNP proteins is the substrate of nuclear-cytoplasmic transport of mRNA.
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PMID:Shuttling of pre-mRNA binding proteins between nucleus and cytoplasm. 137 31

Nascent RNA polymerase II transcripts, heterogeneous nuclear RNAs (hnRNAs), become associated with nuclear proteins (hnRNP Proteins), and their processing into mRNAs takes place in these hnRNP complexes. hnRNP complexes have previously been purified from vertebrate cells. Here we report the isolation of hnRNP complexes from an invertebrate organism, the fruitfly Drosophila melanogaster. Candidate hnRNP proteins were purified from D. melanogaster embryos by ssDNA affinity chromatography, and mAbs were produced to many of the major proteins. Genuine hnRNP proteins were identified by several criteria, including nucleoplasmic localization, association with nascent transcripts, crosslinking to poly(A)-containing RNA in living cells, and amino acid sequence. In addition, mAbs that cross-react between the fruitfly and human hnRNP proteins were obtained. Most importantly, using hnRNP-specific mAbs we have purified the hnRNP complexes from D. melanogaster cells. These RNAase-sensitive complexes contain at least 10 major proteins designated hrps, the most abundant proteins having apparent molecular masses of 36, 38, 39, 40, 44, 48, 54, 62, 70, and 75 kD. cDNAs and complete sequences for several of these proteins have been obtained and are presented in the accompanying paper (Matunis, E. L., M. J. Matunis, and G. Dreyfuss. 1992. J. Cell Biol. 116:257-269). The purification of D. melanogaster hnRNP complexes will facilitate genetic and cytological studies on the function of hnRNA-binding proteins and on the posttranscriptional regulation of gene expression.
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PMID:Isolation of hnRNP complexes from Drosophila melanogaster. 173 Jul 53

U6 RNA is an abundant, capped small nuclear RNA (snRNA) associated with hnRNP particles (Reddy, R., and Busch, H. (1983) Prog. Nucleic Acid Res. Mol. Biol. 30, 127-162). Small nuclear ribonucleoprotein particles containing U4 and U6 RNAs are required components for splicing of pre-mRNAs (Berget and Robberson, 1986; Black and Steitz, 1986). In this study the Drosophila U6 RNA genes have been isolated and characterized. The Drosophila genome contains three U6 snRNA genes which are clustered in a 2-kilobase-pairs long DNA fragment. The U6 RNA coding regions are 100% homologous in all three genes, but the flanking sequences diverged significantly from each other. A possible secondary structure model for the Drosophila U4/U6 RNA complex is presented. Consistent with our previous observation that U6 RNA is a RNA polymerase III product (Reddy, R., Henning, D., Das, G., Harless, M., and Wright, D. (1987) J. Biol. Chem. 262, 75-81), all three genes contained a region homologous to the consensus intragenic regulatory region and a cluster of T residues on the 3'-end, characteristic of genes transcribed by RNA polymerase III. A TATA box was found between nucleotides -23 and -31, and a stretch of 28 nucleotides from -43 to -71 was conserved in the 5'-flanking region of all three U6 RNA genes. The Drosophila U6 RNA genes were transcribed in vitro by Drosophila nuclear extracts but were not transcribed by Novikoff hepatoma or HeLa cell extracts. Similarly, a mouse U6 RNA gene was transcribed in Novikoff hepatoma or HeLa cell extracts but not in Drosophila nuclear extracts. These results suggest that species-specific factor(s) are involved in the transcription of U6 snRNA genes.
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PMID:Structure, organization, and transcription of Drosophila U6 small nuclear RNA genes. 302 83

Transcription of the Bal I E restriction fragment of adenovirus DNA by RNA polymerase II in a HeLa cell extract produces a RNA transcript 1,712 nucleotides in length. This transcript contains the first two elements of the tripartite leader that, in vivo, is spliced onto the late mRNAs. We have found that this adenovirus 2 transcript forms a specific ribonucleoprotein complex (RNP) in this in vitro system. The RNP particle sediments in sucrose gradients as a monodisperse peak at 50 S and has a buoyant density of 1.34 g/cm3 in Cs2SO4, indicating the same 4:1 protein/RNA composition as native nuclear RNPs that contain pre-mRNA sequences (hnRNP). Moreover, the in vitro-assembled RNP is resistant to concentrations of NaCl that are known to dissociate nonspecific RNA-protein complexes. The adenovirus 2 transcript is precipitated by a monoclonal antibody for hnRNP core proteins. In addition, RNA-protein crosslinking of [alpha-32P]UTP-labeled transcript/RNP complexes reveals that the major proteins in contact with the RNA are the Mr 32,500-41,500 species known to be associated with hnRNA in vivo. These results demonstrate the in vitro assembly of a specific RNA polymerase II transcript into RNP. Moreover, because the 1,712-nucleotide adenovirus 2 transcript lacks poly(A) addition sites and because the leader sequences are not spliced appreciably in this in vitro system, it follows that RNP formation requires neither polyadenylylation nor splicing, nor is it sufficient to cause the latter.
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PMID:In vitro assembly of a pre-messenger ribonucleoprotein. 630 13

The distribution of nuclear ribonucleoprotein (hnRNP) particles in Drosophila polytene chromosomes has been investigated using anti-B-36 serum as a probe. The use of polytene chromosomes allows resolution at the level of the chromomere, and provides the opportunity to look for both positive and negative correlations with transcriptional activity. The antiserum was obtained using the nuclear protein B-36 from Physarum polycephalum as the immunogen. It has been shown to precipitate hnRNP particles from HeLa cells through a cross-reaction with the major 32,000- and 34,000-dalton hnRNP particle proteins. The antiserum cross-reacts with a Drosophila nuclear protein of approximately 34,000 daltons. By indirect immunofluorescence, we observed that the antiserum reacts preferentially with transcriptionally active loci of the polytene chromosomes, whereas loci previously or subsequently active do not show significant fluorescence. The overall pattern of fluorescence is very similar to that generated with anti-RNA polymerase B serum. The correlation of fluorescence and transcriptional activity observed suggests that the anti-B-36 serum is recognizing hnRNP proteins which have combined with nascent RNA molecules at the sites of transcription.
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PMID:Distribution studies on polytene chromosomes using antibodies directed against hnRNP. 678 80

Evidence suggesting the presence in rat liver nuclear extracts of a new RNP complex of 70-110S has been provided [Hatzoglou, M., Adamtziki, E., Margaritis, L. and Sekeris, C.E (1985) Exp. Cell. Res. 157, 227-241]. Biochemical features unique to this RNP were its stability to salt and RNase digestion and the presence of a pair of polypeptides of 72/74 kDa. By producing antibodies against the 72/74 kDa polypeptides these proteins have been defined as integral components of the 70-110S RNP complex. They comprise two immunologically related polypeptides with an exclusively nucleoplasmic localization, giving a speckled pattern in a diffuse background, similar, but not identical, to the Sm antigen. The 70-110S RNP complex, referred to as large heterogeneous nuclear RNP (LH-nRNP), has a simple protein pattern that includes, in addition to the 72/74 kDa proteins, three stably associated polypeptides of apparent molecular size 110, 61 and 59 kDa. The bulk of its RNA component represents a discrete RNA population of 10-20S, belonging to a subset of the RNA detected within immunopurified HeLa hnRNP complexes. These RNA species are RNA polymerase II transcripts of greater stability relative to the bulk of hnRNA, containing oligo(A) or poly(A) sequences. Immunodepletion and/or antibody addition studies in HeLa splicing extracts using antibodies with specificity for the 72/74 kDa proteins revealed a rather strong inhibition of splicing activity, suggesting participation of the LH-nRNP complex in in vitro splicing.
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PMID:Two immunologically related polypeptides of 72/74 kDa specify a novel 70-100S heterogeneous nuclear RNP. 765 36

hnRNP protein A1 (34 kDa, pl 9.5) is a prominent member of the family of proteins (hnRNP proteins) that associate with the nascent transcripts of RNA polymerase II and that accompany the hnRNA through the maturation process and the export to the cytoplasm. New evidence suggests an active and specific role for some of these proteins, including protein A1, in splicing and transport. Contrary to the other hnRNP proteins, the intracellular level of protein A1 was reported to change as a function of proliferation state and cell type. In this work we analyse the A1 gene expression in different cells under different growth and differentiation conditions. Proliferation dependent expression was observed in lymphocytes and fibroblasts while purified neurons express high A1 mRNA levels both in the proliferative (before birth) and in the quiescent (after birth) state. Transformed cell lines exhibit very high (proliferation independent) A1 mRNA levels compared to differentiated tissues. A structural and functional characterization of the A1 gene promoter was carried out by means of DNase I footprinting and CAT assays. The observed promoter features can account for both elevated and regulated mRNA transcription. At least 12 control elements are contained in the 734 nucleotides upstream of the transcription start site. Assays with the deleted and/or mutated promoter indicate a co-operation of multiple transcriptional elements, distributed over the entire promoter, in determining the overall activity and the response to proliferative stimuli (serum).
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PMID:Human hnRNP protein A1 gene expression. Structural and functional characterization of the promoter. 838 72

As they are transcribed, RNA polymerase II transcripts (hnRNAs or pre-mRNAs) associate with hnRNP proteins and snRNP particles, and the processing of pre-mRNA occurs within these ribonucleoprotein complexes. To better understand the relationship between hnRNP proteins and snRNP particles and their roles in mRNA formation, we have visualized them as they associate with nascent transcripts on the polytene chromosomes of Drosophila melanogaster salivary glands. Simultaneous pairwise detection of the abundant hnRNP proteins hrp36, hrp40, and hrp48 by direct double-label immunofluorescence microscopy reveals all of these proteins are bound to most transcripts, but their relative amounts on different transcripts are not fixed. Numerous differences in the relative amounts of snRNP particles and hnRNP proteins on nascent transcripts are also observed. These observations directly demonstrate that individual hnRNP proteins and snRNP particles are differentially associated with nascent transcripts and suggest that different pre-mRNAs bind different combinations of these factors to form transcript-specific, rather than a single type of, hnRNA-hnRNP-snRNP complexes. The distinct and specific constellation of hnRNP proteins and snRNP particles that assembles on different pre-mRNAs is likely to affect the fate and pathway of processing of these transcripts.
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PMID:Association of individual hnRNP proteins and snRNPs with nascent transcripts. 846 43

TLS (FUS) and the related gene EWS encode the N-terminal portion of many fusion oncoproteins involved in human sarcomas and leukemia. TLS is an RNA-binding nuclear protein that is identical to hnRNP P2 and may be implicated in mRNA metabolism. When RNA polymerase II is inhibited, TLS immunostaining in the nucleus is dramatically altered, from its normal diffuse nucleoplasmic pattern to accumulation in dense nuclease-resistant aggregates. Co-immunostaining with antibodies to fibrillarin or p80 coilin and immunoelectron microscopy revealed that the TLS aggregates are associated with the nucleolus and are distinct from other known structures such as the coiled body or the interchromatin granule. Injection of cells with an oligodeoxynucleotide that disrupts splicing does not result in redistribution of TLS, indicating that the event is specific to inhibition of transcription. Oncoproteins that contain the N-terminal domain from either TLS, EWS or their Drosophila homologue, SARFH (CAZ), are also targeted to the same structure. These findings suggest a correlation between the topogenic and transforming activities of TLS and EWS N-termini and imply the existence of cellular targets that are shared by the germ-line encoded proteins and their oncogenic derivatives.
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PMID:A topogenic role for the oncogenic N-terminus of TLS: nucleolar localization when transcription is inhibited. 905 42

The heterogeneous nuclear ribonucleoprotein A1 (hnRNP A1) shuttles between the cytoplasm and nucleus and plays important roles in RNA metabolism. Whereas nuclear hnRNP A1 has been shown to bind intronic sequences and modulate splicing, cytoplasmic hnRNP A1 is associated with poly(A)+ RNA, indicating different RNA ligand specificity. Previous studies indicated that cytoplasmic hnRNP A1 is capable of high-affinity binding of reiterated AUUUA sequences (ARE) that have been shown to modulate mRNA turnover and translation. Through a combination of two-dimensional gel and proteolysis studies, we establish hnRNP A1 (or structurally related proteins that are post-translationally regulated in an identical manner) as the dominant cytoplasmic protein in human T lymphocytes capable of interacting with the ARE contained within the context of full-length granulocyte-macrophage colony-stimulating factor mRNA. We additionally demonstrate that cytoplasmic hnRNP A1 preferentially binds ARE relative to pre-mRNAs in both cross-linking and mobility shift experiments. RNA polymerase II inhibition increased the binding of ARE (AUBP activity) and poly(U)-Sepharose by cytoplasmic hnRNP A1, while nuclear hnRNP A1 binding was unaffected. Nuclear and cytoplasmic hnRNP A1 could be distinguished by the differential sensitivity of their RNA binding to diamide and N-ethylmaleimide. The increase in AUBP activity of cytoplasmic hnRNP A1 following RNA polymerase II inhibition correlated with serine-threonine dephosphorylation, as determined by inhibitor and metabolic labeling studies. Thus, cytoplasmic and nuclear hnRNP A1 exhibit different RNA binding profiles, perhaps transduced through serine-threonine phosphorylation. These findings are relevant to the specific ability of hnRNP A1 to serve distinct roles in post-transcriptional regulation of gene expression in both the nucleus and cytoplasm.
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PMID:Modulation of AUUUA response element binding by heterogeneous nuclear ribonucleoprotein A1 in human T lymphocytes. The roles of cytoplasmic location, transcription, and phosphorylation. 935 43

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