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)

Coiled bodies are conserved subnuclear domains found in both plant and animal cells. They contain a subset of splicing snRNPs and several nucleolar antigens, including Nopp140 and fibrillarin. In addition, autoimmune patient sera have identified a coiled body specific protein, called p80 coilin. In this study we show that p80 coilin is ubiquitously expressed in human tissues. The full-length human p80 coilin protein correctly localizes in coiled bodies when exogenously expressed in HeLa cells using a transient transfection assay. Mutational analysis identifies separate domains in the p80 coilin protein that differentially affect its subnuclear localization. The data show that p80 coilin has a nuclear localization signal, but this is not sufficient to target the protein to coiled bodies. The results indicate that localization in coiled bodies is not determined by a simple motif analogous to the NLS motifs involved in nuclear import. A specific carboxy-terminal deletion in p80 coilin results in the formation of pseudo-coiled bodies that are unable to recruit splicing snRNPs. This causes a loss of endogenous coiled bodies. A separate class of mutant coilin proteins are shown to localize in fibrillar structures that surround nucleoli. These mutants also lead to loss of endogenous coiled bodies, produce a dramatic disruption of nucleolar architecture and cause a specific segregation of nucleolar antigens. The structural change in nucleoli is accompanied by the loss of RNA polymerase I activity. These data indicate that p80 coilin plays an important role in subnuclear organization and suggest that there may be a functional interaction between coiled bodies and nucleoli.
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PMID:Mutational analysis of p80 coilin indicates a functional interaction between coiled bodies and the nucleolus. 749 Feb 87

Most DNA topoisomerase II (topo II) in cell-free extracts of 0-2-h old Drosophila embryos appears to be nonnuclear and remains in the supernatant after low-speed centrifugation (10,000 g). Virtually all of this apparently soluble topo II is particulate with a sedimentation coefficient of 67 S. Similar topo II-containing particles were detected in Drosophila Kc tissue culture cells, 16-19-h old embryos and extracts of progesterone-matured oocytes from Xenopus. Drosophila topo II-containing particles were insensitive to EDTA, Triton X-100 and DNase I, but could be disrupted by incubation with 0.3 M NaCl or RNase A. After either disruptive treatment, topo II sedimented at 9 S. topo II-containing particles were also sensitive to micrococcal nuclease. Results of chemical cross-linking corroborated those obtained by centrifugation. Immunoblot analyses demonstrated that topo II-containing particles lacked significant amounts of lamin, nuclear pore complex protein gp210, proliferating cell nuclear antigen, RNA polymerase II subunits, histones, coilin, and nucleolin. Northern blot analyses demonstrated that topo II-containing particles lacked U RNA. Thus, current data support the notion that nonnuclear Drosophila topo II-containing particles are composed largely of topo II and an unknown RNA molecule(s).
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PMID:An RNase-sensitive particle containing Drosophila melanogaster DNA topoisomerase II. 808 68

Fluorescence in situ hybridization and immunofluorescence have been used to visualize specific genomic DNA sequences and proteins in interphase nuclei treated with transcriptional inhibitors. The adenosine analog 5,6-dichloro-beta-D-ribofuranosylbenzimidazole (DRB) and alpha-amanitin selectively inhibit transcription by RNA polymerase II at low doses. Upon exposure to DRB or alpha-amanitin the fibrillar components of the normally compact nucleolus unravel into necklace-like structures which represent highly extended linear arrays of ribosomal (r)RNA genes. Similarly, blocks of tandemly repeated satellite DNAs dissociate into extended beaded strands. Localized (euchromatic) chromosome domains and even whole chromosome territories disperse throughout the nuclear interior. Treatment of cells with actinomycin D (AMD) at doses that block rRNA synthesis does not cause significant decondensation of nucleolar, heterochromatic, and interphase chromosome domains. Interestingly, both alpha-amanitin and AMD cause coilin to associate with the nucleolar domain. In AMD-treated cells, coilin is enriched in nucleolar caps abutting upon the residual nucleolus. After alpha-amanitin treatment, coilin is concentrated in numerous beads closely associated with individual rDNA transcription units within nucleolar necklaces. The changes in higher-order nuclear structure are reversible in cell cultures exposed to nontoxic doses of transcriptional inhibitors. It therefore may be concluded that nuclear topographic organization is dependent on a continued transcription of nuclear genes, but not of the rRNA genes.
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PMID:Inhibition of RNA polymerase II transcription causes chromatin decondensation, loss of nucleolar structure, and dispersion of chromosomal domains. 861 82

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 coiled body is a phylogenetically conserved nuclear organelle whose function is not known. Probes for detection of p80-coilin, an 80 kDa protein enriched in the coiled body, have made possible studies determining the behavior of the coiled body during the cell cycle, in proliferating cells, as well as reports suggesting some relationship of the coiled body to mRNA splicing and to the nucleolus. The objective of this study is to examine the distribution of p80-coilin and nucleolar proteins in cells infected with adenovirus in vitro. HeLa cells grown as monolayers were infected with successive dilutions of type 5 human adenovirus culture and fixed in methanol/acetone at different time points. Single and double indirect immunofluorescence was performed with human autoantibodies to p80-coilin, fibrillarin, NOR-90/hUBF, RNA polymerase I, PM-Scl, and To, as well as rabbit polyclonal serum to p80-coilin (R288) and mouse monoclonal antibody to adenovirus 72-kDa DNA-binding protein. Indirect immunofluorescence (IIF) with anti-p80-coilin antibodies showed that the usual bright dot-like coiled body staining pattern was replaced in infected cells by 1-5 clusters of tiny dots at the periphery of the nucleus. This phenomenon was first detected within 12 h of infection and affected more severely cells with increased length and load of infection. Cells subjected to heat shock presented no such alteration. Double IIF showed cells with abnormal coiled body appearance expressed the viral 72-kDa DNA-binding protein. Nucleolar proteins RNA polymerase I and NOR-90/hUBF became associated with the p80-coilin-enriched clusters and were no longer detected in the nucleolus. Other nucleolar proteins, like PM-Scl and To, remained associated to the nucleolus and were not detected in the newly formed clusters. Fibrillarin had a heterogeneous behavior, being restricted to the nucleolus in some infected cells while in some others it was associated with the p80-coilin-enriched clusters. Thus our results showed that in vitro adenovirus infection induced radical redistribution of nucleolar and coiled body constituents into newly formed structures characterized by clusters of tiny dots in the periphery of the nucleus. The fact that three major proteins involved in rRNA synthesis and processing colocalized with p80-coilin in these clusters may bring additional support to the idea that the coiled body and p80-coilin may be implicated in functions related to the nucleolus.
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PMID:The behavior of the coiled body in cells infected with adenovirus in vitro. 911 27

TFIIH is a general transcription factor for RNA polymerase II that in addition is involved in DNA excision repair. TFIIH is composed of eight or nine subunits and we show that at least four of them, namely cdk7, cyclin H, MAT1, and p62 are localized in the coiled body, a distinct subnuclear structure that is transcription dependent and highly enriched in small nuclear ribonucleoproteins. Although coiled bodies do not correspond to sites of transcription, in vivo incorporation of bromo-UTP shows that they are surrounded by transcription foci. Immunofluorescence analysis using antibodies directed against the essential repair factors proliferating cell nuclear antigen and XPG did not reveal labeling of the coiled body in either untreated cells or cells irradiated with UV light, arguing that coiled bodies are probably not involved in DNA repair mechanisms. The localization of cyclin H in the coiled body was predominantly detected during the G1 and S-phases of the cell cycle, whereas in G2 coiled bodies were very small or not detected. Finally, both cyclin H and cdk7 did not colocalize with P80 coilin after disruption of the coiled body, indicating that these proteins are specifically targeted to the small nuclear ribonucleoprotein-containing domain.
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PMID:The cdk7-cyclin H-MAT1 complex associated with TFIIH is localized in coiled bodies. 924 2

We have found that CDK2 and cyclin E, but not cyclin A, accumulates within Cajal bodies (CBs) in a cell cycle-dependent fashion. In the absence of cyclin E, CDK2 is not enriched in the CB compartment, suggesting that the translocation of CDK2 to CBs is dependent on cyclin E. CDK2 and cyclin E could be recruited to CBs as a functional complex or CBs may serve as 'docking stations' for CDK2-cyclin E activation by CAKs during the G(1)/S transition. Notably, CDK7-cyclin H-Mat1 complexes are known to accumulate in CBs. Treatment of cells with inhibitors of either CDKs (olomoucine, 200 microM) or RNA polymerase I (actinomycin D, 0.05 microgram/ml), results in a striking reorganization of CDK2 and p80 coilin to the nucleolar periphery. Furthermore, we demonstrate that p80 coilin can be phosphorylated by purified CDK2-cyclin E complexes in vitro. Thus coilin and other CB proteins appear to be downstream targets of CDK2-cyclin E complex-mediated signaling pathways regulating cell cycle progression and controlling aspects of CB function. Possible roles for CDK2 and cyclin E in the well-documented association of CBs, histone gene clusters and RNA 3' end processing factors are discussed.
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PMID:Cell cycle-dependent localization of the CDK2-cyclin E complex in Cajal (coiled) bodies. 1075 Nov 46

The absence of nucleoli and rRNA synthesis in oocyte nuclei of the scorpion fly, Panorpa communis, was demonstrated using hybridization in situ. The immunocytochemical characteristics of a single large nuclear body of P. communis oocytes has been done which enabled us to recognize this structure as a Cajal body (CB). A marker of CBs coilin was detected in CBs of P. communis oocytes in addition to Sm-epitope of small nuclear RNPs (snRNPs), trimethylguanosine cap of snRNAs, and non-snRNP splicing factor, SC35. Besides, inactive hyperphosphorylated and nonphosphorylated forms of RNA polymerase II were also found in CBs. We put forward a suposition on possible roles of CBs in P. communis oocytes. On the one hand, CBs take part in the storage of RNA transcription and processing components to be used later during embryogenesis. On the other hand, they provide the primary assembly and redistribution of pre-mRNA transcription and processing components of the oocyte itself.
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PMID:[Cajal bodies in nuclei of oocytes from the scorpion fly Panorpa communis]. 1120 47

During the growth phase of the bovine oocyte transcripts, polypeptides and ribosomes are accumulated in the oocyte to drive and sustain future meiotic maturation, fertilization, and early embryonic development. The oocyte also furnishes the early embryo with the components required to establish a functional transcriptionally active nucleolus at the time of maternal embryonic transition. The aim of the present study was to describe the behavior of key components of the nucleolus. The temporal localization of nucleolar proteins fibrillarin, nucleophosmin, nucleolin, RNA polymerase I (RNA pol I), topoisomerase I, upstream binding factor (UBF), and coilin 5P10 was investigated in growing and fully grown immature bovine oocytes during in vitro maturation and during the first postfertilization cell cycle using whole-mount immunocytochemistry and confocal microscopy. During the oocyte growth phase, fibrillarin, nucleophosmin, nucleolin, RNA pol I, and UBF were localized to the oocyte nucleolus. On completion of the growth phase, nucleolin and nucleophosmin appeared to migrate to the periphery of the nucleolus and into the nucleoplasm, and the proportion of oocytes displaying RNA pol I localization had decreased. Topoisomerase I was not detected at any stage. Fibrillarin appeared to be localized to large foci within the nucleolus and/or nucleoplasm. Nucleophosmin and nucleolin labeling was characterized by a homogeneous signal over the nucleolus. RNA pol I and UBF were characterized by the localization of the antibodies to individual or clustered foci in the nucleolus and/or nucleoplasm. Following oocyte nucleus breakdown (ONBD), the proteins appeared to disperse into the cytoplasm. All proteins were undetectable during meiotic maturation and were not relocalized until 5-10 h postinsemination (hpi). UBF was localized to the fertilizing sperm head of most zygotes at 5 hpi. By 10 hpi, all proteins were detected in most oocytes displaying two pronuclei. Nucleolar protein localization was exclusive to or more abundant in one pronucleus up to 20 hpi; thereafter, the pattern was more evenly distributed. Fibrillarin, nucleophosmin, nucleolin, UBF, and Pol I are present in the nuclei of growing and fully grown bovine oocytes until ONBD. They reappear at the late telophase stage of meiosis II and continue to be present up to the first mitotic division of embryo development.
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PMID:Immunolocalization of nucleolar proteins during bovine oocyte growth, meiotic maturation, and fertilization. 1131 60

Ultrastructural and immunomorphological characteristics of the developing karyosphere and extrachromosomal nuclear bodies (NBs) in Tenebrio molitor oocytes are presented. Three consecutive stages of karyosphere development were identified: reticular, compact and ring-shaped. At the beginning of the karyosphere development (reticular and compact stages), condensed chromosomes are associated with a fibrogranular material (FGM). The successive karyosphere development is accompanied by the reorganization of FGM into fibrogranular NBs. Special attention was given to the nuclear distribution of hyperphosphorylated and non-phosphorylated forms of RNA polymerase II (pol II) and pre-mRNA splicing factors (snRNPs and SC35 protein) during karyosphere development and NB formation. The immunoelectron microscopy revealed that two forms of pol II and splicing factors being assembled in FGM are deposited in appropriate NBs. Some NBs were also shown to contain coilin, a marker protein for Cajal (coiled) bodies. We suggest that different types of NBs appearing in T. molitor oocyte nuclei along with the cessation of transcriptional activity during the karyosphere development represent storage domains for inactive RNA transcription/processing machinery to later usage in early embryogenesis.
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PMID:Immunogold localization of RNA polymerase II and pre-mRNA splicing factors in Tenebrio molitor oocyte nuclei with special emphasis on karyosphere development. 1182 99

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