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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)
Patients with hepatocellular carcinoma (HCC) develop autoantibodies to nuclear and nucleolar antigens (ANAs) which can be readily detected by immunofluorescence on cell substrates. The frequency of ANAs in HCC is 31% (57/184). The identity of three autoantigens was established as: NOR-90, nucleolus organizer region (doublet) polypeptides involved in
RNA polymerase I
transcription; fibrillarin, a component of nucleolar U3 RNP involved in pre-ribosomal RNA processing, and nucleophosmin/protein
B23
, a nucleolar protein involved in ribosome maturation and cell proliferation. Changes in ANAs were observed in some patients during transition from chronic liver disease to HCC and were manifested as seroconversion from ANA-negative to ANA-positive status by an increase in titers and changes in ANA specificities. Serum from a patient during this transition period was used to isolate a cDNA clone encoding a novel nuclear protein with structural motifs characteristic of a family of splicing factors. These observations support the notion that ANA responses in HCC might be driven by intracellular events related to transformation from the stage of chronic injury to the stage of malignancy. Changes in ANA profiles which were observed to precede clinically diagnosed HCC in some patients might be early markers of transformation.
...
PMID:Autoantibodies in viral hepatitis-related hepatocellular carcinoma. 840 52
The breakpoints of the translocation t(2;5)(p23;q35) associated with Ki-1-positive anaplastic large cell lymphoma (Ki-1 ALCL) have recently been cloned. They involve a novel tyrosine kinase gene, ALK, at 2p23 and the nucleophosmin gene,
NPM
, at 5q35. Reverse
transcriptase
-polymerase chain reaction (RT-PCR) with
NPM
and ALK primers detects a consistent fusion product in Ki-1 ALCL cases that have the translocation. In the course of a survey of 15 cases of Ki-1 ALCL, we identified a single case with a slightly smaller
NPM
-ALK RT-PCR product, among 12 cases positive for this fusion RNA. Sequencing of this novel
NPM
-ALK RT-PCR product showed an in-frame junction of
NPM
to ALK, 30 bases distal to the usual ALK junction site, but at the usual
NPM
Junction site. The predicted chimeric protein in this case is thus shorter by 10 amino acids, but the putative ALK catalytic domain remains intact. PCR with ALK primers bracketing the novel fusion point, performed on either cDNA or genomic DNA, yielded the same product, confirming that this novel ALK fusion point was located within an exon. Hybridization analysis of the genomic junction fragment isolated by long-range DNA PCR suggested that the ALK genomic breakpoint was also exonic. Cloning and sequencing of the genomic breakpoint confirmed that the break occurred within the 5' portion of the ALK exon participating in the fusion junction, 28 bases 3' to the normal ALK exon boundary, resulting in the use of a cryptic splice acceptor site two bases distal to the breakpoint. This case demonstrates that, in translocations resulting in chimeric transcripts, genomic breakpoints may rarely lie within an exon, provided that the reading frame is maintained and no domains presumed critical to tumorigenesis are deleted.
...
PMID:Molecular variant of the NPM-ALK rearrangement of Ki-1 lymphoma involving a cryptic ALK splice site. 872 82
The Ki-67 antigen is detected in proliferating cells in all phases of the cell division cycle. Throughout most of interphase, the Ki-67 antigen is localised within the nucleous. To learn more about the relationship between the Ki-67 antigen and the nucleolus, we have compared the distribution of Ki-67 antibodies with that of a panel of antibodies reacting with nucleolar components by confocal laser scanning microscopy of normal human dermal fibroblasts in interphase stained in a double indirect immunofluorescence assay. During early G1, the Ki-67 antigen is detected at a large number of discrete foci throughout the nucleoplasm, extending to the nuclear envelope. During S-phase and G2, the antigen is located in the nucleolus. Double indirect immunofluorescence studies have revealed that during early to mid G1 the Ki-67 antigen is associated with reforming nucleoli within discrete domains which are distinct from domains containing two of the major nucleolar antigens fibrillarin and
RNA polymerase I
. Within mature nucleoli the Ki-67 antigen is absent from regions containing
RNA polymerase I
and displays only partial co-localisation within domains containing either fibrillarin or
B23
/nucleophosmin. Following disruption of nucleolar structure, induced by treatment of cells with the drug 5,6-dichloro-1-beta-D-ribofuranosylbenzimidazole or with actinomycin D, the Ki-67 antigen translocates to nucleoplasmic foci which are associated with neither fibrillarin nor
RNA polymerase I
. However, in treated cells the Ki-67 Ag remains associated with, but not co-localised to, regions containing
B23
/nucleophosmin. Our observations suggest that the Ki-67 antigen associates with a fibrillarin-deficient region of the dense fibrillar component of the nucleolus. Integrity of this region is lost following either nucleolar dispersal or nucleolar segregation.
...
PMID:Localisation of the Ki-67 antigen within the nucleolus. Evidence for a fibrillarin-deficient region of the dense fibrillar component. 879 15
The breakpoints of the translocation t(2;5)(p23;q35) associated with Ki-1-positive anaplastic large-cell lymphoma (Ki-1 ALCL) involve a novel tyrosine kinase gene, ALK, at 2p23 and the nucleophosmin gene,
NPM
, at 5q35. Reverse
transcriptase
-polymerase chain reaction (RT-PCR) using
NPM
and ALK primers detects a consistent fusion product in Ki-1 ALCL cases with the translocation, resulting from genomic breakpoints within the same respective introns of
NPM
and ALK. To examine the feasibility of long-range DNA PCR with the same exonic
NPM
and ALK primers for the detection of the genomic
NPM
-ALK rearrangement, we examined 20 cases of Ki-1 ALCL previously characterized by
NPM
-ALK RT-PCR. Ten cases were positive for the
NPM
-ALK fusion RNA and 10 were negative. We first confirmed that both the
NPM
and ALK normal introns are relatively short, approximately 1 and 2 kb, respectively, suggesting that the largest possible size for the chimeric
NPM
-ALK intron would be about 3 kb. All 10 cases positive by RT-PCR were also positive by long-range DNA PCR. The DNA PCR products ranged, as expected, from the sizes of the normal introns, between 0.5 and 2.5 kb. All 10 RT-PCR-negative cases were also negative by long-range DNA PCR, and control templates for RT-PCR and long-range DNA PCR were successfully amplified. Thus, we have shown that the introns involved by the
NPM
-ALK rearrangement seen in some Ki-1 lymphomas are relatively short, making the genomic rearrangement amenable to reliable detection by long-range DNA PCR. Furthermore, the variability observed in the sizes of chimeric introns in evidence against clustering of the genomic breakpoints within these introns.
...
PMID:Detection of the NPM-ALK genomic rearrangement of Ki-1 lymphoma and isolation of the involved NPM and ALK introns. 886 27
Some cytotoxic drugs cause translocation of nucleophosmin/
B23
and other nucleolar proteins to the nucleoplasm. The present study shows that these drugs caused a similar translocation of RH-II/Gu, a nucleolar RNA helicase. Other nucleolar proteins including p120, UBF,
RNA polymerase I
large subunit, fibrillarin, p40, and Ren-1 did not translocate. A 2-h treatment of MCF-7 breast cancer cells with 0.008 or 0.16 microM actinomycin D resulted in translocation of RH-II/Gu to the nucleoplasm; these effects were not reversed by 100 microM guanosine. The effects of 0.008 microM actinomycin D, but not 0.16 microM actinomycin D, on the translocation of RH-II/Gu were reversed when the drug was removed. However, the effects of 0.008 or 0.16 microM actinomycin D on the translocation of nucleophosmin/
B23
were not reversible. The translocation effects of 50 microM toyocamycin on RH-II/Gu were reversed when the drug was replaced with fresh medium. RH-II/Gu mostly relocalized to the nucleoli within 15 min after toyocamycin was withdrawn; only partial relocalization of nucleophosmin/
B23
occurred 40 h after removal of the drug. The effects of toyocamycin were not blocked by 100 microM guanosine. Mycophenolic acid (50 microM, 2-h treatment) caused partial translocation of RH-II/Gu; this effect was slowly reversed upon drug removal and was inhibited by 100 microM guanosine, in a manner similar to the effects of mycophenolic acid on the localization of nucleophosmin/
B23
. This study shows similarities and differences in the drug-induced translocation and relocalization of RH-II/Gu and nucleophosmin/
B23
. Analysis of translocation of specific nucleolar proteins may offer a quantitative approach to assessment of potency and duration of effects of cytotoxic agents.
...
PMID:Effects of cytotoxic drugs on translocation of nucleolar RNA helicase RH-II/Gu. 929 66
We examined the distribution of the silver-stainable phosphoprotein, pp135, within Ehrlich tumor and HEp-2 cells by a postembedding Lowicryl immunogold labeling procedure. Identical labeling patterns were obtained in both cell types. During interphase, gold particles were found not only over the dense fibrillar component but were also evident over the fibrillar centers of nucleoli. By contrast, the granular component did not display any significant label. When rRNA synthesis was inhibited by actinomycin D, the same labeling was observed in segregated nucleoli; both fibrillar components were labeled. Aside from the nucleolar labeling, label was also consistently present in coiled bodies. During metaphase, label was visualized in silver-stainable material of the nucleolus organizing regions. It thus appears that, unlike the two major silver-stained proteins, nucleolin/C23 and
B23
, pp135 remains located in all major silver-stainable structures during the whole cell cycle. This finding strongly suggests that pp135 could be the component responsible for in situ silver staining. On the other hand, the maintenance of pp135 in the fibrillar centers throughout the cell cycle, like
RNA polymerase I
, upstream binding factor, and DNA topoisomerase I, suggests that pp135 could be a component involved in transcription of the rRNA genes.
...
PMID:The phosphoprotein pp135 is an essential constituent of the fibrillar components of nucleoli and of coiled bodies. 972 Sep 89
AgNOR proteins are a set of argyrophilic nucleolar proteins that accumulate in highly proliferating cells whereas their expression is very low in non-proliferating cells. Some of these proteins remain associated with the nucleolar organizer regions (NORs) during mitosis. In situ, the expression of AgNOR proteins is measured globally by quantification of the level of silver staining using morphometry and image analysis. To go deeper into the understanding of the relationship between the cell cycle and quantity of AgNOR proteins, it was necessary to determine the phases of cell cycle during which expression of AgNOR varies and what are the most variable proteins in each phase. To answer these questions, we set up the protocol permitting to detect and quantify AgNOR proteins on protein samples electrophoresed and transferred onto nitrocellulose membranes. This approach makes it possible to quantitatively evaluate individual AgNOR proteins and identify them, using nucleolar, nuclear and whole interphasic cell extracts, and chromosome-associated protein extracts. By this means, we identified nucleolin and protein
B23
as the two major AgNOR proteins in the nucleolus during interphase and subunits of
RNA polymerase I
and transcription factor UBF as AgNOR proteins remaining associated with NORs during mitosis. We also observed that the increase in the level of nucleolin and protein
B23
in rat liver seems to be linked with the cell cycle and not exclusively with stimulation of ribosomal gene (rDNA) transcription. Similarly in synchronized cells, the amount of nucleolin rapidly increases when cells enter the S phase (1.6-fold of the value of serum-deprived cells at 9 h, and 2.35-fold at 12 h after refeeding). The amount of protein
B23
exhibits a lower and progressive increase with a maximum when the percentage of cells in G2 phase increased, i.e. after 24 h of cell cycle stimulation. We consider that the amount of AgNOR proteins can be a marker of proliferation, because this amount is related to cell cycle phases, schematically low for G1 phase and high for S-G2 phase. Thus, it is a measure of the relative proportion of cells in each phase, and consequently of the timing of each phase. The higher value indicates that the major part of the cells are in the S-G2 phase and correlatively few are in the G1 phase, and this characterizes a rapid cell cycle.
...
PMID:The AgNOR proteins: qualitative and quantitative changes during the cell cycle. 1058 57
Transcription and splicing of messenger RNAs are temporally and spatially coordinated through the recruitment by
RNA polymerase II
of processing factors. We questioned whether
RNA polymerase I
plays a role in the recruitment of the ribosomal RNA (rRNA) processing machinery. During Xenopus laevis embryogenesis, recruitment of the rRNA processing machinery to the nucleolar domain occurs in two steps: two types of precursor structures called prenucleolar bodies (PNBs) form independently throughout the nucleoplasm; and components of PNBs I (fibrillarin, nucleolin, and the U3 and U8 small nucleolar RNAs) fuse to the nucleolar domain before components of PNBs II (
B23
/NO38). This fusion process is independent of
RNA polymerase I
activity, as shown by actinomycin D treatment of embryos and by the lack of detectable
RNA polymerase I
at ribosomal gene loci during fusion. Instead, this process is concomitant with the targeting of maternally derived pre-rRNAs to the nucleolar domain. Absence of fusion was correlated with absence of these pre-rRNAs in nuclei where
RNA polymerase II
and III are inhibited. Therefore, during X. laevis embryogenesis, the recruitment of the rRNA processing machinery to the nucleolar domain could be dependent on the presence of pre-rRNAs, but is independent of either zygotic
RNA polymerase I
transcription or the presence of
RNA polymerase I
itself.
...
PMID:The ribosomal RNA processing machinery is recruited to the nucleolar domain before RNA polymerase I during Xenopus laevis development. 1076 23
By means of immunofluorescence and immunoelectron microscopy we have studied the fate of different nucleolar components during the apoptotic process in camptothecin-treated HL60 cells. We have found that
RNA polymerase I
disappeared while UBF was associated with previously described fibrogranular threaded bodies. In contrast, fibrillarin, C23/nucleolin, and
B23
/nucleophosmin remained detectable in granular material present amid micronuclei of late apoptotic cells. Double immunolabeling experiments showed colocalization of both C23 and
B23
with fibrillarin. Immunoblotting analysis showed that UBF was proteolytically degraded, whereas fibrillarin, C23/nucleolin, and
B23
/nucleophosmin were not. These results may help explain the presence of anti-nucleolar antibodies seen in various pathological disorders.
...
PMID:Behavior of nucleolar proteins during the course of apoptosis in camptothecin-treated HL60 cells. 1084 21
In mammalian preovulatory oocytes, rRNA synthesis is down-regulated until egg fertilization and zygotic genome reactivation, but the underlying regulatory mechanisms of this phenomenon are poorly characterized. We examined the molecular organization of the rRNA synthesis and processing machineries in fully grown mouse oocytes in relation to ongoing rDNA transcription and oocyte progression throughout meiosis. We show that, at the germinal vesicle stage, the two
RNA polymerase I
(RNA pol I) subunits, RPA116 and PAF53/RPA53, and the nucleolar upstream binding factor (UBF) remain present irrespective of ongoing rDNA transcription and colocalize in stoichiometric amounts within discrete foci at the periphery of the nucleolus-like bodies. These foci are spatially associated with the early pre-rRNA processing protein fibrillarin and in part with the pre-ribosome assembly factor
B23
/nucleophosmin. After germinal vesicle breakdown, the RNA pol I complex disassembles in a step-wise manner from chromosomes, while UBF remains associated with chromosomes until late prometaphase I. Dislodging of UBF, but not of RNA pol I, is impaired by the phosphatase inhibitor okadaic acid, thus strengthening the idea of a relationship between UBF dynamics and protein phosphorylation. Since neither RNA pol I, UBF, fibrillarin, nor
B23
is detected at metaphase II, i.e., the normal stage of fertilization, we conclude that these nucleolar proteins are not transported to fertilized eggs by maternal chromosomes. Together, these data demonstrate an essential difference in the dynamics of the major nucleolar proteins during mitosis and meiosis.
...
PMID:Functional and molecular reorganization of the nucleolar apparatus in maturing mouse oocytes. 1088 21
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