Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:2.7.7.48 (transcriptase)
9,479 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Eukaryotic heterochromatin is characterized by a high density of repeats and transposons, as well as by modified histones, and influences both gene expression and chromosome segregation. In the fission yeast Schizosaccharomyces pombe, we deleted the argonaute, dicer, and RNA-dependent RNA polymerase gene homologs, which encode part of the machinery responsible for RNA interference (RNAi). Deletion results in the aberrant accumulation of complementary transcripts from centromeric heterochromatic repeats. This is accompanied by transcriptional de-repression of transgenes integrated at the centromere, loss of histone H3 lysine-9 methylation, and impairment of centromere function. We propose that double-stranded RNA arising from centromeric repeats targets formation and maintenance of heterochromatin through RNAi.
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PMID:Regulation of heterochromatic silencing and histone H3 lysine-9 methylation by RNAi. 1219 43

The regulation of higher-order chromosome structure is central to cell division and sexual reproduction. Heterochromatin assembly at the centromeres facilitates both kinetochore formation and sister chromatid cohesion, and the formation of specialized chromatin structures at telomeres serves to maintain the length of telomeric repeats, to suppress recombination, and to aid in formation of a bouquet-like structure that facilitates homologous chromosome pairing during meiosis. In fission yeast, genes encoding the Argonaute, Dicer, and RNA-dependent RNA polymerase factors involved in RNA interference (RNAi) are required for heterochromatin formation at the centromeres and mating type region. In this study, we examine the effects of deletions of the fission yeast RNAi machinery on chromosome dynamics during mitosis and meiosis. We find that the RNAi machinery is required for the accurate segregation of chromosomes. Defects in mitotic chromosome segregation are correlated with loss of cohesin at centromeres. Although the telomeres of RNAi mutants maintain silencing, length, and localization of the heterochromatin protein Swi6, we discovered defects in the proper clustering of telomeres in interphase mitotic cells. Furthermore, a small proportion of RNAi mutant cells display aberrant telomere clustering during meiotic prophase. This study demonstrates that the fission yeast RNAi machinery is required for the proper regulation of chromosome architecture during mitosis and meiosis.
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PMID:RNA interference machinery regulates chromosome dynamics during mitosis and meiosis in fission yeast. 1250 1

The localization of reverse transcriptase-related proteins in polytene chromosomes of dipterans was investigated using previously characterized antibodies to a recombinant polypeptide containing conserved motifs of insect reverse transcriptases. The immunoreactions were carried out with polytene chromosome squashes of eight sciarids, one chironomid and three Drosophila species. Telomeric staining was regularly observed on chromosomes of the sciarid Rhynchosciara americana under normal growth conditions. Five of eight chromosomal tips were labelled except for the heterochromatic ends that are occasionally found associated forming a chromocentre in the salivary gland. Reverse transcriptase-related proteins were detected at chromosomal tips of young larvae and remained bound to the telomeres throughout larval development. As in salivary gland chromosomes, five non-telocentric ends of the chromosomes from Malpighian tubules of R. americana appeared clearly stained with anti-reverse transcriptase. The occurrence of telomeric reverse transcriptase in R. americana correlates with the presence of RNA in addition to an unusual enrichment with homopolymeric dA/dT DNA associated with the telomeric heterochromatin. The antibodies also reacted with a few interstitial sites in chromosomes of four Rhynchosciara species, one band overlapping the histone gene locus of three species in the americana -like group. The results provide evidence for a reverse transcriptase-related protein as a constitutive component in telomeres of R. americana and also in certain interstitial loci of Rhynchosciara species in which RNA was immunologically detected in the form of RNA:DNA hybrids.
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PMID:Reverse transcriptase-related proteins in telomeres and in certain chromosomal loci of Rhynchosciara (Diptera: Sciaridae). 1270 82

In plants, animals and fungi, active centromeres are associated with arrays of repetitive DNA sequences. The outer repeats at fission yeast (Schizosaccharomyces pombe) centromeres are heterochromatic and are required for the assembly of an active centromere. Components of the RNA interference (RNAi) machinery process transcripts derived from these repeats and mediate the formation of silent chromatin. A subfragment of the repeat (dg) is known to induce silencing of marker genes at euchromatic sites and is required for centromere formation. We show that the RNAi components, Argonaute (Ago1), Dicer (Dcr1) and RNA-dependent RNA polymerase (Rdp1), are required to maintain silencing, lysine 9 methylation of histone H3 and association of Swi6 via this dg ectopic silencer. Deletion of Ago1, Dcr1 or Rdp1 disrupts chromosome segregation leading to a high incidence of lagging chromosomes on late anaphase spindles and sensitivity to a microtubule poison. Analysis of dg transcription indicates that csp mutants, previously shown to abrogate centromere silencing and chromosome segregation, are also defective in the regulation of non-coding centromeric RNAs. In addition, histone H3 lysine 9 methylation at, and recruitment of Swi6 and cohesin to, centromeric repeats is disrupted in these mutants. Thus the formation of silent chromatin on dg repeats and the development of a fully functional centromere is dependent on RNAi.
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PMID:RNA interference is required for normal centromere function in fission yeast. 1273 40

RNAi-mediated heterochromatin assembly in fission yeast requires the RNA-induced transcriptional silencing (RITS) complex and a putative RNA-directed RNA polymerase (Rdp1). Here we show that Rdp1 is associated with two conserved proteins, Hrr1, an RNA helicase, and Cid12, a member of the polyA polymerase family, in a complex that has RNA-directed RNA polymerase activity (RDRC, RNA-directed RNA polymerase complex). RDRC physically interacts with RITS in a manner that requires the Dicer ribonuclease (Dcr1) and the Clr4 histone methyltransferase. Moreover, both complexes are localized to the nucleus and associate with noncoding centromeric RNAs in a Dcr1-dependent manner. In cells lacking Rdp1, Hrr1, or Cid12, RITS complexes are devoid of siRNAs and fail to localize to centromeric DNA repeats to initiate heterochromatin assembly. These findings reveal a physical and functional link between Rdp1 and RITS and suggest that noncoding RNAs provide a platform for siRNA-dependent localization of RNAi complexes to specific chromosome regions.
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PMID:Two RNAi complexes, RITS and RDRC, physically interact and localize to noncoding centromeric RNAs. 1560 76

In fission yeast, factors involved in the RNA interference (RNAi) pathway including Argonaute, Dicer, and RNA-dependent RNA polymerase are required for heterochromatin assembly at centromeric repeats and the silent mating-type region. Previously, we have shown that RNA-induced initiation of transcriptional gene silencing (RITS) complex containing the Argonaute protein and small interfering RNAs (siRNAs) localizes to heterochromatic loci and collaborates with heterochromatin assembly factors via a self-enforcing RNAi loop mechanism to couple siRNA generation with heterochromatin formation. Here, we investigate the role of RNA-dependent RNA polymerase (Rdp1) and its polymerase activity in the assembly of heterochromatin. We find that Rdp1, similar to RITS, localizes to all known heterochromatic loci, and its localization at centromeric repeats depends on components of RITS and Dicer as well as heterochromatin assembly factors including Clr4/Suv39h and Swi6/HP1 proteins. We show that a point mutation within the catalytic domain of Rdp1 abolished its RNA-dependent RNA polymerase activity and resulted in the loss of transcriptional silencing and heterochromatin at centromeres, together with defects in mitotic chromosome segregation and telomere clustering. Moreover, the RITS complex in the rdp1 mutant does not contain siRNAs, and is delocalized from centromeres. These results not only implicate Rdp1 as an essential component of a self-enforcing RNAi loop but also ascribe a critical role for its RNA-dependent RNA polymerase activity in siRNA production necessary for heterochromatin formation.
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PMID:RNA-dependent RNA polymerase is an essential component of a self-enforcing loop coupling heterochromatin assembly to siRNA production. 1561 48

A number of methods exist to detect levels of telomerase activity and the presence of telomerase subunits in a variety of tissues. As telomerase activation seems to be an important step in tumorigenesis, accurate detection of the presence and activity of the enzyme and its subunits is vital. The original method of detecting telomerase activity was developed by Kim and coworkers in 1994, and was termed the telomeric repeat amplification protocol. This assay led to a staggering increase in the number of telomerase-associated publications in scientific journals (85 publications from 1974-1994, 5063 publications from 1994-2004). A number of methods have been described to detect telomeres and to measure their length, with the standard measurement of telomere length performed using a modification of the Southern blot protocol. RNA in situ hybridization can be performed to detect levels of the RNA component of telomerase, and standard in situ hybridization and immunohistochemistry can be applied to examine expression levels and localization of the catalytic subunit of the enzyme. Reverse transcriptase PCR has also been applied to assess expression levels of the telomerase components in various tissues. This review provides a synopsis of telomeres, telomerase, telomerase and cancer, and finally, methods for the detection of telomerase in cancer.
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PMID:Telomerase: is it the future diagnostic and prognostic tool in human cancer? 1625 32

Transformed cells express high levels of non-telomeric reverse-transcriptase (RT) activity of retrotransposon and endogenous retrovirus origin. We previously reported that RT inhibition, either pharmacological or through transient silencing of RT-encoding LINE-1 (L1) elements by RNA interference (RNAi), reduced proliferation, induced differentiation and reprogrammed gene expression in human tumorigenic cell lines. Moreover, the antiretroviral drug efavirenz antagonized tumor progression in animal models in vivo. To get insight into the role of retroelements in tumorigenesis, we have now produced two cell lines derived from A-375 melanoma, in which the expression of either L1 retrotransposon, or HERV-K endogenous retrovirus, was stably suppressed by RNAi. Compared to the parental A-375 cell line, cells with stably interfered L1 expression show a lower proliferation rate, a differentiated morphology and lower tumorigenicity when inoculated in nude mice. L1 silencing modulates expression of several genes and, unexpectedly, also downregulates HERV-K expression. In HERV-K interfered cells, instead, L1 expression was unaffected, and cell proliferation and differentiation remained unchanged compared to parental A-375 cells. In vivo, however, their tumorigenic potential was found to be reduced after inoculation in nude mice. These results suggest that L1 and HERV-K play specific and distinct roles in cell transformation and tumor progression.
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PMID:Distinct roles for LINE-1 and HERV-K retroelements in cell proliferation, differentiation and tumor progression. 1723 20

Assembly of heterochromatin at centromeric DNA regions in the fission yeast Schizosaccharomyces pombe involves an intimate interplay between chromatin modifying complexes and components of the RNAi pathway. The RNA-induced transcriptional silencing (RITS) complex, containing Chp1, Ago1, Tas3, and centromeric siRNAs, localizes to centromeric DNA repeats and is required for the assembly and maintenance of heterochromatin. RITS brings together two types of molecular recognition modules: a chromodomain protein, which binds to lysine 9 methylated histone H3 (H3K9), and Argonaute, which binds to specific sequences by siRNA-directed base-pairing interactions. The RNA-directed RNA polymerase complex (RDRC), composed of Rdp1, the Hrr1 helicase, and the Cid12 Poly(A) polymerase family member, synthesizes double-stranded RNA and creates the substrate for Dicer to generate siRNAs. RDRC physically associates with RITS, and both complexes localize to noncoding centromeric RNAs and centromeric DNA repeats, suggesting that recognition of nascent RNA transcripts may be involved in localization of these complexes to specific chromosome regions. In support of this possibility, tethering of the RITS complex to the transcript of the normally euchromatic ura4 (+) gene results in siRNA generation and RNAi- and heterochromatin-dependent silencing of the ura4 (+) gene. Finally, silencing of a subset of endogenous and transgene promoters within heterochromatic DNA domains occurs by RNAi-dependent degradation of nascent transcripts by a mechanism that we have termed co-transcriptional gene silencing (CTGS).
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PMID:Studies on the mechanism of RNAi-dependent heterochromatin assembly. 1738 28

The organization of DNA into heterochromatin domains is critical for a variety of chromosomal functions, including gene silencing, recombination suppression, and chromosome segregation. In fission yeast, factors involved in the RNAi pathway such as Argonaute, Dicer, and RNA-dependent RNA polymerase are required for assembly of heterochromatin structures. The RNAi Argonaute-containing RITS complex and RNA-dependent RNA polymerase localize throughout heterochromatin domains. These factors are important components of a self-reinforcing loop mechanism operating in cis to process repeat transcripts into siRNAs, which involve in heterochromatin assembly. In this paper, we describe our results suggesting that slicing of repeat transcripts by the Argonaute is an important step in their conversion into siRNAs and heterochromatic silencing. Mutations in conserved residues known to be essential for slicer activity of Argonautes result in loss of siRNAs corresponding to centromeric repeats, accumulation of repeat transcripts, and defects in heterochromatin assembly. We also discuss our recent finding that heterochromatin proteins such as Swi6/HP1 serve as a platform that could recruit both silencing and antisilencing factors to heterochromatic loci.
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PMID:RNAi-mediated heterochromatin assembly in fission yeast. 1738 31


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