EC:2.7.7.49 - FACTA Search

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Query: EC:2.7.7.49 (reverse transcriptase)
31,746 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Telomerase extends telomeric repeats at the ends of linear chromosomes, thereby prolonging the replicative capacity of cells. To investigate possible regulatory mechanisms of telomerase, we measured telomerase enzyme activity, human telomerase RNA (hTR) and human telomerase reverse transcriptase (hTERT) mRNA in normal and neoplastic ovary, endometrium and myometrium. Telomerase activity was detected in most malignancies and in normal endometrium but not in myometrial leiomyoma, normal myometrium or normal ovary. hTR was expressed in all tissue samples. hTERT mRNA was expressed in many tissue samples, and no tissue sample exhibited telomerase activity without expressing hTERT mRNA. However, the presence of hTR and hTERT mRNA was not sufficient for telomerase activity. Alternate splicing of hTERT produced mRNAs lacking critical reverse transcriptase (RT) motifs in both normal and neoplastic tissues. Only tissues expressing hTERT containing complete A and B RT motifs demonstrated telomerase activity. Finally, several normal ovarian tissues and myometrial leiomyomas lacked telomerase activity despite expressing hTR and hTERT containing complete A and B RT motifs. This was not seen in ovarian and myometrial malignancies, where the expression of hTR and hTERT containing complete A and B RT motifs was sufficient for telomerase activity. We conclude that in ovarian and uterine tissues, the presence of a functional telomerase complex is regulated at multiple levels, including hTERT transcription and alternative splicing of hTERT transcripts. The lack of telomerase activity in several normal but not malignant tissues expressing hTR and hTERT containing complete A and B RT motifs suggests that there are further mechanisms for suppressing telomerase activity downstream of hTERT transcription and mRNA splicing, and these mechanisms have been lost during neoplastic transformation.
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PMID:Regulation of telomerase by alternate splicing of human telomerase reverse transcriptase (hTERT) in normal and neoplastic ovary, endometrium and myometrium. 1065 22

Reciprocal translocations involving the MLL gene on chromosome band 11q23 have been observed in both acute myeloid leukemia (AML) and acute lymphoblastic leukemia (ALL). In AML, identification of MLL breakpoints is an important prognostic factor. Breakpoints are clustered in an 8 kb DNA fragment (bcr) and can be detected by Southern blotting or fluorescence in situ hybridization (FISH) analysis. Our objective in this study was to design a DNA probe set that enables optimal detection of MLL rearrangements using interphase FISH. Two PAC clones, 217A21 and 167K13, spanning the MLL gene with a minimal overlap in the bcr were isolated and labeled. Twenty-seven AML/ALL patients with cytogenetic 11q23 abnormalities, seven AML/ALL patients without 11q23 abnormalities but MLL rearrangement by Southern blotting, and eight healthy donors were analyzed by FISH. We compared this double-color FISH analysis with FISH using a YAC clone (yB22B2) and with Southern blotting. The PAC probe combination detects an MLL breakpoint in all cases with MLL rearrangement detected by Southern blotting except for cases with a partial tandem duplication detected by reverse transcriptase-polymerase chain reaction (RT-PCR). FISH using the PAC probes also detected MLL breakpoints in four cases with MLL deletions telomeric to the breakpoint that could not be detected by the single probe yB22B2. This new probe set provides a reliable and rapid assay for the diagnosis of AML and ALL patients with MLL/11q23 breakpoints.
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PMID:A DNA probe combination for improved detection of MLL/11q23 breakpoints by double-color interphase-FISH in acute leukemias. 1073 98

Telomerase, which synthesizes telomeric DNA in eukaryotic cells, is classified as a reverse transcriptase. To clarify the recognition of 2'-deoxyribonucleoside 5'-triphosphate (dNTP) chirality by telomerase, we studied the inhibitory effects of L-dGTP on HeLa cell telomerase activity using a quantitative 'stretch PCR' assay. L-dGTP had a weakly inhibitory effect (IC50 = 200 microM) in the presence of 10 microM dGTP. This effect was less obvious when the concentration of dGTP was higher. L-dTTP had a similar inhibitory effect. These findings suggest that telomerase may bind to L-dGTP and L-dTTP, and that the ability of telomerase to bind to dGTP or dTTP is changed.
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PMID:Inhibitory effects of of L-2'-deoxyguanosine 5'-triphosphate (L-dGTP) and L-2'-deoxythymidine 5'-triphosphate (L-dTTP) on human telomerase. 1078 Apr 51

The protein catalytic subunit of telomerase (TERT) is a reverse transcriptase (RT) that utilizes an internal RNA molecule as a template for the extension of chromosomal DNA ends. In all retroviral RTs there is a conserved tyrosine two amino acids preceding the catalytic aspartic acids in motif C, a motif that is critical for catalysis. In TERTs, however, this position is a leucine, valine, or phenylalanine. We developed and characterized a robust in vitro reconstitution system for Tetrahymena telomerase and tested the effects of amino acid substitutions on activity. Substitution of the retroviral-like tyrosine in motif C did not change overall enzymatic activity but increased processivity. This increase in processivity correlated with an increased affinity for telomeric DNA primer. Substitution of an alanine did not increase processivity, while substitution of a phenylalanine had an intermediate effect. The data suggest that this amino acid is involved in interactions with the primer in telomerase as in other RTs, and show that mutating an amino acid to that conserved in retroviral RTs makes telomerase more closely resemble these other RTs.
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PMID:A mutant of Tetrahymena telomerase reverse transcriptase with increased processivity. 1080 25

WRN encodes a RecQ helicase, which is mutated in Werner syndrome. Werner syndrome is a genetic condition of young adults characterized by premature aging, limited replicative capacity of cells in vitro, and increased cancer risk. Telomerase is a reverse transcriptase that extends the G-rich strand of telomeric DNA. Primary cells in vitro typically lack telomerase activity and undergo senescence, whereas telomerase is reactivated in many, but not all, tumors. The roles of the two genes are not known to be related. Here we report the development of an effective colony-forming assay in which a SV40-transformed Werner fibroblast cell line is 6-18-fold more sensitive to 4-nitroquinoline 1-oxide than SV40-transformed normal cell lines. The sensitivity can be partially reversed by transfecting a normal WRN gene but not a mutated WRN gene into the cells. Curiously, the sensitivity can be reversed equally well by transfecting a telomerase gene (TERT) into the cells. These data indicate the possibility of an interdependent function of these two genes.
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PMID:WRN or telomerase constructs reverse 4-nitroquinoline 1-oxide sensitivity in transformed Werner syndrome fibroblasts. 1081 Nov 12

Telomerase is a specialized reverse transcriptase that catalyzes elongation of the telomeric tandem repeat, TTAGGG, by addition of this sequence to the ends of existing telomeres. Human telomerase reverse transcriptase (hTERT) has been identified as a catalytic enzyme involved in telomere elongation that requires telomerase RNA, human telomerase RNA component (hTR), as an RNA template. We established a new method to express and purify soluble insect-expressed recombinant hTERT. The partially purified FLAG-hTERT retained the catalytic activity of telomerase in a complementation assay in vitro to exhibit telomerase activity in telomerase-negative TIG3 cell extract and in a reconstitution assay with FLAG-hTERT and purified hTR in vitro. FLAG-hTERT (D712A) with a mutation in the VDV motif exhibited no telomerase activity, confirming the authentic catalytic activity of FLAG-hTERT. The reconstituted complex of FLAG-hTERT and hTR in vitro was detected by electrophoretic mobility shift assay, and its activity was stimulated by more than 30-fold by TIG3 cell extract. This suggested that some cellular component(s) in the extract facilitated the reconstituted telomerase activity in vitro. Geldanamycin had no effect on the reconstituted activity but partially reduced the stimulated activity of the reconstituted telomerase by the TIG3 cell extract, suggesting that Hsp90 may contribute to the stimulatory effect of the cellular components.
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PMID:Telomerase activity reconstituted in vitro with purified human telomerase reverse transcriptase and human telomerase RNA component. 1081 33

Telomerase is a reverse transcriptase that adds single-stranded telomeric repeats to the ends of linear eukaryotic chromosomes. It consists of an RNA molecule including a template sequence, a protein subunit containing reverse transcriptase motifs, and auxiliary proteins. We have carried out an interference footprinting analysis of the Tetrahymena telomerase elongation complexes. In this study, single-stranded oligonucleotide primers containing telomeric sequences were modified with base-specific chemical reagents and extended with the telomerase by a single (32)P-labeled dGMP or dTMP. Base modifications that interfered with the primer extension reactions were mapped by footprinting. Major functional interactions were detected between the telomerase and the six or seven 3'-terminal residues of the primers. These interactions occurred not only with the RNA template region, but also with another region in the enzyme ribonucleoprotein complex designated the telomerase DNA interacting surface (TDIS). This was indicated by footprints generated with dimethyl sulfate (that did not affect Watson-Crick hydrogen bonding) and by footprinting assays performed with mutant primers. In primers aligned at a distance of 2 nucleotides along the RNA template region, the footprints of the six or seven 3'-terminal residues were shifted by 2 nucleotides. This shift indicated that during the elongation reaction, TDIS moved in concert with the 3' ends of the primers relative to the template region. Weak interactions occurred between the telomerase and residues located upstream of the seventh nucleotide. These interactions were stronger in primers that were impaired in the ability to align with the template.
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PMID:Interference footprinting analysis of telomerase elongation complexes. 1082 87

The chromosome end-replicating enzyme telomerase is composed of a template-containing RNA subunit, a reverse transcriptase (TERT), and additional proteins. The importance of conserved amino acid residues in Trt1p, the TERT of Schizosaccharomyces pombe, was tested. Mutation to alanine of the proposed catalytic aspartates in reverse transcriptase motifs A and C and of conserved amino acids in motifs 1 and B' resulted in defective growth, progressive loss of telomeric DNA, and loss of detectable telomerase enzymatic activity in vitro. Mutation of the phenylalanine (F) in the conserved FYxTE of telomerase-specific motif T had no phenotype in vivo or in vitro whereas mutation of a conserved amino acid in RT motif 2 had an intermediate effect. In addition to identifying single amino acids of TERT required for telomere maintenance in the fission yeast, this work provides useful tools for S. pombe telomerase research: a functional epitope-tagged version of Trt1p that allows detection of the protein even in crude cellular extracts, and a convenient and robust in vitro enzymatic activity assay based on immunopurification of telomerase.
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PMID:Analysis of telomerase catalytic subunit mutants in vivo and in vitro in Schizosaccharomycespombe. 1082 83

Telomerase is a reverse transcriptase minimally composed of a reverse transcriptase protein subunit and an internal RNA component that contains the templating region. Point mutations of template RNA bases can cause loss of enzymatic activity, reduced processivity and misincorporation in vitro. Here we report the first complete replacement of the nine base TETRAHYMENA: thermophila telomerase templating region in vivo with non-telomeric sequences. Rather than ablating telomerase activity, three such replaced telomerases (U9, AUN and AU4) were effective in polymerization in vitro. In vivo, the AU4 and AUN genes caused telomere shortening. We demonstrated the fidelity of the AUN and U9 telomerases in vitro and utilized AUN telomerase to demonstrate that 5' end primer recognition by telomerase is independent of template base pairing. However, the mutant AUN template telomerase catalyzed an abnormal DNA cleavage reaction. For these U-only and AU- substituted templates, we conclude that base-specific interactions between the telomerase template and protein (or distant parts of the RNA) are not absolutely required for the minimal core telomerase functions of nucleotide addition and base discrimination.
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PMID:Three telomerases with completely non-telomeric template replacements are catalytically active. 1085 55

Telomerase, the telomeric DNA reverse transcriptase, plays a key role in the maintenance of telomeres in mammals and is required for immortalization of primary cells. Inexplicably, telomerase activation is sometimes associated with telomere shortening and inhibition leads not only to apoptosis but also increased tumorigenicity in rapidly renewing tissues of mouse and man. This article reviews the current evidence, both in vitro and in vivo, for telomerase function and the potential mechanisms, downstream of telomerase, in telomere signaling involving both the tumor-suppressor p53-dependent and independent pathways.
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PMID:Telomerase: not just black and white, but shades of gray. 1086 Aug 59

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