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)

Group II introns use intron-encoded reverse transcriptase, maturase and DNA endonuclease activities for site-specific insertion into DNA. Remarkably, the endonucleases are ribonucleoprotein complexes in which the excised intron RNA cleaves the sense strand of the recipient DNA by reverse splicing, while the intron-encoded protein cleaves the antisense strand. Here, studies with the yeast group II intron aI2 indicate that both the RNA and protein components of the endonuclease contribute to recognition of an approximately 30 bp DNA target site. Our results lead to a model in which the protein component first recognizes specific nucleotides in the most distal 5' exon region of the DNA target site (E2-21 to -11). Binding of the protein then leads to DNA unwinding, enabling the intron RNA to base pair to a 13 nucleotide DNA sequence (E2-12 to E3+1) for reverse splicing. Antisense-strand cleavage requires additional interactions of the protein with the 3' exon DNA (E3+1 to +10). Our results show how enzymes can use RNA and protein subunits cooperatively to recognize specific sequences in double-stranded DNA.
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PMID:Group II intron endonucleases use both RNA and protein subunits for recognition of specific sequences in double-stranded DNA. 936 97

Telomerase is a ribonucleoprotein, telomere specific reverse transcriptase, which contains some protein components and telomerase RNA components. Human telomerase RNA and some telomerase components have been identified but not completely. More recently, human telomerase catarytic subunits have been cloned, which are called hTRT or hEST2. The expression of hTRT in human cultured cells is well correlated with telomerase activity and immortality. Moreover, the expression of hTRT in cancer tissues is higher than that of normal tissues. These results suggested that hTRT and telomerase activity may be a powerful additional tool for cancer diagnosis.
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PMID:[Telomere and telomerase associated genes]. 942 61

Retrotransposition of LINEs and other retroelements increases repetition in mammalian genomes and can cause deleterious mutations. Recent insertions of two full-length L1s, L1spa and L1Orl, caused the disease phenotypes of the spastic and Orleans reeler mice respectively. Here we show that these two recently retrotransposed L1s are nearly identical in sequence, have two open reading frames and belong to a novel subfamily related to the ancient F subfamily. We have named this new subfamily TF (for transposable) and show that many full-length members of this family are present in the mouse genome. The TF 5' untranslated region has promoter activity, and TF-type RNA is abundant in cytoplasmic ribonucleoprotein particles, which are likely intermediates in retrotransposition. Both L1spa and L1Orl have reverse transcriptase activity in a yeast-based assay and retrotranspose at high frequency in cultured cells. Together, our data indicate that the TF subfamily of L1s contains a major class of mobile elements that is expanding in the mouse genome.
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PMID:An actively retrotransposing, novel subfamily of mouse L1 elements. 943 Jun 49

Telomerase is a ribonucleoprotein enzyme complex that adds single-stranded telomere DNA to chromosome ends [1]. The RNA component of telomerase contains the template for telomeric DNA addition and is essential for activity [1,2]. Telomerase proteins have been identified in ciliates, yeast and mammals [3-12]. In Saccharomyces cerevisiae, the Est2 protein is homologous to the 123 kDa reverse transcriptase subunit of Euplotes telomerase, and is essential for telomerase activity [8]. In humans, telomerase activity is associated with the telomerase RNA hTR [13], the telomerase RNA-binding protein TP1/TLP1 [5,12] and the TP2 protein encoded by the human EST2 homolog [12] (also known as TRT1, hEST2 or TCS1 [9-11]). The minimal complex sufficient for activity is, however, unknown. We have reconstituted human telomerase activity in reticulocyte lysates and find that only exogenous hTR and TP2 are required for telomerase activity in vitro. Recognition of telomerase RNA by TP2 was species specific, and nucleotides 10-159 of hTR were sufficient for telomerase activity. Telomerase activity immunoprecipitated from the reticulocyte lysate contained hTR and recombinant TP2. Substitution of conserved amino acid residues in the reverse transcriptase domain of TP2 completely abolished telomerase activity. We suggest that TP2 and hTR might represent the minimal catalytic core of human telomerase.
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PMID:Reconstitution of human telomerase activity in vitro. 944 19

Synthesis of telomeric repeats at chromosome ends requires telomerase, a ribonucleoprotein enzyme. The RNA subunit, which contains the template for DNA synthesis, has been identified in many organisms. Recently, the protein subunit that catalyzes telomeric DNA extension has also been identified in Euplotes aediculatus and Saccharomyces cerevisiae. It has sequence and functional characteristics of a reverse transcriptase related to retrotransposon and retroviral reverse transcriptases, so this new family of telomerase subunits has been named TRT (Telomerase Reverse Transcriptase). We find it remarkable that the same type of protein structure required for retroviral replication is now seen to be essential for normal chromosome telomere replication in diverse eukaryotes.
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PMID:Telomerase is a true reverse transcriptase. A review. 946 43

Telomeres, the natural ends of linear eukaryotic chromosomes, are essential for protecting chromosomes from degradation and fusion. The synthesis of telomere DNA repeats in most eukaryotes is performed by a special enzyme, telomerase. Telomerase, a ribonucleoprotein enzyme, is a specialized reverse transcriptase utilizing its RNA moiety as a template for synthesis of telomeric DNA. Enzymatic properties and results of comparative analysis of telomerase RNA and protein structures from different eukaryotic systems are discussed in this review.
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PMID:Telomerase is an unusual RNA-containing enzyme. A review. 946 44

Barbara McClintock began investigating plant telomeres during the 1930s, but little additional work was done in this area until a telomeric DNA sequence was isolated and characterized from Arabidopsis thaliana in 1988. This sequence, a simple repeat of the heptanucleotide 5'-TTTAGGG-3', has been found in telomeres of almost all plants analyzed. Telomere length in plants, which can be a long as 75 kb or as short as 2 kb, is controlled by both genetic and developmental factors. The major mechanism for synthesis of telomeres is telomerase, a ribonucleoprotein with reverse transcriptase activity. Telomerase expression is highly regulated in both plants and animals. For example, there is little or no detectable expression of telomerase in most vegetative tissues of plants nor in most somatic tissues of animals. In contrast to animals, plants do not specify a germ line until late in development, but telomerase is reactivated during flowering, possibly to ensure that gametes and embryos arising from them inherit fully functional chromosomes. Telomerase is also highly expressed in plant tissue culture cells, as might be expected for cells with an unlimited capacity for proliferation. Despite recent progress in investigating plant telomeres and telomerase at the molecular level, there is still much more to learn, especially concerning the developmental control of telomerase activity.
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PMID:Plant telomeres and telomerases. A review. 946 46

Human immunodeficiency virus type-1 (HIV-1) reverse transcriptase (RT) initiates reverse transcription from tRNA(Lys3). HIV-1 RT is a heterodimer consisting of two polypeptides, p66 and p51. In this work, the possible role of each subunit of RT in the interaction with its natural primer tRNA(Lys3) was studied. Two recombinant forms of HIV-1 RT, heterodimer p66/p51 and homodimer p51/p51, were used. Previously we have expressed and purified recombinant RT p51/p51 which possesses DNA polymerase activity [El Dirani-Diab, R., Andreola, M. L., Nevinsky, G., Tharaud, D., Barr, P. J., Litvak, S. & Tarrago-Litvak, L. (1992) FEBS Lett. 301, 23-28]. Here we show that HIV-1 RT p51/p51 displays certain properties very similar to the p66/p51 recombinant enzyme. The homodimer was able to anneal tRNA(Lys3) to the primer-binding site of the HIV-1 RNA template leading to a functional complex capable of synthesizing cDNA. Further, the p51/p51 enzyme behaved like RT p66/p51 concerning the strong inhibition produced by a non-nucleoside RT inhibitor. These data show that for RT p51/p51, one of the subunits of the homodimer adopts a conformation similar to the catalytic subunit (p66) present in the heterodimeric form. Part of this work was devoted to the study of the complex between the recombinant forms of HIV-1 RT and its primer tRNA. Each enzymatic form was cross-linked to tRNA(Lys3) in the presence of a platinum derivative, giving different ribonucleoprotein complexes of molecular masses higher than 100 kDa, suggesting that primer tRNA may interact with both subunits in the heterodimeric enzyme. After RNase A treatment of the complex RT p66/p51 x tRNA, the label was mainly found to migrate with the p66 subunit, although some cross-linking was also found associated to the p51 subunit. These results show that the p66 and p51 subunits of RT interact with tRNA(Lys3). Moreover, cross-linking of tRNA(Lys3) with HIV-1 RT p66/p51 in the presence of a DNA template containing the primer-binding-site sequence yielded an enzymatically active complex.
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PMID:p66/p51 and p51/p51 recombinant forms of reverse transcriptase from human immunodeficiency virus type 1--interactions with primer tRNA(Lys3), initiation of cDNA synthesis, and effect of inhibitors. 949 22

Telomerase is a specialized reverse transcriptase that catalyzes telomeric repeat addition at the ends of existing telomeres or fragmented chromosomes. Two telomerase proteins from Tetrahymena thermophila, p80 and p95, were identified on the basis of their association with telomerase activity and telomerase RNA. Here we have produced recombinant versions of these proteins to characterize their functions in the ribonucleoprotein. Our findings indicate that the two proteins can form a complex whose association is independent of RNA. Each protein interacts directly with telomerase RNA, but the p80/p95 complex binds RNA with an affinity substantially greater than either protein alone. We have also characterized the DNA binding properties of p95 and show that it interacts with telomeric substrate DNAs with a specificity characteristic of the functionally defined Tetrahymena telomerase substrate anchor site. Together, these findings suggest a model in which protein-nucleic acid interactions separable from the active site contribute to positioning the template and primer, rather than exclusively the direct nucleic acid-active site interaction typical of other polymerases.
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PMID:Interaction of recombinant Tetrahymena telomerase proteins p80 and p95 with telomerase RNA and telomeric DNA substrates. 949 6

Telomerase, a ribonucleoprotein reverse transcriptase, is expected to be a new marker for cancer diagnosis since it has been reported that high expression of telomerase activity was detected exclusively in germinal tissues and tumor tissues in human body, which is further evaluated by improvement of quantitative assay procedure for telomerase activity in tissue extract and by development of in situ detection method of telomerase protein component in tissue sections.
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PMID:[Telomerase: a new marker for cancer diagnosis]. 961 12

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