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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)
The PAT retroid transposable elements differ from other retroids in that they have a 'split direct repeat' structure, i.e., and internal 300bp sequence is found repeated, about one half at each element extremity. A very abundant transcript of about 900 nt, the start of which maps to the preferentially deleted portion of PAT elements, is detected on total Panagrellus redivius RNA bearing Northern blots. A potentially corresponding ORF encodes a protein of 265 residues having a carboxy terminal Cystein motif, believed to be exclusively characteristic of the GAG protein in retoid elements. A much fainter, 1800nt long transcript, is also detected on Northern blots and maps slightly downstream of the first ORF. The predicted protein sequence of this region bears motifs typical of
reverse transcriptase
and RNaseH, as found in the Pol genes of retroid elements. Peptide motif similarities are greatest with the DIRS-1 element derived from
Dictyostelium
discoideum. The possibility of using PAT elements as transposon tagging system for Caenorhabditis elegans is discussed.
...
PMID:Unusual features of the retroid element PAT from the nematode Panagrellus redivivus. 131 55
Approximately 2% of the
Dictyostelium
discoideum genome consists of multiple copies of a retrotransposable element termed DRE (
Dictyostelium
Repetitive Element). These elements have always been found integrated in a position and orientation-specific manner 50 +/- 4 nucleotides upstream of the coding region of tRNA genes (tDNAs). An intact DRE is 5.7 kb long. It carries an extensive coding region flanked by non-identical long terminal repeats (LTRs), composed of three distinct modules A, B and C. The left LTR proximal to the tRNA gene contains one or several A-modules followed by a single B-module (AnB). By contrast, the right LTR is composed of a B-module followed by a C-module (BC). Approximately 50% of the DRE elements in NC4 derivatives of D. discoideum are structurally different from the 5.7 kb DRE described above. They carry the following alterations: a) a 3.1 kb deletion in the coding region; b) two small deletions of 8 and 29 nucleotides in the B-module of the right LTR; c) a 72 bp deletion in the B-C junction; and d) three distinct point mutations within the A-module of the left LTR. The deletion in the open reading frame encompasses the putative coding regions for
reverse transcriptase
adn integrase. At least 60 copies of this smaller 2.4 kb DRE subtype are found in the genome of D. discoideum NC4 strains associated with tRNA genes. Thus, inspite of their lack in
reverse transcriptase
and integrase those 2.4 kb elements are presumably transposable and at least all isolated copies are found exclusively in the proximity of tRNA gene loci. The enzymes needed for their replication and transposition are likely to be provided by the intact 5.7 kb DREs.
...
PMID:Two distinct subforms of the retrotransposable DRE element in NC4 strains of Dictyostelium discoideum. 133 70
The
Dictyostelium
discoideum transposon DIRS-1 contains long terminal repeats that are inverted (ITRs) and nonidentical. We show here that the internal sequence contains 4158 nucleotides and encodes three open reading frames (ORFs). Two of the ORFs (ORFs 2 and 3) are colinear and overlap for more than 2000 bases. Unusual sequence conservation between the two DIRS-1 elements in the overlap region is discussed. The conserved reading frame (ORF3) contains a 200 amino acid region that bears significant homology to retrovirus
reverse transcriptase
. Based on this homology, we classify DIRS-1 as a possible retrotransposon and propose a model by which the nearly genomic length 4.5 kb DIRS-1 RNA could be used to generate a genomic DNA copy of DIRS-1 with nonidentical inverted terminal repeats.
...
PMID:Sequence of Dictyostelium DIRS-1: an apparent retrotransposon with inverted terminal repeats and an internal circle junction sequence. 241 57
We find that both human and rat U3 snRNA can function as self-priming templates for AMV
reverse transcriptase
in vitro. The 74 base cDNA is primed by the 3' end of intact U3 snRNA, and spans the characteristically truncated 69 or 70 base U3 sequence found in four different human U3 pseudogenes. The ability of human and rat U3 snRNA to self-prime is consistent with a U3 secondary structure model derived by a comparison between rat U3 snRNA and the homologous D2 snRNA from
Dictyostelium
discoideum. We propose that U3 pseudogenes are generated in vivo by integration of a self-primed cDNA copy of U3 snRNA at new chromosomal sites. We also consider the possibility that the same cDNA mediates gene conversion at the 5' end of bona fide U3 genes where, over the entire region spanned by the U3 cDNA, the two rat U3 sequence variants U3A and U3B are identical.
...
PMID:Pseudogenes for human small nuclear RNA U3 appear to arise by integration of self-primed reverse transcripts of the RNA into new chromosomal sites. 618 97
The complete sequence of a retrotransposon from
Dictyostelium
discoideum , named skipper , was obtained from cDNA and genomic clones. The sequence of a nearly full-length skipper cDNA was similar to that of three other partially sequenced cDNAs. The corresponding retrotransposon is represented in approximately 15-20 copies and is abundantly transcribed. Skipper contains three open reading frames (ORFs) with an unusual sequence organization, aspects of which resemble certain mammalian retroviruses. ORFs 1 and 3 correspond to gag and pol genes; the second ORF, pro, corresponding to protease, was separated from gag by a single stop codon followed shortly thereafter by a potential pseudoknot. ORF3 (pol) was separated from pro by a +1 frameshift. ORFs 2 and 3 overlapped by 32 bp. The computed amino acid sequences of the skipper ORFs contain regions resembling retrotransposon polyprotein domains, including a nucleic acid binding protein, aspartyl protease,
reverse transcriptase
and integrase. Skipper is the first example of a retrotransposon with a separate pro gene. Skipper is also novel in that it appears to use stop codon suppression rather than frameshifting to modulate pro expression. Finally, skipper and its components may provide useful tools for the genetic characterization of
Dictyostelium
.
...
PMID:Skipper, an LTR retrotransposon of Dictyostelium. 951 97
Only three retrotransposons of the DIRS1 group have previously been described: DIRS1 from the slime mold
Dictyostelium
discoideum, PAT from the nematode Panagrellus redivivus, and Prt1 from the zygomycetous fungus Phycomyces blakesleeanus. Analyses of the
reverse transcriptase
sequences encoded by these elements suggest that they are related to the long terminal repeat (LTR) retroelements, such as the Ty3/gypsy retrotransposons and the vertebrate retroviruses. The DIRS1-group elements, however, have several unusual structural features which distinguish them from typical LTR elements: (1) they lack the capacity to encode DDE-type integrases or aspartic proteases; (2) they have open reading frames (ORFs) of unknown function; (3) they integrate without creating duplications of their target sites; and (4) although they are bordered by terminal repeats, these sequences differ from typical LTRs in that they are either inverted repeats or "split" direct repeats. Because of the small number of DIRS1-like elements described, and the unusual structures of these elements, little is known about their evolution, distribution, and replication mechanisms. Here, we report the identification of several new DIRS1-like retrotransposons, including elements from nematodes, sea urchins, fish, and amphibia. We also present evidence for the existence of DIRS1-like sequences in the human genome. In addition, we show that the lack of DDE-type integrase genes from elements of the DIRS1 group is explained by the finding that the previously uncharacterized ORFs of these elements encode proteins related to the site-specific recombinase of bacteriophage lambda. The presence of lambda-recombinase-like genes in DIRS1 elements also accounts for the lack of target-site duplications for these elements and may be related to the unusual structures of their terminal repeats.
...
PMID:The DIRS1 group of retrotransposons. 1160 3
During the course of a random sequencing project of the genome of the dimorphic yeast Yarrowia lipolytica, we have identified sequences that were repeated in the genome and that matched the
reverse transcriptase
(RT) sequence of non-long terminal repeat (non-LTR) retrotransposons. Extension of sequencing on each side of this zone of homology allowed the definition of an element over 6 kb long. The conceptual translation of this sequence revealed two open reading frames (ORFs) that displayed several characteristics of non-LTR retrotransposons: a Cys-rich motif in the ORF1, an N-terminal endonuclease, a central RT, and a C-terminal zinc finger domain in the ORF2. We called this element Ylli (for Y. lipolytica LINE). A total of 19 distinct repeats carrying the 3' untranslated region (UTR) and all ending with a poly-A tail were detected. Most of them were very short, 17 being 134 bp long or less. The number of copies of Ylli was estimated to be around 100 if these short repeats are 5' truncations. No 5' UTR was clearly identified, indicating that entire and therefore active elements might be very rare in the Y. lipolytica strain tested. Ylli does not seem to have any insertion specificity. Phylogenetic analysis of the RT domain unambiguously placed Ylli within the L1 clade. It forms a monophyletic group with the Zorro non-LTR retrotransposons discovered in another dimorphic yeast Candida albicans. BLAST comparisons showed that ORF2 of Ylli is closely related to that of the slime mold
Dictyostelium
discoideum L1 family, TRE.
...
PMID:Ylli, a non-LTR retrotransposon L1 family in the dimorphic yeast Yarrowia lipolytica. 1196 Nov
Antiviral nucleoside analog therapies rely on their incorporation by viral DNA polymerases/
reverse transcriptase
leading to chain termination. The analogs (3'-deoxy-3'-azidothymidine (AZT), 2',3'-didehydro-2',3'-dideoxythymidine (d4T), and other dideoxynucleosides) are sequentially converted into triphosphate by cellular kinases of the nucleoside salvage pathway and are often poor substrates of these enzymes. Nucleoside diphosphate (NDP) kinase phosphorylates the diphosphate derivatives of the analogs with an efficiency some 10(4) lower than for its natural substrates. Kinetic and structural studies of
Dictyostelium
and human NDP kinases show that the sugar 3'-OH, absent from all antiviral analogs, is required for catalysis. To improve the catalytic efficiency of NDP kinase on the analogs, we engineered several mutants with a protein OH group replacing the sugar 3'-OH. The substitution of Asn-115 in Ser and Leu-55 in His results in an NDP kinase mutant with an enhanced ability to phosphorylate antiviral derivatives. Transfection of the mutant enzyme in Escherichia coli results in an increased sensitivity to AZT. An x-ray structure at 2.15-A resolution of the
Dictyostelium
enzyme bearing the serine substitution in complex with the R(p)-alpha-borano-triphosphate derivative of AZT shows that the enhanced activity reflects an improved geometry of binding and a favorable interaction of the 3'-azido group with the engineered serine.
...
PMID:Improving nucleoside diphosphate kinase for antiviral nucleotide analogs activation. 1217 31
We report the characterization of an unusual adenylyl cyclase gene from Plasmodium falciparum, here designated PfACalpha. The level of mRNA expression is maximum during development of gametocytes (the sexual blood stage of the parasite life cycle). The gene is highly interrupted by 22 introns, and
reverse transcriptase
-PCR analysis revealed that there are multiple mRNA splice variants. One intron has three alternative 3'-splice sites that confer the potential to encode distinct forms of the enzyme using alternative start codons. Deduced amino acid sequences predict membrane-spanning regions, the number of which can vary between two and six depending on the splice variant. Expression of a synthetic form of two of these variants in Xenopus oocytes and in
Dictyostelium
adenylyl cyclase-deficient mutants, confirms that PfACalpha is a functional adenylyl cyclase. These results identify a novel mechanism in P. falciparum for the generation of multiple isoforms of a key, membrane-bound signaling molecule from a single genomic copy. Comparisons of the catalytic domains of PfACalpha and a second putative P. falciparum adenylyl cyclase (PfACbeta) with those from other species reveal an unexpected similarity with adenylyl cyclases from certain prokaryotes including the cyanobacteria (blue green algae). In addition, the presence of an unusual active site substitution in a position that determines substrate specificity, also characteristic of these prokaryotic forms of the enzyme, further suggests a plastid origin for the Plasmodium cyclases.
...
PMID:Multiple splice variants encode a novel adenylyl cyclase of possible plastid origin expressed in the sexual stage of the malaria parasite Plasmodium falciparum. 1266 69
Short interspersed nuclear elements (SINEs) are non-autonomous retroelements that mimic the 3' ends of so-called long interspersed nuclear elements (LINEs) to ensure their propagation by proteins encoded by autonomous LINEs. The
Dictyostelium
discoideum genome contains a family of LINE-like retrotransposons that specifically target tRNA genes for integration (TRE elements). We describe here a retrotransposed ribosomal 5S RNA pseudogene in the D. discoideum genome that contains at its 3' end an 8-bp sequence derived from the 3' end of a TRE and a polyadenine tail. The r5S "retropseudogene" is flanked by target-site duplications that are characteristic for TREs, and is inserted upstream of a tRNA gene, just like a typical TRE. The D. discoideum r5S retropseudogene has structural features of a SINE, but has not been amplified, probably due to the 5'-truncation that occurred upon its initial retrotransposition. The discovery of this D. discoideum r5S retropseudogene reveals that SINEs can be created de novo during reverse transcription of LINE transcripts, if the LINE-encoded
reverse transcriptase
dissociates from the LINE RNA and jumps to other cellular RNAs-particularly genes transcribed by RNA polymerase III-to create continuous mixed cDNAs.
...
PMID:Template jumping by a LINE reverse transcriptase has created a SINE-like 5S rRNA retropseudogene in Dictyostelium. 1465 39
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