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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)
Low molecular weight RNA in HIV-1 is found in three size classes resembling 7S RNA, 5S RNA, and
tRNA
. The 2-dimensional polyacrylamide gel electrophoresis (2D PAGE) patterns of
tRNA
found in HIV-1 have been determined in virus produced in five different cell types: H9, UHC1 (a U937-derived clone), UHC8 (an RT(-) derivative of U937), HeLa, and COS. The presence of the putative primer
tRNA
for
reverse transcriptase
,
tRNA
(Lys,3), has also been determined either by hybridization with a
tRNA
(Lys,3)-specific DNA probe or by a comparison of the electrophoretic mobility of viral
tRNA
species with purified human
tRNA
(Lys,3). Our results indicate the following: 1) The number of
tRNA
species found in infectious HIV-1IIIB produced in different cell types varies, according to cell type, from greater than 20 to 4, indicating that only 4 or less
tRNA
species are required for the viral infectious life cycle. 2) There are 1-3
tRNA
species tightly associated to the viral genomic RNA, depending upon the cell type producing the virus. 3) The putative primer
tRNA
,
tRNA
(Lys,3), is detected with the
tRNA
(Lys,3)-specific hybridization probe in the
tRNA
of HIV-1 produced in H9 cells, and the tightly associated
tRNA
species in this virus has the same electrophoretic mobility in 1-D PAGE as purified
tRNA
(Lys,3). On the other hand, we cannot detect
tRNA
(Lys,3) in the
tRNA
of HIV-1 produced in HeLa cells, and the tightly associated
tRNA
found in this virus does not migrate with the same electrophoretic mobility as
tRNA
(Lys,3).
...
PMID:Variable tRNA content in HIV-1IIIB. 162 25
Reverse transcription of the retroviral RNA genome begins with
tRNA
-primed synthesis of a minus-strand DNA, which subsequently acts as the template for the synthesis of plus-strand DNA. This plus-strand DNA is initiated at a unique location and makes use of a purine-rich RNA oligonucleotide derived by RNase H action on the viral RNA. To determine the variables that are relevant to successful specific initiation of plus-strand DNA synthesis, we have used nucleic acid sequences from the genome of Rous sarcoma virus along with three different sources of RNase H: avian myeloblastosis virus DNA polymerase, murine leukemia virus DNA polymerase, and the RNase H of Escherichia coli. Our findings include evidence that specificity is controlled not only by the nucleic acid sequences but also by the RNase H. For example, while the avian
reverse transcriptase
efficiently and specifically initiates on the sequences of the avian retrovirus, the murine
reverse transcriptase
initiates specifically but at a location 4 bases upstream of the correct site.
...
PMID:Specificities involved in the initiation of retroviral plus-strand DNA. 168 26
Human immunodeficiency virus (HIV)
reverse transcriptase
(RT) uses host
tRNA
(Lys) partially annealed to the primer binding site (PBS) as primer for the initiation of cDNA synthesis. When assaying cDNA synthesis with a template-primer complex formed by an RNA fragment carrying the PBS site and bovine
tRNA
(Lys) we noticed that an excess of primer
tRNA
inhibited strongly the DNA polymerase activity of a recombinant HIV RT (p66-p51 heterodimeric form) produced in transformed yeast cells. The same inhibitory effect was observed with animal DNA polymerase alpha, while avian retrovirus RT was neither affected by
tRNA
(Lys) nor by its specific primer
tRNA
(Trp). Although the strongest inhibition was observed with
tRNA
(Lys), other tRNas like
tRNA
(Phe) and
tRNA
(Trp) inhibited also the HIV RT, whereas tRNAs specific for valine, proline and glycine had no effect on enzyme activity. Digestion of
tRNA
(Lys) with pancreatic RNase abolished the inhibition; on the other hand T1 RNase digestion had no effect on the inhibition suggesting a role of the anticodon region in this effect. The 12- and 14-mers corresponding to the anticodon regions of the three bovine
tRNA
(Lys) isoacceptors inhibited RT activity, indicating that at least an important part of the inhibitory effect could be ascribed to this
tRNA
region. A strong stimulation of DNA polymerase activity was observed when the effect of
tRNA
(Lys) was assayed on a recombinant HIV
reverse transcriptase
produced in a protease deficient yeast strain, which leads to the production of an active p66 enzyme. The same tRNAs that inhibited strongly the heterodimeric form stimulated the p66 form of HIV
reverse transcriptase
. The results suggest that although both enzymatic forms are able to interact with
tRNA
(Lys) the topography, as well as the functional implications of the interaction between the precursor and the mature form of HIV
reverse transcriptase
with the
tRNA
(Lys) primer, are different.
...
PMID:Inhibition of the p66/p51 form of human immunodeficiency virus reverse transcriptase by tRNA(Lys). 168 23
The structural and enzymatic components of retroviral cores are formed by proteolytic cleavage of precursor polypeptides, mediated by the viral protease (PR). We constructed an active-site mutation, D37I, in the PR of avian leukosis virus. The D37I mutation was introduced into an infectious DNA clone, and quail cell lines expressing the mutant virus were established. These cell lines produce normal amounts of virus particles, the major internal protein components of which are the uncleaved gag and gag-pol precursors. As in other retroviral systems, the protease-defective virions are noninfectious and retain the "immature" type A morphology as determined by thin-section transmission electron microscopy. The virion cores are stable at nonionic detergent concentrations that completely disrupt wild-type cores. Digestion of mutant virions with exogenous PR in the presence of detergent leads to complete and correct cleavage of the gag precursor but incomplete cleavage of the gag-pol precursor. The protease-defective virions encapsidate normal amounts of genomic RNA and
tRNA
(Trp) that is properly annealed to the primer-binding site, but some of the genomic RNA remains monomeric. Results from UV cross-linking experiments show that the gag polyprotein of mutant virions interacts with viral RNA and that this interaction occurs through the nucleocapsid (NC) domain. However, within mutant virions the interaction of the NC domain with RNA differs from that of mature NC with RNA in wild-type virions. Reverse transcriptase (RT) activity associated with mutant virions is diminished but still detectable. Digestion of the virions with PR leads to a fivefold increase in activity, but this PR-mediated activation of RT is incomplete. Since in vitro cleavage of the gag-pol precursor is also incomplete, we hypothesize that amino acid sequences N terminal to the
reverse transcriptase
domain inhibit RT activity.
...
PMID:Properties of avian retrovirus particles defective in viral protease. 169 12
The non-enveloped bacilliform viruses are the second group of plant viruses known to possess a genome consisting of circular double-stranded DNA. We have characterized the viral transcript and determined the complete sequence of the genome of Commelina mellow mottle virus (CoYMV), a member of this group. Analysis of the viral transcript indicates that the virus encodes a single terminally-redundant genome-length plus 120 nucleotide transcript. A fraction of the transcripts is polyadenylated, although the majority of the transcript is not polyadenylated. Analysis of the genome sequence indicates that the genome is 7489 bp in size and that the transcribed strand contains three open reading frames capable of encoding proteins of 23, 15 and 216 kd. The function of the 25 and 15 kd proteins is unknown. Similarities between the 216 kd polypeptide and the cauliflower mosaic virus coat protein and protease/
reverse transcriptase
polyprotein suggest that the 216 kd polypeptide is a polyprotein that is proteolytically processed to yield the virion coat protein, a protease, and replicase (
reverse transcriptase
and ribonuclease H). Each strand of the CoYMV genome is interrupted by site-specific discontinuities. The locations of the 5'-ends of these discontinuities, and the presence and location of a region on the CoYMV transcript capable of annealing with the 3'-end of cytosolic initiator methionine
tRNA
are consistent with replication by reverse transcription. We have demonstrated that a construct containing 1.3 CoYMV genomes is infective when introduced into Commelina diffusa, the host for CoYMV, using Agrobacterium-mediated infection.
...
PMID:Properties of Commelina yellow mottle virus's complete DNA sequence, genomic discontinuities and transcript suggest that it is a pararetrovirus. 169 3
Bleomycin is an antitumor agent whose activity has long been thought to derive from its ability to degrade DNA. Recent findings suggest that cellular RNA may be a therapeutically relevant locus. At micromolar concentrations, Fe(II)-bleomycin readily cleaved a Bacillus subtilis tRNAHis precursor in a highly selective fashion, but Escherichia coli
tRNA
(Tyr) precursor was largely unaffected even under more forcing conditions. Other substrates included an RNA transcript encoding a large segment of the
reverse transcriptase
from human immunodeficiency virus 1. RNA cleavage was oxidative, approximately 10-fold more selective than DNA cleavage, and largely unaffected by nonsubstrate RNAs. RNA sequence analysis suggested recognition of RNA tertiary structure, rather than recognition of specific sequences; subsets of nucleotides at the junction of single- and double-stranded regions were especially susceptible to cleavage. The ready accessibility of cellular RNAs to xenobiotic agents, the high selectivity of bleomycin action on RNAs, and the paucity of mechanisms for RNA repair suggest that RNA may be a therapeutically relevant target for bleomycin.
...
PMID:Site-specific cleavage of RNA by Fe(II).bleomycin. 170 Dec 59
Retroviral
RNA-dependent DNA polymerase
(
reverse transcriptase
or RT) uses the 3'OH end of a cellular
tRNA
as primer to initiate DNA synthesis. Previous work with avian retrovirus has shown that
reverse transcriptase
is implicated in the selection of cellular virion-encapsidated tRNAs and has shown that the primer
tRNA
is positioned on the primer binding site near the 5' end of the viral RNA. These mechanisms support the idea that the retroviral polymerase should form complexes with primer
tRNA
and the specific encapsidated ones. The genomic sequence of human immunodeficiency virus (HIV) allows the prediction that
tRNA
(Lys3) is the natural primer. In this article we show, using the mobility shift assay, that recombinant HIV
reverse transcriptase
is able to form a complex with bovine
tRNA
(Lys.) By fluorescence studies and alpha-chymotrypsin analysis we have observed a modification of the enzyme conformation when
reverse transcriptase
is bound to the putative primer
tRNA
. This structural change is specific for
tRNA
(Lys) although the retroviral polymerase is able to interact with other tRNAs.
...
PMID:Interactions with tRNA(Lys) induce important structural changes in human immunodeficiency virus reverse transcriptase. 170 35
A novel dipyridodiazepinone, 6,11-dihydro-11-cyclopropyl-4-methyldipyrido[2,3-b:2',3'-e]- [1,4]diazepin-6-one (BI-RG-587), is a selective noncompetitive inhibitor of HIV-1
reverse transcriptase
(RT-1). An azido photoaffinity analogue of BI-RG-587 was synthesized and found to irreversibly inhibit the enzyme upon UV irradiation. BI-RG-587 and close structural analogues competitively protected RT-1 from inactivation by the photoaffinity label. A thiobenzimidazolone (TIBO) derivative, a nonnucleoside inhibitor of RT-1, also protected the enzyme from photoinactivation, which suggests a common binding site for these compounds. Substrates dGTP, template-primer, and
tRNA
afforded no protection from enzyme inactivation. A tritiated photoaffinity probe was found to stoichiometrically and selectively label p66 such that 1 mol of probe inactivates 1 mol of RT-1.
...
PMID:A novel dipyridodiazepinone inhibitor of HIV-1 reverse transcriptase acts through a nonsubstrate binding site. 170 36
Using synthetic oligonucleotides, a gene encoding the HIV-1 replication primer,
tRNA
(Lys,3), was constructed and placed downstream from a bacteriophage T7 promoter. In vitro transcription of this gene yielded a form of
tRNA
(Lys,3) which lacks the modified bases characteristic of the natural species and the 3' -C-A-dinucleotide. Synthetic
tRNA
(Lys,3) annealed to a pbs-HIV1 RNA template can prime cDNA synthesis catalysed by recombinant HIV-1
reverse transcriptase
. Trans-DDP crosslinking indicates that this synthetic
tRNA
is still capable of interacting with HIV-1 RT via a 12-nucleotide portion encompassing the anticodon domain. Gel-mobility shift and competition analyses imply that the affinity of synthetic
tRNA
for RT is reduced. In contrast to earlier observations, synthetic
tRNA
is readily competed from RT by natural
tRNA
(Pro). The reduced affinity of synthetic
tRNA
(Lys,3) for RT is not appreciably affected by mutations in positions within the loop of the anticodon domain. These results would imply that the overall structure of the anticodon domain of
tRNA
(Lys,3) is an important factor in its recognition by HIV-1 RT. In addition, modified bases within this, although not absolutely required, would appear to make a significant contribution to the enhanced stability of the ribonucleoprotein complex.
...
PMID:Interaction of HIV-1 reverse transcriptase with a synthetic form of its replication primer, tRNA(Lys,3). 170 22
HIV
reverse transcriptase
(RT) is the target of the most widely used treatments for AIDS. Biochemical and mutagenesis studies performed on HIV-1 RT are reviewed in light of the enzyme's structure and functions. Features described include domain arrangement, dimerization, proteolytic processing, and specific recognition of the priming
tRNA
. Possible regions of functional importance as determined by comparative amino acid sequence analysis and by site-directed mutagenesis are identified. Among the conclusions of the analysis is the unexpected realization that the substrate for proteolytic maturation of the HIV-1 RT p66/p66 homodimer to the p66/p51 heterodimer is most likely an unfolded RNase H domain. In addition, the current progress in crystallization and structure determination of HIV-1 RT is described. Finally, a functional-model of the active reverse transcription complex is presented.
...
PMID:HIV reverse transcriptase structure-function relationships. 171 68
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