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Query: UMLS:C0019693 (
HIV
)
170,526
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
It has not been unambiguously demonstrated whether the priming reaction of human immunodeficiency virus, type 1 (HIV-1) cDNA synthesis initiates with either the 2'-OH or 3'-OH group of the 3'-terminal adenosine residue of
tRNA
(Lys-3). In this report, we synthesized
tRNA
(Lys-3) of which the 3'-terminal adenosine residue lacks either a 2'-OH or 3'-OH. These
tRNA
molecules were used for the
HIV
-1 cDNA-priming reaction in a cell-free system consisting of a 141-base RNA template and purified
HIV
-1 reverse transcriptase. It was found that under the conditions used, the
tRNA
containing the 2'-deoxyadenosine was able to initiate the cDNA synthesis, while the
tRNA
with the 3'-deoxyadenosine was not. The results show that retroviral reverse transcriptase specifically primes cDNA synthesis from the 3'-OH group. This is in contrast to bacterial reverse transcriptase, which initiates cDNA synthesis from the 2'-OH group of an internal guanosine residue of a template RNA.
...
PMID:Specificity of priming reaction of HIV-1 reverse transcriptase, 2'-OH or 3'-OH. 750 35
The fluorescent nucleotide analog, 2',3'-trinitrophenyladenosine-5'-triphosphate (TNP-ATP), was utilized to quantify the affinities of human immunodeficiency virus-1 reverse transcriptase (
HIV
-1 RT) for its substrates. Interaction of this probe with the enzyme brings about a twofold increase in the magnitude of fluorescence emission from the probe, and a blue-shift in wavelength maximum, from 561 to 553 nm. TNP-ATP binds
HIV
-1 RT with a dissociation constant of 21 microM. The presence of millimolar levels of deoxynucleoside triphosphates or micromolar levels of an oligonucleotide primer analogue, p(dT)12-18, suppressed this enhancement of fluorescence. The fact that inhibition was achieved with much lower levels of primer than of dNTPs suggests that TNP-ATP is a probe for the binding site of primer on the enzyme, rather than that of deoxynucleoside triphosphate. In support of this, the effect of TNP-ATP on the kinetics of DNA synthesis catalyzed by the enzyme indicated that the probe is a competitive inhibitor with respect to template-primer. The ability of primers and primer analogs to reverse the fluorescence enhancement was determined, and the corresponding affinities of these compounds for reverse transcriptase were calculated. The affinity increased with primer length, increasing more than 50-fold from a span of 5 to 15 nucleotide residues. The interaction of polydeoxynucleotides was consistent with a model in which the enzyme bound at adjacent internal sites of about 15 residues in length. Several mammalian and bacterial transfer RNA primers were tested, including the natural primer,
tRNA
(3Lys). The affinities were found to be between 0.55 and 1.2 microM, with no obvious selectivity for the natural primer, which had a Kd of 0.79 microM. These results are discussed within the context of data for
HIV
-1 RT obtained by other methodologies.
...
PMID:Studies on primer binding of HIV-1 reverse transcriptase using a fluorescent probe. 750 89
The initiation of human immunodeficiency virus type 1 (HIV-1) reverse transcription occurs by the extension of a
tRNA
(3Lys) primer bound near the 5' end of the genomic RNA at a position termed the primer binding site (PBS). The PBS is an 18-nucleotide sequence of the
HIV
-1 genome which is complementary to the 3'-terminal 18 nucleotides of the
tRNA
(3Lys). To investigate the sequence specificity of the interaction between
tRNA
(3Lys) and the PBS, we have constructed proviral genomes containing mutations in the PBS region. A mutant PBS was constructed in which the 18 nucleotides complementary to
tRNA
(3Lys) were substituted with 18 nucleotides predicted to be complementary to the 3'-terminal bases of a
tRNA
(Phe) molecule [pHXB2PBS(phe)]. A second proviral genome was constructed in which the PBS complementary to
tRNA
(Phe) was changed such that the first six nucleotides correspond to the wild-type PBS [pHXB2PBS(pheC)]. In all models of reverse transcription, the complementarity between the minus- and plus-strand PBS DNA facilitates the template switch and elongation of plus-strand DNA, resulting in a complete proviral genome. To test this model, we have inserted a five-nucleotide sequence 6 bp 3' of the mutant PBSs, which corresponds to the last five nucleotides of the wild-type PBSs [pHXB2PBS(phe+5) and pHXB2PBS(pheC+5)]. Transfection of plasmids containing the wild-type or mutant proviral genomes into COS-1 cells resulted in similar levels of intracellular expression of
HIV
-1 gag and env gene products as determined by immunoprecipitation with sera from AIDS patients and release of virus as determined by p24 assay. Transfection of pHXB2PBS(phe) or pHXB2PBS(phe+5) did not result in the production of infectious virus, while replication-competent viruses from cells transfected with pHXB2PBS(pheC) were detected very infrequently. Transfection of pHXB2PBS(pheC+5), however, consistently resulted in the production of infectious virus, although the appearance of the virus was delayed compared with those from cells transfected with pHXB2(wild type). Reinfection of SupT1 cells with equal amounts of p24 antigen resulted in similar kinetics of replication. PCR was used to amplify the PBS, and individual DNA products were subcloned into M13mp18. Sequence analysis of the PBS region of integrated proviruses derived from transfection of pHXB2PBS(pheC+5) revealed that the 18-nucleotide PBS complementary to
tRNA
(3Lys) was regenerated with a deletion of 6 bp 3' to the PBS region in all phage clones examined.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Minimal sequence requirements of a functional human immunodeficiency virus type 1 primer binding site. 750 99
Significant amounts of different
tRNA
molecules are present in retroviral particles, but one specific
tRNA
species functions as primer in reverse transcription. It is generally believed that the
HIV
-1 virus uses the
tRNA
(Lys,3) molecule as primer. This is based on sequence complementarity between the 3' end of
tRNA
(Lys,3) and the primer-binding site (PBS) on
HIV
-1 genomic RNA. Recent biochemical analyses indicated that
tRNA
(LYs,3) is indeed incorporated into viral particles. Interestingly,
tRNA
(Lys,3) could not be detected in virions produced by HeLa-CD4+ cells [(1992) Biochem. Biophys. Res. Commun. 185, 1105-1115]. In order to test whether alternative
tRNA
molecules can function as primer in
HIV
replication, we performed a series of experiments based on the observation that
tRNA
primer sequences are inherited by the viral progeny. We cultured
HIV
-1 for prolonged periods of time in HeLa-CD4+ cells, but did not detect sequence changes in the PBS region. Furthermore, we found PBS-mutants to be replication-incompetent, again suggesting that
HIV
-1 solely uses
tRNA
(Lys,3) as primer. Most importantly, we obtained revertants of one such PBS-mutant, which had restored a wild-type PBS sequence. This
tRNA
(Lys,3)-mediated repair demonstrates a general requirement for this primer in
HIV
-1 reverse transcription.
...
PMID:Human immunodeficiency virus uses tRNA(Lys,3) as primer for reverse transcription in HeLa-CD4+ cells. 751 Nov 12
COS-7 cells transfected with human immunodeficiency virus type 1 (HIV-1) proviral DNA produce virus in which three
tRNA
species are most abundant in the viral
tRNA
population. These tRNAs have been identified through RNA sequencing techniques as
tRNA
(3Lys) the primer
tRNA
in
HIV
-1, and members of the
tRNA
(1,2Lys) isoacceptor family. These RNAs represent 60% of the low-molecular-weight RNA isolated from virus particles, while they represent only 6% of the low-molecular-weight RNA isolated from the COS cell cytoplasm. Thus,
tRNA
(Lys) is selectively incorporated into
HIV
-1 particles. We have measured the ratio of
tRNA
(3Lys) molecules to copies of genomic RNA in viral RNA samples and have calculated that
HIV
-1 contains approximately eight molecules of
tRNA
(3Lys) per two copies of genomic RNA. We have also obtained evidence that the Pr160gag-pol precursor is involved in primer
tRNA
(3Lys) incorporation into virus. First, selective
tRNA
(Lys) incorporation and wild-type amounts of
tRNA
(3Lys) were maintained in a protease-negative virus unable to process Pr55gag and Pr160gag-pol precursors, indicating that precursor processing was not required for primer
tRNA
incorporation. Second, viral particles containing only unprocessed Pr55gag protein did not selectively incorporate
tRNA
(Lys), while virions containing both unprocessed Pr55gag and Pr160gag-pol proteins demonstrated select
tRNA
(3Lys) packaging. Third, studies with a proviral mutant containing a deletion of most of the reverse transcriptase sequences and approximately one-third of the integrase sequence in the Pr160gag-pol precursor resulted in the loss of selective
tRNA
incorporation and an eightfold decrease in the amount of
tRNA
(3Lys) per two copies of genomic RNA. We have also confirmed herein finding of a previous study which indicated that the primer binding site is not required for the selective incorporation of
tRNA
(Lys).
...
PMID:Role of Pr160gag-pol in mediating the selective incorporation of tRNA(Lys) into human immunodeficiency virus type 1 particles. 751 Nov 67
During assembly,
HIV
-1 selectively packages
tRNA
(Lys3), the primer
tRNA
for reverse transcriptase (RT). Because of
tRNA
(Lys3)'s ability to interact with RT, RT may be the viral protein which binds to primer
tRNA
and carries it into the virus. We have tested this hypothesis by measuring the amount of
tRNA
(Lys3) incorporated into wild type and RT(-) virus, and have also measured the
tRNA
tightly associated with the RNA genome, a characteristic of primer
tRNA
. We find that in RT(-)
HIV
-1, primer
tRNA
(Lys3) is reduced approximately 10 fold compared to wild type virus (which contains 8 molecules
tRNA
(Lys3)/virus), and the
tRNA
found tightly associated with the RNA genome is also greatly reduced in these mutant virus.
...
PMID:Reverse transcriptase is an important factor for the primer tRNA selection in HIV-1. 751 77
Retroviral nucleocapsid (NC) proteins are highly basic, with one or two zinc fingers, and are required for virion formation, genomic RNA dimerization and packaging, and replication primer
tRNA
annealing to the viral RNA. We report here the first characterization of monoclonal antibodies directed against a retroviral nucleocapsid protein and their use to study the structure-function relationships of the nucleocapsid protein NCp7 of
HIV
-1. Four anti-NCp7 monoclonal antibodies (MAbs) have been generated by using NCp7 of
HIV
-1. The epitope targets of these MAbs were mapped using ELISA and BIAcore techniques. Whereas three of them are specific for epitopes located in the N and C termini of NCp7, the fourth one appears to be conformation specific. Interestingly, only two of these MAbs, the conformation-specific one and the MAb recognizing an N-terminal epitope are able to inhibit the RNA-binding and annealing activities of NCp7 as well as strong-stop DNA synthesis in vitro. The binding of the two other MAbs onto NCp7 either has no effect or enhances the NCp7-RNA interactions. These MAbs also display a differential recognition of the Gag polyprotein precursor, which makes them useful tools for studying NC protein maturation in the course of virion morphogenesis.
...
PMID:Monoclonal antibody-mediated inhibition of RNA binding and annealing activities of HIV type 1 nucleocapsid protein. 752 35
The isolated ribonuclease (RNase) H domain of human immunodeficiency virus type 1 (HIV-1) is enzymatically inactive. The incorporation of the putative substrate binding site of Escherichia coli RNase HI (amino acid residues 76-102, the alpha c-helix and adjacent loop region) into the equivalent position of the RNase H domain of
HIV
-1 resulted in a highly active hybrid protein dependent on Mn2+. Similar restoration of RNase H activity has been observed when histidine residues are added to either the N- or C-terminus of the
HIV
-1 RNase H domain. The hybrid
HIV
-1/E. coli RNase H protein is approximately 10-fold more active than
HIV
-1 reverse transcriptase and 30-fold more active than the histidine-tagged proteins, indicating that the alpha c-helix and adjacent loop region of E. coli RNase HI is an excellent substrate binding region because of its sequence and/or location. The RNase H hybrid produced the same specific cleavage in the model
tRNA
(Lys3) primer removal assay as
HIV
-1 reverse transcriptase, showing that substrate binding and specificity are separable and that the specificity determinants are at least partially, if not totally, contained in the amino acid sequence of the hybrid protein derived from
HIV
-1 reverse transcriptase.
...
PMID:Construction of an enzymatically active ribonuclease H domain of human immunodeficiency virus type 1 reverse transcriptase. 753 Mar 60
Reverse transcription of human immunodeficiency virus type 1 (HIV-1) is primed by
tRNA
(Lys3), which forms an 18 base pair RNA homoduplex with its 3' terminus and the primer binding site (PBS) of the viral genome. Using an in vitro system mimicking initiation of minus strand DNA synthesis, we analyzed the mechanism by which
HIV
-1 reverse transcriptase (RT)-associated ribonuclease H (RNase H) distinguishes between RNA/DNA and RNA/RNA (dsRNA).
tRNA
(Lys3) was hybridized to a PBS-containing RNA template and extended by addition of deoxynucleoside triphosphates (dNTPs). In the presence of all four dNTPs, initial cleavage of the RNA template occurred immediately downstream of the
tRNA
-DNA junction, reflecting RNase H specificity for RNA in a RNA/DNA hybrid. However, in the absence of DNA synthesis, or limiting this by chain termination, the PBS was cleaved at a constant distance of 18 nucleotides upstream of the nascent primer 3' terminus. The position of cleavage remained in register with the position of DNA synthesis arrest, indicating that hydrolysis of homoduplex RNA is spatialy co-ordinated with DNA synthesis. Kinetic studies comparing cleavage rates of an analogous DNA primer/PBS heteroduplex and the
tRNA
(Lys3)/PBS homoduplex showed that while the former is cleaved as rapidly as RT polymerizes, the latter proceeds 30-fold slower. Although the RNase H domain hydrolyzes dsRNA when RT is artificially arrested, specificity for RNA/DNA hybrids is maintained when DNA is actively synthesized, since residency of the RNase H domain at a single base position is not long enough to allow significant cleavage on dsRNA.
...
PMID:HIV-1 reverse transcriptase-associated RNase H cleaves RNA/RNA in arrested complexes: implications for the mechanism by which RNase H discriminates between RNA/RNA and RNA/DNA. 753 25
In the interaction between
HIV
-1 RT and
tRNA
(Lys3) each subunit of the heterodimer interacts with
tRNA
showing a different affinity: Kd (p66) = 23 nM, Kd (p51) = 140 nM. Preincubation of heterodimeric RT with
tRNA
, at concentrations similar to that of the Kd value for p51, leads to an increase of the catalytic activity on poly(A)-oligo(dT). These results were compared to those using different
tRNA
analogs: oxidized
tRNA
, tRNAs lacking one, two or three nucleotides from the 3'-end, or ribo- and deoxyribonucleotides mimicking the anticodon loop sequence. In all cases,
tRNA
analogs were weaker activators of
HIV
-1 RT than natural
tRNA
. A possible mechanism of RT p66/p51 activation by
tRNA
and its analogs, mediated through the p51 subunit, is discussed.
...
PMID:Interaction of primer tRNA(Lys3) with the p51 subunit of human immunodeficiency virus type 1 reverse transcriptase: a possible role in enzyme activation. 753 48
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