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Query: UMLS:C0019693 (
HIV
)
170,526
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Co-localization of ribozymes with their appropriate target is one method utilized to increase their effectiveness in vivo. Effective antiviral ribozymes will likely rely on mechanisms which direct the ribozyme to the genomic or subgenomic RNAs. Exploiting the fact that a specific host cellular
tRNA
primer is bound by viral proteins and co-packaged with viral genomes in newly synthesized virions, ribozymes were fused to the 3'-terminus of
tRNA
(Lys3) in an attempt to direct their activity to cleave the
HIV
-1 genome. This chimeric ribozyme is catalytically active in vitro, and is efficiently recognized and bound by
HIV
-1 reverse transcriptase with affinities similar to
tRNA
(Lys3). The intragenic RNA polymerase III promoter entity of the
tRNA
allows for high levels of expression of the
tRNA
-RBZ and the preferential localization of transcript within the cytoplasm in transfected cells. This ribozyme was effective in reducing the infectivity of a viral stock which was produced from transiently transfected cells bearing the chimeric gene. These results demonstrate the feasibility of using tRNAs as a means of co-localizing ribozymes with their viral genomic RNA targets. The possibility exists to fuse stable RNAs to ribozymes as a means of increasing their stability and localizing them to their appropriate target sites.
...
PMID:A chimeric tRNA(Lys3)-ribozyme inhibits HIV replication following virion assembly. 864 67
Circular exon sequences can be generated by splicing permuted intron-exon (PIE) sequences. The Anabaena pre-
tRNA
group I self-splicing PIE sequence was modified to generate circular forms of the
HIV
-TAR and the high affinity region of the
HIV
-RRE (RBE). RNA products containing TAR and the RBE were purified from splicing reactions and demonstrated to be circular. The circular form of these sequences was shown to be resistant to nuclease degradation in cellular extracts. Gel shift assays demonstrate that the circular form of the RBE is specifically bound by a Rev derived peptide. These data suggest that PIE-circularization of RNA may be an effective way to express small stable RNAs designed for therapeutics (eg. decoys).
...
PMID:Generation of nuclease resistant circular RNA decoys for HIV-Tat and HIV-Rev by autocatalytic splicing. 864 95
The primer binding site (PBS) is involved in two stages during the reverse transcription of the retroviral RNA genome. In the early stage, the PBS provides complementary sequences through which
tRNA
(Lys,3) binds the viral RNA genome to initiate minus-strand DNA synthesis; in the later stages, complementarity between the plus- and minus-strand copies of the PBS is required to facilitate the second template transfer needed to complete reverse transcription. We previously constructed a mutant
HIV
-1 proviral genome, designated as pHXB2PBS(pheC + 5) (now referred to as pheC + 5), which was used to identify regions of the PBS involved in the initiation and second template transfer steps of reverse transcription. To further define the sequence requirements of the PBS for the initiation of reverse transcription, we have made single nucleotide substitutions within the first six nucleotides of the pheC + 5 PBS. Our results demonstrate that mutations within the first five nucleotides of the PBS which disrupt base paring with
tRNA
(Lys,3)-PBS results in an noninfectious virus; a G-U base pair at position six of the
tRNA
(Lys,3)-PBS complex was tolerated. In contrast to the requirements for initiation, we found that complementary binding between only three base pairs of the plus- and minus-strand PBSs was required for the extension of plus-strand DNA during the second template transfer. Furthermore, regions of the minus-strand DNA of up to 24 nucleotides could be looped-out to facilitate the complementarity required for the completion of plus-strand DNA synthesis. Taken together, the results of our studies demonstrate that different features of the PBS with respect to RNA:RNA and DNA:DNA interactions are required for initiation of reverse transcription and the completion of plus-strand DNA synthesis, respectively.
...
PMID:Mutations within the primer binding site of the human immunodeficiency virus type 1 define sequence requirements essential for reverse transcription. 866 80
We have constructed a series of retroviral vectors in which the expression of antisense RNA targeted at the full length coding sequence of
HIV
-1 tat or rev was driven by three different promoters and in the context of double-copy or single-copy vectors. Jurkat cells transduced by these vectors were shown to express the expected tat or rev antisense RNA without alteration in cell proliferation or surface CD4 expression. After challenge with
HIV
, four patterns of protection were identified, with the degree of protection being determined primarily by the design of the expression system. In those patterns showing long-term complete protection, we could detect no
HIV
p24 in the culture supernatants or in the cells, and no
HIV
RNA or
HIV
proviral DNA (by PCR), during a 23-week follow-up. Experiments designed to rescue any live virus still formed in the culture after 20 weeks' challenge demonstrated that, with some constructs, infectious virus could no longer be isolated, while with other constructs, only a low level of infectious virus was still being formed and providing a continuing virus challenge, although all other markers of infection remained undetectable. Our results demonstrated that antisense RNA expression driven by
tRNA
promoter in the context of a double-copy vector conferred better long-term protection against
HIV infection
compared to that driven by
HIV
LTR or MLV LTR promoters, and that the optimized vectors may be useful in developing a gene therapy against
HIV
-1 infection and AIDS.
...
PMID:Long-term protection against HIV-1 infection conferred by tat or rev antisense RNA was affected by the design of the retroviral vector. 866 89
tRNA
(3Lys) is a primer for reverse transcription in human immunodeficiency virus type 1 (HIV-1), and the anticodon of
tRNA
(3Lys) has been implicated in playing a role in both its placement onto the
HIV
-1 genome and its interaction with
HIV
-1 reverse transcriptase (RT). In this work, the anticodon in a
tRNA
(3Lys) gene was changed from UUU to CUA (
tRNA
(3Lys)Su+) or, in addition, G-73 was altered to A (
tRNA
(3Lys)Su+G73A). COS-7 cells were transfected with either wild-type or mutant
tRNA
(3Lys) genes, and both the wild-type and mutant
tRNA
(3Lys) produced were purified by using immobilized
tRNA
-specific hybridization probes. Each mutant
tRNA
(3Lys) was tested for its ability to prime reverse transcription in vitro, either alone or in competition with wild-type
tRNA
(3Lys). Short RT extensions of wild-type and mutant tRNALys could be distinguished from each other by their different mobilities in one-dimensional single-stranded conformation polymorphism polyacrylamide gel electrophoresis. These reverse transcription products show that heat-annealed
tRNA
(3Lys)Su+ has the same ability as heat-annealed wild-type
tRNA
(3Lys) to prime RT and competes equally well with wild-type
tRNA
(3Lys) for priming RT.
tRNA
(3Lys)Su+G73A has 60% of the wild-type ability to prime RT but competes poorly with wild-type
tRNA
(3Lys) for priming RT. However, the priming abilities of wild-type and mutant
tRNA
(3) are quite different when in vivo-placed
tRNA
is examined.
HIV
-1 produced in COS cells transfected with a plasmid containing both the
HIV
-1 proviral DNA and DNA coding for
tRNA
(3Lys)Su+ contains both endogenous, cellular wild-type
tRNA
(3Lys) and mutant
tRNA
(3Lys). When total viral RNA is used as the source of primer
tRNA
placed onto the genomic RNA in vivo, only wild-type
tRNA
(3Lys) is used as a primer. If the total viral RNA is first heated and exposed to hybridizing conditions, then both the wild-type and mutant
tRNA
(3Lys) act as primers for RT. These results indicate that the
tRNA
(3Lys)Su+ packaged into the virions is unable to act as a primer for RT, and a model is proposed to explain the disparate results between heat-annealed and in vivo-placed primer
tRNA
.
...
PMID:Effects of modifying the tRNA(3Lys) anticodon on the initiation of human immunodeficiency virus type 1 reverse transcription. 867 96
The zinc-bound form of the human immunodeficiency virus type 1 (HIV-1) nucleocapsid protein, p7, aggregates into particles visible by electron microscopy. The
HIV
primer
tRNA
(Lys,3) forms similar high molecular weight complexes with p7 that are also detected by gel mobility shift assays. RNA oligonucleotides of the three stem-loop structures in
tRNA
(Lys,3) were assayed for the competitive inhibition of p7-
tRNA
(Lys,3) binding by the intensities of free
tRNA
(Lys,3) bands on native gels. This reveals that the p7 binds specifically to the central domain of
tRNA
(Lys,3) where the D and T psi C loops come together, but not the anticodon stem-loop.
...
PMID:Chemically synthesised human immunodeficiency virus P7 nucleocapsid protein can self-assemble into particles and binds to a specific site on the tRNA(Lys,3) primer. 869 11
Mammalian
tRNA
3' processing endoribonuclease (3' tRNase) can be converted to an RNA cutter that recognizes four bases, with about a 65-nt 3'-truncated
tRNA
(Arg) or
tRNA
(Ala). The 3'-truncated
tRNA
recognizes the target RNA via four base pairings between the 5'terminal sequence and a sequence 1-nt upstream of the cleavage site, resulting in a pre-
tRNA
-like complex (Nashimoto M, 1995, Nucleic Acids Res 23:3642-3647). Here I developed a general method for more specific RNA cleavage using 3' tRNase. In the presence of a 36-nt 5' half
tRNA
(Arg) truncated after the anticodon, 3' tRNase cleaved the remaining 56-nt 3' half
tRNA
(Arg) with a 19-nt 3' trailer after the discriminator. This enzyme also cleaved its derivatives with a 5' extra sequence or nucleotide changes or deletions in the T stem-loop and extra loop regions, although the cleavage efficiency decreases as the degree of structural change increases. This suggests that any target RNA can be cleaved site-specifically by 3'tRNase in the presence of a 5' half
tRNA
modified to form a pre-
tRNA
-like complex with the target. Using this method, two partial
HIV
-1 RNA targets were cleaved site-specifically in vitro. These results also indicate that the sequence and structure of the T stem-loop domain are important, but not essential, for the recognition of pre-tRNAs by 3' tRNase.
...
PMID:Specific cleavage of target RNAs from HIV-1 with 5' half tRNA by mammalian tRNA 3' processing endoribonuclease. 871 82
The translational stop signal and polypeptide release factor (RF) complexed with Escherichia coli ribosomes have been shown to be in close physical contact by site-directed photochemical cross-linking experiments. The RF has a protease-sensitive site in a highly conserved exposed loop that is proposed to interact with the peptidyltransferase center of the ribosome. Loss of peptidyl-
tRNA
hydrolysis activity and enhanced codon-ribosome binding by the cleaved RF is consistent with a model whereby the RF spans the decoding and peptidyltransferase centers of the ribosome with domains of the RF linked by conformational coupling. The cross-link between the stop signal and RF at the ribosomal decoding site is influenced by the base following the termination codon. This base determines the efficiency with which the stop signal is decoded by the RF in both mammalian and bacterial systems in vivo. The wide range of efficiencies correlates with the frequency with which the signals occur at natural termination sites, with rarely used weak signals often found at recoding sites and strong signals found in highly expressed genes. Stop signals are found at some recoding sites in viruses where -1 frame-shifting occurs, but the generally accepted mechanism of simultaneous slippage from the A and P sites does not explain their presence here. The
HIV
-1 gag-pol-1 frame shifting site has been used to show that stop signals significantly influence frame-shifting efficiency on prokaryotic ribosomes by a RF-mediated mechanism. These data can be explained by an E/P site simultaneous slippage mechanism whereby the stop codon actually enters the ribosomal A site and can influence the event.
...
PMID:Translational termination efficiency in both bacteria and mammals is regulated by the base following the stop codon. 872 26
Interference of binding of Tat protein to TAR RNA in
HIV
-1-infected cells may be a useful therapeutic strategy for AIDS. An electrophoretic assay to screen potential low-molecular-weight (< 2 kDa) Tat antagonists has been established. A radiolabeled TAR RNA fragment (delta TAR) is retarded in mobility when bound by a Tat peptide-polyethylene glycol conjugate (Tat-PEG), which is used in place of the Tat protein. The assay determines the ability of a potential antagonist to compete with Tat-PEG for binding to delta TAR, as measured by interference with the gel shift of delta TAR. To discriminate between specific and nonspecific interactions, the assay is done in the absence or the presence of a 250-fold molar excess of
tRNA
.
...
PMID:Use of a polyethylene glycol-peptide conjugate in a competition gel shift assay for screening potential antagonists of HIV-1 Tat protein binding to TAR RNA. 874 81
The molecular events leading to the second template switch during reverse transcription of the
HIV
genome were studied in a defined in-vitro system. In order to investigate displacement of the
tRNA
(lys) primer from the primer binding site (PBS) of the viral genomic RNA, following DNA synthesis, we produced an
HIV
RNA/DNA substrate that resembles the intermediate reverse transcription complex formed prior to the second template switch. Partial
tRNA
(lys) primer displacement was observed during plus (+) strand DNA synthesis and during minus (-) strand DNA elongation. We found two determinants that may serve as a stop signal for (+) DNA strong stop synthesis, the A(m) at position 19 of the natural
tRNA
(lys) and the secondary structure at the PBS sequence. The later signal appears to constitute a stronger terminator in-vitro. The 3' end of the nascent (-) DNA strand prior to the second template switch was also determined. It was mapped to the U5-PBS junction at the site for the first endonucleolytic cut introduced by the RNase H activity of the
HIV
reverse transcriptase (RT). Thus, different signals dictate the arrest of (-) and (+) nascent DNA synthesis. These stop signals appear to be required for the subsequent second template switch. However, an excess of (-) DNA "acceptor" molecules, having a 18-base sequence complementary to the (+) DNA "donor" template, was required to demonstrate the actual template switch in the in-vitro system. Taken together these results indicate that the reverse transcriptase can catalyze all the steps leading to the second template switch and auxiliary viral proteins may act to enhance the efficiency of this step during the reverse transcription process.
...
PMID:Molecular analysis of the second template switch during reverse transcription of the HIV RNA template. 875 11
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