Copy-choice recombination by reverse transcriptases: reshuffling of genetic markers mediated by RNA chaperones. - Wikidata - wikimedia - TriplyDB

Copy-choice recombination by reverse transcriptases: reshuffling of genetic markers mediated by RNA chaperones.

Copy-choice recombination by reverse transcriptases: reshuffling of genetic markers mediated by RNA chaperones.

http://www.wikidata.org/entity/Q35772493

about

RNA chaperoning and intrinsic disorder in the core proteins of Flaviviridae Structures of complexes formed by HIV-1 reverse transcriptase at a termination site of DNA synthesis.Unselected mutations in the human immunodeficiency virus type 1 genome are mostly nonsynonymous and often deleterious A recombination hot spot in HIV-1 contains guanosine runs that can form a G-quartet structure and promote strand transfer in vitro.A sequence similar to tRNA 3 Lys gene is embedded in HIV-1 U3-R and promotes minus-strand transfer.Factors that determine the efficiency of HIV-1 strand transfer initiated at a specific site Mechanism analysis indicates that recombination events in HIV-1 initiate and complete over short distances, explaining why recombination frequencies are similar in different sections of the genome A succession of mechanisms stimulate efficient reconstituted HIV-1 minus strand strong stop DNA transfer Pausing during reverse transcription increases the rate of retroviral recombination Structural features in the HIV-1 repeat region facilitate strand transfer during reverse transcription.Dimerization and template switching in the 5' untranslated region between various subtypes of human immunodeficiency virus type 1.Sequences in the U3 region of human immunodeficiency virus 1 improve efficiency of minus strand transfer in infected cells Role of HIV-1 nucleocapsid protein in HIV-1 reverse transcription.Mechanisms and factors that influence high frequency retroviral recombination HIV-1 nucleocapsid protein increases strand transfer recombination by promoting dimeric G-quartet formation.Requirements for efficient minus strand strong-stop DNA transfer in human immunodeficiency virus 1.Antiretroviral drug resistance mutations in human immunodeficiency virus type 1 reverse transcriptase increase template-switching frequency.The population genetics of drug resistance evolution in natural populations of viral, bacterial and eukaryotic pathogens Intracellular nucleotide levels and the control of retroviral infections.The remarkable frequency of human immunodeficiency virus type 1 genetic recombination Mechanisms of StpA-mediated RNA remodeling.The HIV-1 repeated sequence R as a robust hot-spot for copy-choice recombination.Sequence determinants of breakpoint location during HIV-1 intersubtype recombination.Effects of limiting homology at the site of intermolecular recombinogenic template switching during Moloney murine leukemia virus replication Transfection-mediated generation of functionally competent Tula hantavirus with recombinant S RNA segment.Template dimerization promotes an acceptor invasion-induced transfer mechanism during human immunodeficiency virus type 1 minus-strand synthesis.RNA chaperone StpA loosens interactions of the tertiary structure in the td group I intron in vivo.Dissection of a circumscribed recombination hot spot in HIV-1 after a single infectious cycle.The structure of HIV-1 genomic RNA in the gp120 gene determines a recombination hot spot in vivo.Complementarity-directed RNA dimer-linkage promotes retroviral recombination in vivo.Insights into the multiple roles of pausing in HIV-1 reverse transcriptase-promoted strand transfers.Mechanisms that prevent template inactivation by HIV-1 reverse transcriptase RNase H cleavages.Evidence that HIV-1 reverse transcriptase employs the DNA 3' end-directed primary/secondary RNase H cleavage mechanism during synthesis and strand transfer.Evidence for the differential effects of nucleocapsid protein on strand transfer in various regions of the HIV genome.

P2860

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P2860

Copy-choice recombination by reverse transcriptases: reshuffling of genetic markers mediated by RNA chaperones.

http://www.wikidata.org/entity/Q35772493

description

2000 nî lūn-bûn

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2000年の論文

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2000年論文

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2000年論文

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2000年論文

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2000年论文

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Copy-choice recombination by r ...... rs mediated by RNA chaperones.

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Copy-choice recombination by r ...... rs mediated by RNA chaperones.

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Copy-choice recombination by r ...... rs mediated by RNA chaperones.

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Proceedings of the National Academy of Sciences of the United States of America

P1476

Copy-choice recombination by r ...... rs mediated by RNA chaperones.

@en

P2093

Buc H

http://www.w3.org/2001/XMLSchema#string

Negroni M

http://www.w3.org/2001/XMLSchema#string

P2860

The viruses in all of us: characteristics and biological significance of human endogenous retrovirus sequences

First glimpses at structure-function relationships of the nucleocapsid protein of retroviruses

Broad spectrum of in vivo forward mutations, hypermutations, and mutational hotspots in a retroviral shuttle vector after a single replication cycle: deletions and deletions with insertions.

Homologous recombination promoted by reverse transcriptase during copying of two distinct RNA templates.

RNA chaperones and the RNA folding problem.

Mutations in HIV reverse transcriptase which alter RNase H activity and decrease strand transfer efficiency are suppressed by HIV nucleocapsid protein

Retrovirus variation and reverse transcription: abnormal strand transfers result in retrovirus genetic variation.

Recombination leads to the rapid emergence of HIV-1 dually resistant mutants under selective drug pressure.

Genetic consequences of packaging two RNA genomes in one retroviral particle: pseudodiploidy and high rate of genetic recombination.

Structure, replication, and recombination of retrovirus genomes: some unifying hypotheses.

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6385-6390

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scholarly article

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10.1073/PNAS.120520497

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12

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97

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12489213

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10829081

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P921

molecular chaperones

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18612

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