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Basic Characteristics of Mutations
|
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Mutation Site
|
Q112H |
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Mutation Site Sentence
|
Three independent experiments for experimental adaptation of the RKLM virus in this cell type generated three genetic changes (V86A, A92V and Q112H) in the viral capsid sequences without reversion of the parental RKLM mutations. |
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Mutation Level
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Amino acid level |
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Mutation Type
|
Nonsynonymous substitution |
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Gene/Protein/Region
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CA |
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Standardized Encoding Gene
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Gag
|
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Genotype/Subtype
|
HIV-1 |
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Viral Reference
|
K02013.1
|
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Functional Impact and Mechanisms
|
|
Disease
|
Cell line
|
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Immune
|
- |
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Target Gene
|
-
|
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Clinical and Epidemiological Correlations
|
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Clinical Information
|
- |
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Treatment
|
- |
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Location
|
- |
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Literature Information
|
|
PMID
|
24415937
|
|
Title
|
In vivo functions of CPSF6 for HIV-1 as revealed by HIV-1 capsid evolution in HLA-B27-positive subjects
|
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Author
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Henning MS,Dubose BN,Burse MJ,Aiken C,Yamashita M
|
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Journal
|
PLoS pathogens
|
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Journal Info
|
2014 Jan;10(1):e1003868
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Abstract
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The host protein CPSF6 possesses a domain that can interact with the HIV-1 capsid (CA) protein. CPSF6 has been implicated in regulating HIV-1 nuclear entry. However, its functional significance for HIV-1 replication has yet to be firmly established. Here we provide evidence for two divergent functions of CPSF6 for HIV-1 replication in vivo. We demonstrate that endogenous CPSF6 exerts an inhibitory effect on naturally occurring HIV-1 variants in individuals carrying the HLA-B27 allele. Conversely, we find a strong selective pressure in these individuals to preserve CPSF6 binding, while escaping from the restrictive activity by CPSF6. This active maintenance of CPSF6 binding during HIV-1 CA evolution in vivo contrasts with the in vitro viral evolution, which can reduce CPSF6 binding to evade from CPSF6-mediated restriction. Thus, these observations argue for a beneficial role of CPSF6 for HIV-1 in vivo. CPSF6-mediated restriction renders HIV-1 less dependent or independent from TNPO3, RanBP2 and Nup153, host factors implicated in HIV-1 nuclear entry. However, viral evolution that maintains CPSF6 binding in HLA-B27+ subjects invariably restores the ability to utilize these host factors, which may be the major selective pressure for CPSF6 binding in vivo. Our study uncovers two opposing CA-dependent functions of CPSF6 in HIV-1 replication in vivo; however, the benefit for binding CPSF6 appears to outweigh the cost, providing support for a vital function of CPSF6 during HIV-1 replication in vivo.
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Sequence Data
|
-
|
