Genetic and mechanistic basis for APOBEC3H alternative splicing, retrovirus restriction, and counteraction by HIV-1 protease

Genetic and mechanistic basis for APOBEC3H alternative splicing, retrovirus restriction, and counteraction by HIV-1 protease

Human APOBEC3H has several haplotypes and splice variants with distinct anti-HIV-1 activities, but the genetics underlying the expression of these variants are unclear. Here, the authors identify an intronic deletion in A3H haplotype II resulting in production of the most active splice variant, whic...

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Autores principales: Diako Ebrahimi, Christopher M. Richards, Michael A. Carpenter, Jiayi Wang, Terumasa Ikeda, Jordan T. Becker, Adam Z. Cheng, Jennifer L. McCann, Nadine M. Shaban, Daniel J. Salamango, Gabriel J. Starrett, Jairam R. Lingappa, Jeongsik Yong, William L. Brown, Reuben S. Harris
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2018
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Science
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Acceso en línea:https://doaj.org/article/ea3b48a2ed974a7c8e6b38190a93470e
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Sumario:Human APOBEC3H has several haplotypes and splice variants with distinct anti-HIV-1 activities, but the genetics underlying the expression of these variants are unclear. Here, the authors identify an intronic deletion in A3H haplotype II resulting in production of the most active splice variant, which is counteracted by HIV-1 protease.

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