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Literature DB >> 26714708

Analysis of HIV-1 Gag-RNA Interactions in Cells and Virions by CLIP-seq.

Sebla B Kutluay^1,2, Paul D Bieniasz^3,4.

Abstract

Next-generation sequencing-based methodologies have revolutionized the analysis of protein-nucleic acid complexes; yet these novel approaches have rarely been applied in virology. Because it has an RNA genome, RNA-protein interactions play critical roles in human immunodeficiency virus type 1 (HIV-1) replication. In many cases, the binding sites of proteins on HIV-1 RNA molecules in physiologically relevant settings are not known. Cross-linking-immunoprecipitation sequencing (CLIP-seq) methodologies, which combine immunoprecipitation of covalently crosslinked protein-RNA complexes with high-throughput sequencing, is a powerful technique that can be applied to such questions as it provides a global account of RNA sequences bound by a RNA-binding protein of interest in physiological settings at near-nucleotide resolution. Here, we describe the application of the CLIP-seq methodology to identify the RNA molecules that are bound by the HIV-1 Gag protein in cells and in virions. This protocol can easily be applied to other viral and cellular RNA-binding proteins that influence HIV-1 replication.

Entities: CellLine Chemical Disease Gene Mutation Species

Keywords: Bioinformatics; CLIP-seq; Cells; Gag; HIV-1; Next-generation sequencing; Protein –RNA interaction; RNA -binding protein; RNA packaging; UV cross-linking; Virions

Mesh：

Substances：

Year: 2016 PMID： 26714708 PMCID： PMC6548315 DOI： 10.1007/978-1-4939-3046-3_8

Source DB: PubMed Journal: Methods Mol Biol ISSN： 1064-3745

22 in total

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7 in total

Review 1. Clip for studying protein-RNA interactions that regulate virus replication.

Authors: Christian Shema Mugisha; Kasyap Tenneti; Sebla B Kutluay
Journal: Methods Date: 2019-11-22 Impact factor: 3.608

2. The Translational Landscape of SARS-CoV-2-infected Cells Reveals Suppression of Innate Immune Genes.

Authors: Maritza Puray-Chavez; Nakyung Lee; Kasyap Tenneti; Yiqing Wang; Hung R Vuong; Yating Liu; Amjad Horani; Tao Huang; Sean P Gunsten; James B Case; Wei Yang; Michael S Diamond; Steven L Brody; Joseph Dougherty; Sebla B Kutluay
Journal: mBio Date: 2022-05-23 Impact factor: 7.786

3. Capsid Lattice Destabilization Leads to Premature Loss of the Viral Genome and Integrase Enzyme during HIV-1 Infection.

Authors: Jenna E Eschbach; Jennifer L Elliott; Wen Li; Kaneil K Zadrozny; Keanu Davis; Shawn J Mohammed; Dana Q Lawson; Owen Pornillos; Alan N Engelman; Sebla B Kutluay
Journal: J Virol Date: 2020-12-22 Impact factor: 5.103