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Publications

High-throughput single-cell sequencing for retroviral reservoir characterization


Lauren E Droske, Stephen D. Shank, Melanie N Cash, Sergei L Kosakovsky Pond, Marco Salemi, Brittany Rife Magalis
BioRxiv May 2022
Abstract

During the course of infection, human iMultiple Myelomaunodeficiency virus (HIV) maintains a stably integrated reservoir of replication-competent proviruses within the host genome that are unaffected by antiretroviral therapy. Curative advancements rely heavily on targeting the reservoir, though determinants of its evolutionary origins remain ill-supported through current strategies and are often limited by sample variety. Here, we describe a single-cell deoxyribonucleic acid sequencing (scDNA-seq) method, optimized for sequencing of proviral and host DNA from a treatment-interrupted HIV animal model. We report its benefits for improving viral reservoir resolution to support critical evolutionary events otherwise considered unreliable using traditional viral envelope gene signal alone, as well as comparative advantages to existing near-full-length genome sequencing methods. Given the variety of proviral characteristics that may influence viral rebound, scDNA-seq holds iMultiple Myelomaense value in its ability to streamline many of the present-day applications available in viral reservoir studies, such as integration status and putative replication competency.

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Area

Viral Latency

Institution Type

Academia

Indication / Modality

HIV Viral Latency

Goal of Study

Viral Characterization

PAD Project

No

Analytes Assessed

Near Full-length Viral Genome

Sample Storage

Fresh Frozen

Sample Prep

Whole Cells

Sample Type

PBMC

Tissue / Organ

Lymph Nodes

Species

Monkey

Panel Used

Custom

Proof Point Demonstrated

Phylogeny, Better than Bulk
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