Immune Screening Identifies Novel T Cell Targets Encoded by Antisense Reading Frames of HIV-1 | Zendy

Christoph T. Berger | Zendy; Anuska Llano | Zendy; Jonathan M. Carlson | Zendy; Zabrina L. Brumme | Zendy; Mark A. Brockman | Zendy; Samandhy Cedeño | Zendy; P. Richard Harrigan | Zendy; Daniel E. Kaufmann | Zendy; David Heckerman | Zendy; Andreas Meyerhans | Zendy; Christian Brander | Zendy

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Immune Screening Identifies Novel T Cell Targets Encoded by Antisense Reading Frames of HIV-1

Author(s) -

Christoph T. Berger,

Anuska Llano,

Jonathan M. Carlson,

Zabrina L. Brumme,

Mark A. Brockman,

Samandhy Cedeño,

P. Richard Harrigan,

Daniel E. Kaufmann,

David Heckerman,

Andreas Meyerhans,

Christian Brander

Publication year - 2015

Publication title -

journal of virology

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 2.617

H-Index - 292

eISSN - 1070-6321

pISSN - 0022-538X

DOI - 10.1128/jvi.03435-14

Subject(s) - biology , ctl* , epitope , open reading frame , cytotoxic t cell , reading frame , encode , immune system , human immunodeficiency virus (hiv) , genetics , virology , computational biology , peptide sequence , gene , antigen , cd8 , in vitro

Cytotoxic-T lymphocyte (CTL) responses to epitopes in alternative HIV reading frames have been reported. However, the extent of CTL responses to putative proteins encoded in antisense reading frames is unknown. Using sequence alignments and computational approaches, we here predict five potential antisense HIV proteins and characterize common CTL responses against them. Results suggest that antisense-derived sequences are commonly transcribed and translated and could encode functional proteins that contain important targets of anti-HIV cellular immunity.

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