BaseSpace
Correlation Engine 2.0
Import Your Data
Literature

FAQ

More FAQs

Back to top
Clear Search sequence regions
(e.g. BRCA1, Metabolism of xenobiotics, HIV infection, Neuron, Biofuel, Acetaminophen)
Bookmark Forward

The chaperone protein p32 stabilizes HIV-1 Tat and strengthens the p-TEFb/RNAPII/TAR complex promoting HIV transcription elongation.

Chuan Li, Luisa P Mori, Shuang Lyu, Ronald Bronson, Adam J Getzler, Matthew E Pipkin, Susana T Valente

Proceedings of the National Academy of Sciences of the United States of America 2022 Dec 30


filter terms:
  • adenovirus (2)
  • AIMP1 (2)
  • amino acids (2)
  • anti igg (1)
  • anti- antibodies (1)
  • antibodies (2)
  • antigen (1)
  • appendix mass (1)
  • ASF SF2 (6)
  • BAF (1)
  • base pairs (2)
  • binds protein (1)
  • biotin (1)
  • blue (1)
  • BRG1 (1)
  • BRM (13)
  • capsid (1)
  • catalog (1)
  • CCNT1 (15)
  • CD8 (5)
  • CD8B (1)
  • CDK9 (8)
  • CDK9 (6)
  • cell clone (2)
  • cells nk (1)
  • cellular (6)
  • chap (2)
  • chromatin (33)
  • circovirus (1)
  • complement c1q (1)
  • contains (2)
  • copies (1)
  • cortistatin (58)
  • culture cells (1)
  • cycloheximide (2)
  • cytosol (2)
  • d cells (2)
  • data file (1)
  • DHS 1 (2)
  • direct (3)
  • dmso (7)
  • dnase (1)
  • domain protein (1)
  • donors (15)
  • e coli (1)
  • E Proteins (1)
  • ebv (1)
  • edta (1)
  • essential (1)
  • factor b (1)
  • florida (2)
  • FUBP3 (6)
  • gag (2)
  • GAPDH (10)
  • gC1qR (1)
  • gene (12)
  • genomes (1)
  • grnas (26)
  • GST (10)
  • half life (7)
  • hdac inhibitor (1)
  • herpes simplex virus (1)
  • hiv 1 (9)
  • hiv- proteins (3)
  • hiv– 1– ltr (1)
  • host cell (1)
  • host factors 1 (1)
  • human cell (1)
  • igg (8)
  • il 2 (3)
  • LexA (1)
  • mass (20)
  • MCP- 1 (1)
  • microrna (1)
  • mrna (37)
  • NF κB (1)
  • nt 1 (1)
  • nuc (7)
  • nuc 1 (4)
  • nuclei cells (1)
  • nucleolus (2)
  • open (6)
  • p32 protein (3)
  • p33 (1)
  • PA2G4 (5)
  • PABPC1 (2)
  • particles (1)
  • peptides (4)
  • periods (1)
  • PIC (2)
  • plasmids (1)
  • PMA (10)
  • protein complex (1)
  • Protein G (2)
  • protein levels (2)
  • protein target (1)
  • protocols (1)
  • proviruses (2)
  • puromycin (4)
  • rabbit (3)
  • regulates (5)
  • Rev (1)
  • rev protein (1)
  • rna (24)
  • RNAPII (58)
  • RNase (3)
  • RPMI (1)
  • rubella virus (1)
  • salt (2)
  • sds page (2)
  • Ser- 2 (2)
  • Ser- 5 (2)
  • serum (1)
  • SF2 (11)
  • shCD8 (6)
  • short hairpin rnas (13)
  • signal (1)
  • Sp1 (1)
  • student (8)
  • suberoylanilide hydroxamic acid (10)
  • subunit (19)
  • sumo protein (1)
  • T Cell Growth Factor (1)
  • t cells (20)
  • target genes (1)
  • tat protein (12)
  • tat protein binds (1)
  • TFIIH (1)
  • TNF α (1)
  • trichostatin (1)
  • TRIM28 (3)
  • triton x- 100 (1)
  • trypan blue (1)
  • trypsin (2)
  • tss 1 (1)
  • tween 20 (1)
  • viral capsid (1)
  • viral protein (1)
  • viral transcripts (1)
  • viremia (2)
  • western blot (13)
  • XPB (1)
  • XRCC6 (2)
  • yeast (2)
    • Sizes of these terms reflect their relevance to your search.

    HIV gene expression is modulated by the combinatorial activity of the HIV transcriptional activator, Tat, host transcription factors, and chromatin remodeling complexes. To identify host factors regulating HIV transcription, we used specific single-guide RNAs and endonuclease-deficient Cas9 to perform chromatin affinity purification of the integrated HIV promoter followed by mass spectrometry. The scaffold protein, p32, also called ASF/SF2 splicing factor-associated protein, was identified among the top enriched factors present in actively transcribing HIV promoters but absent in silenced ones. Chromatin immunoprecipitation analysis confirmed the presence of p32 on active HIV promoters and its enhanced recruitment by Tat. HIV uses Tat to efficiently recruit positive transcription elongation factor b (p-TEFb) (CDK9/CCNT1) to TAR, an RNA secondary structure that forms from the first 59 bp of HIV transcripts, to enhance RNAPII transcriptional elongation. The RNA interference of p32 significantly reduced HIV transcription in primary CD4+T cells and in HIV chronically infected cells, independently of either HIV splicing or p32 anti-splicing activity. Conversely, overexpression of p32 specifically increased Tat-dependent HIV transcription. p32 was found to directly interact with Tat's basic domain enhancing Tat stability and half-life. Conversely, p32 associates with Tat via N- and C-terminal domains. Likely due its scaffold properties, p32 also promoted Tat association with TAR, p-TEFb, and RNAPII enhancing Tat-dependent HIV transcription. In sum, we identified p32 as a host factor that interacts with and stabilizes Tat protein, promotes Tat-dependent transcriptional regulation, and may be explored for HIV-targeted transcriptional inhibition.

    Citation

    Chuan Li, Luisa P Mori, Shuang Lyu, Ronald Bronson, Adam J Getzler, Matthew E Pipkin, Susana T Valente. The chaperone protein p32 stabilizes HIV-1 Tat and strengthens the p-TEFb/RNAPII/TAR complex promoting HIV transcription elongation. Proceedings of the National Academy of Sciences of the United States of America. 2022 Dec 30;120(1):e2217476120

    Expand section icon Mesh Tags

    Expand section icon Substances


    PMID: 36584296

    View Full Text
    • Copyright © 2024 Illumina Inc. All rights reserved.