@article{,
title = {The HIV-1 Nef protein enhances the affinity of reverse transcriptase for RNA in vitro},
author = {C Fournier and J C Cortay and C Carbonnelle and C Ehresmann and R Marquet and P Boulanger},
url = {http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&dopt=Citation&list_uids=12881637},
isbn = {12881637},
year = {2002},
date = {2002-01-01},
journal = {Virus Genes},
volume = {25},
number = {3},
pages = {255-269},
abstract = {Several viral proteins, including nucleocapsid protein, integrase, Vif, Tat, and Nef have been proposed to act as cofactors of HIV-1 reverse transcription. Using two viral RNA probes, one overlapping the primer-binding site (PBS) and the other representing the ribosomal frameshifting signal (FS) of HIV-1 RNA, we found that recombinant full-length Nef protein (NefLAI) increased the affinity of reverse transcriptase (RT) for RNA in vitro, and interacted directly with RT in protein co-precipitation assays. The effect on RT-RNA binding and the capacity of Nef to interact with RT was also observed with N-terminal deletion mutant NefDelta57 and NefSF2, although to a lesser level. NefDelta57 corresponded to the processed Nef protein present in the internal core of mature virions, and lacked the N-myristoylated N-terminus and N-terminal region implicated in virus infectivity and pathogenicity in vivo. NefSF2, a Nef allele from a highly pathogenic strain of HIV-1, differed from NefLAI by the amino acid sequence and immunoreactivity of its N-terminal domain. The effect observed with NefSF2 and NefDelta57, and data from phage biopanning experiments suggested that the RT-binding region in Nef involved the C-terminal flexible loop of its C-terminal domain, but the function in RT-RNA binding was also influenced by its N-terminal domain.},
note = {0920-8569
Journal Article},
keywords = {Amino Acid Sequence Binding Sites Electrophoretic Mobility Shift Assay Gene Products, MARQUET, nef/*metabolism HIV-1/*genetics/metabolism Human In Vitro Molecular Sequence Data Protein Footprinting RNA/genetics/*metabolism RNA-Directed DNA Polymerase/*metabolism Support, Non-U.S. Gov't, Unité ARN},
pubstate = {published},
tppubtype = {article}
}
Several viral proteins, including nucleocapsid protein, integrase, Vif, Tat, and Nef have been proposed to act as cofactors of HIV-1 reverse transcription. Using two viral RNA probes, one overlapping the primer-binding site (PBS) and the other representing the ribosomal frameshifting signal (FS) of HIV-1 RNA, we found that recombinant full-length Nef protein (NefLAI) increased the affinity of reverse transcriptase (RT) for RNA in vitro, and interacted directly with RT in protein co-precipitation assays. The effect on RT-RNA binding and the capacity of Nef to interact with RT was also observed with N-terminal deletion mutant NefDelta57 and NefSF2, although to a lesser level. NefDelta57 corresponded to the processed Nef protein present in the internal core of mature virions, and lacked the N-myristoylated N-terminus and N-terminal region implicated in virus infectivity and pathogenicity in vivo. NefSF2, a Nef allele from a highly pathogenic strain of HIV-1, differed from NefLAI by the amino acid sequence and immunoreactivity of its N-terminal domain. The effect observed with NefSF2 and NefDelta57, and data from phage biopanning experiments suggested that the RT-binding region in Nef involved the C-terminal flexible loop of its C-terminal domain, but the function in RT-RNA binding was also influenced by its N-terminal domain.