Abstract

The overall objective of this research proposal is to define at the? molecular level the individual steps in reverse transcription of the Human immunodeficiency virus (HIV-l)? viral genome. The experimental approach proposed here is unique because it? uses viruses derived from mutant proviral genomes to study reverse? transcription. Three key areas of reverse transcription, for which there? is very little information, will be investigated. First, the isolated? virions from HIV-l infected cells contain the necessary viral proteins for? reverse transcription. How the virus assembles these components into the? virion remains a major question. Second, the initiation of reverse? transcription requires a cellular tRNA-Lys as aprimer and occurs at a? region of the viral RNA genome, the primer binding site (PBS). How the? viral proteins recognize the PBS and how the tRNA-Lys is selected for? inclusion into the virion is unknown. Third, the process of reverse? transcription requires template switching by the reverse transcriptase.? How this occurs at the molecular level is not understood. To address these? questions, the following specific aims are proposed:? 1. To define the roles of the Gag-Pol polyprotein in reverse? transcription. The reverse transcriptase is incorporated into the virion? in the form of a larger precursor molecule, pr160(gag-Pol). The regions of? Gag-Pol which are required for incorporation into virions, and the? interaction between Gag-Pol and the cellular tRNA-Lys will be analyzed? using a complementation system developed by this laboratory. We have? demonstrated that the unprocessed Gag-Pol polyprotein contains reverse? transcriptase activity and the function of this activity in initiation of? reverse transcription will be investigated.? 2. To determine the structural features of the viral RNA genome containing? the PBS required for initiation of reverse transcription. The minimum? number of nucleotides within the PBS and the region of the viral RNA? genome encompassing the PBS which is required for initiation of reverse? transcription will be determined.? 3. To characterize features of the viral genome required for template? switching in reverse transcription. Mutations in the PBS will be? constructed to investigate the requirements for template switching. In? addition, the role of reverse transcriptase in promoting template? switching will be analyzed.? Reverse transcription is an early step in viral replication and is a major? target for anti-viral drugs. The long-term goal of this research is to? delineate the in vivo details of reverse transcription which will provide? new targets for therapeutic strategies to inhibit this critical step in? HIV-l replication.?

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Method to Extend Research in Time (MERIT) Award (R37)
Project #
5R37AI034749-14
Application #
7179261
Study Section
Special Emphasis Panel (NSS)
Program Officer
Sharma, Opendra K
Project Start
1993-12-01
Project End
2009-01-31
Budget Start
2007-02-01
Budget End
2008-01-31
Support Year
14
Fiscal Year
2007
Total Cost
$309,344
Indirect Cost

  Institution

Name
University of Alabama Birmingham
Department
Anatomy/Cell Biology
Type
Schools of Medicine
DUNS #
063690705
City
Birmingham
State
AL
Country
United States
Zip Code
35294

  Publications

Kelly, Maureen C; Kosloff, Barry R; Morrow, Casey D (2007) Forced selection of tRNA(Glu) reveals the importance of two adenosine-rich RNA loops within the U5-PBS for SIV(smmPBj) replication. Virology 366:330-9
Ni, Na; Morrow, Casey D (2007) Impact of forced selection of tRNAs on HIV-1 replication and genome stability highlight preferences for selection of certain tRNAs. Virus Res 124:29-37
McCulley, Anna; Morrow, Casey D (2007) Nucleotides within the anticodon stem are important for optimal use of tRNA(Lys,3) as the primer for HIV-1 reverse transcription. Virology 364:169-77
Djekic, Uros V; Morrow, Casey D (2007) Analysis of the replication of HIV-1 forced to use tRNAMet(i) supports a link between primer selection, translation and encapsidation. Retrovirology 4:10
Yu, Wanfeng; McCulley, Anna; Morrow, Casey D (2007) Mutations in the TPsiC loop of E. coli tRNALys,3 have varied effects on in trans complementation of HIV-1 replication. Virol J 4:5
Palmer, Matthew T; Kirkman, Richard; Kosloff, Barry R et al. (2007) tRNA isoacceptor preference prior to retrovirus Gag-Pol junction links primer selection and viral translation. J Virol 81:4397-404
Ni, Na; Xu, Wenqin; Morrow, Casey D (2007) Importance of A-loop complementarity with tRNAHis anticodon for continued selection of tRNAHis as the HIV reverse transcription primer. Virol J 4:4
McCulley, Anna; Morrow, Casey D (2006) Complementation of human immunodeficiency virus type 1 replication by intracellular selection of Escherichia coli formula supplied in trans. J Virol 80:9641-50
Xu, Wenqin; Morrow, Casey D (2006) The G490E mutation in reverse transcriptase does not impact tRNA primer selection by HIV-1 with altered PBS and A-loop. Virology 352:380-9
Li, Meng; Eipers, Peter G; Ni, Na et al. (2006) HIV-1 designed to use different tRNAGln isoacceptors prefers to select tRNAThr for replication. Virol J 3:80

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