Abstract

Recent advances have brought the unexpected conclusion that transfer RNA specificity may have evolved before the addition of the anticodon domain, and thus predated this molecule's role in decoding mRNA. This suggests that tRNA may have originally had other primary function(s), and indeed the varied involvement of tRNA biology in the replication of RNA genomes, principally viral, has led to the suggestion that tRNA's original role was replicational in the RNA world. These conjectures heighten the importance of understanding the non-translational roles of tRNAs and tRNA-like structures (TLSs), in order to better understand RNA replication and the varied functions of tRNA, and to appreciate the possibilities for novel pathogenic effects (e.g. during persistent, sub-symptomatic infection by an RNA virus). The goal of this research is to obtain a detailed understanding of the role of a valine-specific TLS that is present at the 3' end of the turnip yellow mosaic virus (TYMV) RNA genome. This TLS has a novel structure in which a pseudoknot replaces the canonical antiparallel helix of tRNA to form the aminoacyl acceptor stem. It plays a role in genome replication that requires aminoacylation and does not involve priming (as with retroviruses), but whose details are not known. The investigator showed that the valine specificity can be replaced with methionine, and that the promoter directing (-) strand synthesis is present within the TLS. The proposed experiments address the role of tRNA mimicry with several complementary approaches. They will define the enzymological properties and the subunits of the RNA dependent RNA polymerase activity that is able to copy the TLS to produce (-) strands, identify proteins that bind to, or recognize elements in, the TLS and attempt to relate the results to the fact that the (-) strand promoter is a tRNA variant. They will attempt to reproduce the observed dependence of in vivo replication on aminoacylation in in vitro replication systems, so that the precise part of the replication cycle that depends on the ability of a template to be aminoacylated can be determined. A chimeric RNA, TYMC-ELV, that encodes wild type TYMV proteins and has a heterologous 3' end, will be investigated to determine why it replicates to high levels in plants although its RNA appears not to be aminoacylatable.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
1R01GM054610-01A1
Application #
2023468
Study Section
Virology Study Section (VR)
Project Start
1997-09-15
Project End
2001-08-31
Budget Start
1997-09-15
Budget End
1998-08-31
Support Year
1
Fiscal Year
1997
Total Cost
Indirect Cost

  Institution

Name
Oregon State University
Department
Biochemistry
Type
Schools of Earth Sciences/Natur
DUNS #
053599908
City
Corvallis
State
OR
Country
United States
Zip Code
97339

  Publications

Dreher, Theo W (2009) Role of tRNA-like structures in controlling plant virus replication. Virus Res 139:217-29
Matsuda, Daiki; Dreher, Theo W (2004) The tRNA-like structure of Turnip yellow mosaic virus RNA is a 3'-translational enhancer. Virology 321:36-46
Matsuda, Daiki; Yoshinari, Shigeo; Dreher, Theo W (2004) eEF1A binding to aminoacylated viral RNA represses minus strand synthesis by TYMV RNA-dependent RNA polymerase. Virology 321:47-56
Tretheway, D M; Yoshinari, S; Dreher, T W (2001) Autonomous role of 3'-terminal CCCA in directing transcription of RNAs by Qbeta replicase. J Virol 75:11373-83
Matsuda, D; Dunoyer, P; Hemmer, O et al. (2000) The valine anticodon and valylatability of Peanut clump virus RNAs are not essential but provide a modest competitive advantage in plants. J Virol 74:8720-5
Yoshinari, S; Dreher, T W (2000) Internal and 3' RNA initiation by Qbeta replicase directed by CCA boxes. Virology 271:363-70
Filichkin, S A; Bransom, K L; Goodwin, J B et al. (2000) The infectivities of turnip yellow mosaic virus genomes with altered tRNA mimicry are not dependent on compensating mutations in the viral replication protein. J Virol 74:8368-75
Yoshinari, S; Nagy, P D; Simon, A E et al. (2000) CCA initiation boxes without unique promoter elements support in vitro transcription by three viral RNA-dependent RNA polymerases. RNA 6:698-707
Dreher, T W; Uhlenbeck, O C; Browning, K S (1999) Quantitative assessment of EF-1alpha.GTP binding to aminoacyl-tRNAs, aminoacyl-viral RNA, and tRNA shows close correspondence to the RNA binding properties of EF-Tu. J Biol Chem 274:666-72
Singh, R N; Dreher, T W (1998) Specific site selection in RNA resulting from a combination of nonspecific secondary structure and -CCR- boxes: initiation of minus strand synthesis by turnip yellow mosaic virus RNA-dependent RNA polymerase. RNA 4:1083-95

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