Abstract

Transposition of yeast Tyl elements closely resembles aspects of retroviral replication. In these retrotransposons, a virus-like particle (VLP) is an obligate intermediate in transposition, just as a similar nucleoprotein complex is an intermediate in the integration of retroviruses. Reverse transcription of a genomic RNA molecule takes place in this capsid-like structure in both cases. The exact roles of Tyl-encoded functions, and, to a lesser extent, host functions, in these processes are only beginning to be understood. We seek to understand the detailed mechanisms of reverse transcription and integration used by Tyl in the transposition process. We plan to tackle this problem using a combined genetic, biochemical, and molecular biological approach.
Specific aims are: 1) To identify host functions required for Tyl transposition and determine their role; 2) Tp characterize the host TYTl gene, which is required for efficient Tyl transposition, characterize TYTl gene product(s), and determine its role in transposition; 3) To determine the mechanisms of (-) strand priming in Tyl reverse transcription; 4) To determine the sequences required in cis at the termini of Tyl for transposition in vitro; 5) To develop and exploit a new assay for transposition in vitro and 6) To examine the factors influencing target specificity of Tyl transposition in vivo and in vitro.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
5R01GM036481-08
Application #
3290539
Study Section
Genetics Study Section (GEN)
Project Start
1986-04-01
Project End
1995-03-31
Budget Start
1993-04-01
Budget End
1994-03-31
Support Year
8
Fiscal Year
1993
Total Cost
Indirect Cost

  Institution

Name
Johns Hopkins University
Department
Type
Schools of Medicine
DUNS #
045911138
City
Baltimore
State
MD
Country
United States
Zip Code
21218

  Publications

Taylor, Martin S; LaCava, John; Mita, Paolo et al. (2013) Affinity proteomics reveals human host factors implicated in discrete stages of LINE-1 retrotransposition. Cell 155:1034-48
Huang, Qing; Purzycka, Katarzyna J; Lusvarghi, Sabrina et al. (2013) Retrotransposon Ty1 RNA contains a 5'-terminal long-range pseudoknot required for efficient reverse transcription. RNA 19:320-32
Purzycka, Katarzyna J; Garfinkel, David J; Boeke, Jef D et al. (2013) Influence of RNA structural elements on Ty1 retrotransposition. Mob Genet Elements 3:e25060
Mularoni, Loris; Zhou, Yulian; Bowen, Tyson et al. (2012) Retrotransposon Ty1 integration targets specifically positioned asymmetric nucleosomal DNA segments in tRNA hotspots. Genome Res 22:693-703
Dai, Lixin; Taylor, Martin S; O'Donnell, Kathryn A et al. (2012) Poly(A) binding protein C1 is essential for efficient L1 retrotransposition and affects L1 RNP formation. Mol Cell Biol 32:4323-36
Yarrington, Robert M; Richardson, Sarah M; Lisa Huang, Cheng Ran et al. (2012) Novel transcript truncating function of Rap1p revealed by synthetic codon-optimized Ty1 retrotransposon. Genetics 190:523-35
Dai, Lixin; Huang, Qing; Boeke, Jef D (2011) Effect of reverse transcriptase inhibitors on LINE-1 and Ty1 reverse transcriptase activities and on LINE-1 retrotransposition. BMC Biochem 12:18
Richardson, Sarah M; Nunley, Paul W; Yarrington, Robert M et al. (2010) GeneDesign 3.0 is an updated synthetic biology toolkit. Nucleic Acids Res 38:2603-6
Ivics, Zoltán; Li, Meng Amy; Mátés, Lajos et al. (2009) Transposon-mediated genome manipulation in vertebrates. Nat Methods 6:415-22
Scheifele, Lisa Z; Cost, Gregory J; Zupancic, Margaret L et al. (2009) Retrotransposon overdose and genome integrity. Proc Natl Acad Sci U S A 106:13927-32

Showing the most recent 10 out of 62 publications