| Moore SP and Garfinkel DJ (2009) Functional analysis of N-terminal residues of ty1 integrase. J Virol 83(18):9502-11
|
|
| Pandey M, et al. (2008) Kinetic pathway of pyrophosphorolysis by a retrotransposon reverse transcriptase. PLoS ONE 3(1):e1389
|
|
| Yarrington RM, et al. (2007) Mn2+ suppressor mutations and biochemical communication between Ty1 reverse transcriptase and RNase H domains. J Virol 81(17):9004-12
|
|
| Pandey M, et al. (2004) Insights into the role of an active site aspartate in Ty1 reverse transcriptase polymerization. J Biol Chem 279(46):47840-8
|
|
| Lawler JF Jr, et al. (2002) A nucleocapsid functionality contained within the amino terminus of the Ty1 protease that is distinct and separable from proteolytic activity. J Virol 76(1):346-54
|
|
| Lawler JF Jr, et al. (2001) Frameshift signal transplantation and the unambiguous analysis of mutations in the yeast retrotransposon Ty1 Gag-Pol overlap region. J Virol 75(15):6769-75
|
|
| Merkulov GV, et al. (2001) Ty1 proteolytic cleavage sites are required for transposition: all sites are not created equal. J Virol 75(2):638-44
|
|
| Uzun O and Gabriel A (2001) A Ty1 reverse transcriptase active-site aspartate mutation blocks transposition but not polymerization. J Virol 75(14):6337-47
|
|
| Kenna MA, et al. (1998) Invading the yeast nucleus: a nuclear localization signal at the C terminus of Ty1 integrase is required for transposition in vivo. Mol Cell Biol 18(2):1115-24
|
|
| Moore SP, et al. (1998) A Ty1 integrase nuclear localization signal required for retrotransposition. Mol Cell Biol 18(2):1105-14
|
|
