Identification and Analysis of a Hyperactive Mutant Form of Drosophila P-Element Transposase

Identification and Analysis of a Hyperactive Mutant Form of Drosophila P-Element Transposase

Eileen L. Beall^a, Matthew B. Mahoney^a, and Donald C. Rio^a
^a Department of Molecular and Cell Biology, University of California, Berkeley, California 94720-3204

Corresponding author: Donald C. Rio, University of California, Berkeley, CA 94720-3204., don_rio{at}uclink4.berkeley.edu (E-mail)

Communicating editor: A. J. LOPEZ

Transposition in many organisms is regulated to control thefrequency of DNA damage caused by the DNA breakage and joiningreactions. However, genetic studies in prokaryotic systems haveled to the isolation of mutant transposase proteins with higheror novel activities compared to those of the wild-type protein.In the course of our study of the effects of mutating potentialATM-family DNA damage checkpoint protein kinase sites in theDrosophila P-element transposase protein, we found one mutation,S129A, that resulted in an elevated level of transposase activityusing in vivo recombination assays, including P-element-mediatedgermline transformation. In vitro assays for P-element transposaseactivity indicate that the S129A mutant exhibits elevated donorDNA cleavage activity when compared to the wild-type protein,whereas the strand-transfer activity is similar to that of wildtype. This difference may reflect the nature of the in vitroassays and that normally in vivo the two reactions may proceedin concert. The P-element transposase protein contains 10 potentialconsensus phosphorylation sites for the ATM family of PI₃-relatedprotein kinases. Of these 10 sites, 8 affect transposase activityeither positively or negatively when substituted individuallywith alanine and tested in vivo. A mutant transposase proteinthat contains all eight N-terminal serine and threonine residuessubstituted with alanine is inactive and can be restored tofull activity by substitution of wild-type amino acids backat only 3 of the 8 positions. These data suggest that the activityof P-element transposase may be regulated by phosphorylationand demonstrate that one mutation, S129A, results in hyperactivetransposition.

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