Genetic Analysis of the ADGF Multigene Family by Homologous Recombination and Gene Conversion in Drosophila

Genetic Analysis of the ADGF Multigene Family by Homologous Recombination and Gene Conversion in Drosophila

Tomas Dolezal^a,b, Michal Gazi^a,b, Michal Zurovec^a,b, and Peter J. Bryant^a
^a Developmental Biology Center, University of California, Irvine, California 92697
^b Institute of Entomology and University of South Bohemia, 37005 Ceske Budejovice, Czech Republic

Corresponding author: Peter J. Bryant, 4340 McGaugh Hall, University of California, Irvine, CA 92697., pjbryant{at}uci.edu (E-mail)

Communicating editor: T. KAUFMAN

Many Drosophila genes exist as members of multigene familiesand within each family the members can be functionally redundant,making it difficult to identify them by classical mutagenesistechniques based on phenotypic screening. We have addressedthis problem in a genetic analysis of a novel family of sixadenosine deaminase-related growth factors (ADGFs). We usedends-in targeting to introduce mutations into five of the sixADGF genes, taking advantage of the fact that five of the familymembers are encoded by a three-gene cluster and a two-gene cluster.We used two targeting constructs to introduce loss-of-functionmutations into all five genes, as well as to isolate differentcombinations of multiple mutations, independent of phenotypicconsequences. The results show that (1) it is possible to useends-in targeting to disrupt gene clusters; (2) gene conversion,which is usually considered a complication in gene targeting,can be used to help recover different mutant combinations ina single screening procedure; (3) the reduction of duplicationto a single copy by induction of a double-strand break is betterexplained by the single-strand annealing mechanism than by simplecrossing over between repeats; and (4) loss of function of themost abundantly expressed family member (ADGF-A) leads to disintegrationof the fat body and the development of melanotic tumors in mutantlarvae.

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