Mutant Alleles of the Drosophila trithorax Gene Produce Common and Unusual Homeotic and Other Developmental Phenotypes

Mutant Alleles of the Drosophila trithorax Gene Produce Common and Unusual Homeotic and Other Developmental Phenotypes

Thomas R. Breen^a
^a Department of Zoology, Southern Illinois University, Carbondale, Illinois 62901-6501

Corresponding author: Thomas R. Breen

Communicating editor: R. S. HAWLEY

trithorax (trx) encodes chromosome-binding proteins requiredthroughout embryogenesis and imaginal development for tissue-and cell-specific levels of transcription of many genes includinghomeotic genes of the ANT-C and BX-C. trx encodes two proteinisoforms that contain conserved motifs including a C-terminalSET domain, central PHD fingers, an N-terminal DNA-binding homology,and two short motifs also found in the TRX human homologue,ALL1. As a first step to characterizing specific developmentalfunctions of TRX, I examined phenotypes of 420 combinationsof 21 trx alleles. Among these are 8 hypomorphic alleles thatare sufficient for embryogenesis but provide different levelsof trx function at homeotic genes in imaginal cells. One allelealters the N terminus of TRX, which severely impairs larvaland imaginal growth. Hypomorphic alleles that alter differentregions of TRX equivalently reduce function at affected genes,suggesting TRX interacts with common factors at different targetgenes. All hypomorphic alleles examined complement one another,suggesting cooperative TRX function at target genes. Comparativeeffects of hypomorphic genotypes support previous findings thatTRX has tissue-specific interactions with other factors at eachtarget gene. Some hypomorphic genotypes also produce phenotypesthat suggest TRX may be a component of signal transduction pathwaysthat provide tissue- and cell-specific levels of target genetranscription.

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