Dominant Alleles of the Basic Helix-Loop-Helix Transcription Factor ATR2 Activate Stress-Responsive Genes in Arabidopsis

Dominant Alleles of the Basic Helix-Loop-Helix Transcription Factor ATR2 Activate Stress-Responsive Genes in Arabidopsis

Gromoslaw A. Smolen^a, Laura Pawlowski^a, Sharon E. Wilensky^a, and Judith Bender^a
^a Department of Biochemistry and Molecular Biology, Johns Hopkins University, Bloomberg School of Public Health, Baltimore, Maryland 21205

Corresponding author: Judith Bender, Johns Hopkins University, Bloomberg School of Public Health, 615 N. Wolfe St., Baltimore, MD 21205., jbender{at}mail.jhmi.edu (E-mail)

Communicating editor: C. S. GASSER

Members of the R/B basic helix-loop-helix (bHLH) family of planttranscription factors are involved in a variety of growth anddifferentiation processes. We isolated a dominant mutation inan R/B-related bHLH transcription factor in the course of studyingArabidopsis tryptophan pathway regulation. This mutant, atr2D,displayed increased expression of several tryptophan genes aswell as a subset of other stress-responsive genes. The atr2Dmutation creates an aspartate to asparagine change at a positionthat is highly conserved in R/B factors. Substitutions of otherresidues with uncharged side chains at this position also conferreddominant phenotypes. Moreover, overexpression of mutant atr2D,but not wild-type ATR2, conferred pleiotropic effects, includingreduced size, dark pigmentation, and sterility. Therefore, atr2Dis likely to be an altered-function allele that identifies akey regulatory site in the R/B factor coding sequence. Double-mutantanalysis with atr1D, an overexpression allele of the ATR1 Mybfactor previously isolated in tryptophan regulation screens,showed that atr2D and atr1D have additive effects on tryptophanregulation and are likely to act through distinct mechanismsto activate tryptophan genes. The dominant atr mutations thusprovide tools for altering tryptophan metabolism in plants.

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