KANADI and Class III HD-Zip Gene Families Regulate Embryo Patterning and Modulate Auxin Flow during Embryogenesis in Arabidopsis

Anat Izhaki ¹ and John L. Bowman ²^*

¹ Section of Plant Biology, University of California, Davis, California 95616
² Section of Plant Biology, University of California, Davis, California 95616; School of Biological Sciences, Monash University, Clayton Campus, Melbourne, Victoria 3800, Australia

^* To whom correspondence should be addressed. E-mail: jlbowman{at}ucdavis.edu; john.bowman@sci.monash.edu.au.

Embryo patterning in Arabidopsis thaliana is highly affectedwhen KANADI or Class III HD-Zip genes are compromised. Tripleloss-of-function kan1 kan2 kan4 embryos exhibit striking defectsin the peripheral-central axis, developing lateral leaf-likeorgans from the hypocotyls, whereas loss of Class III HD-Zipgene activity results in a loss of bilateral symmetry. Lossof KANADI activity in a Class III HD-Zip mutant background mitigatesthe defects in bilateral symmetry, implying that the two genefamilies act antagonistically during embryonic pattern formation.Dynamic patterns of auxin concentration and flux contributeto embryo patterning. Polar cellular distribution of PIN-FORMED1(PIN1) mediates auxin flow throughout embryogenesis and is requiredfor establishment of the apical-basal axis and bilateral symmetry.Defects in the pattern of PIN1 expression are evident when membersof either the KANADI or Class III HD-Zip gene families are compromised.Abnormal expression patterns of PIN1 in KANADI or Class IIIHD-Zip multiple mutants and the phenotype of plants in whichmembers of both gene families are mutated suggest that patternformation along the central-peripheral axis results from interplaybetween auxin and the KANADI and Class III HD-Zip transcriptionfactors, whose defined spatial and temporal expression patternsmay also be influenced by auxin.

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