Arabidopsis Cytokinin Receptor Mutants Reveal Functions in Shoot Growth, Leaf Senescence, Seed Size, Germination, Root Development, and Cytokinin Metabolism

Michael Riefler ¹, Ondrej Novak ², Miroslav Strnad ², and Thomas Schmülling ¹^*

¹ Institute of Biology/Applied Genetics, Free University of Berlin, D-14195 Berlin, Germany
² Laboratory of Growth Regulators, Palack $y$ University and Institute of Experimental Botany, Academy of Sciences of the Czech Republic, CZ-78371 Olomouc, Czech Republic

^* To whom correspondence should be addressed. E-mail: tschmue{at}zedat.fu-berlin.de.

We used loss-of-function mutants to study three Arabidopsisthaliana sensor histidine kinases, AHK2, AHK3, and CRE1/AHK4,known to be cytokinin receptors. Mutant seeds had more rapidgermination, reduced requirement for light, and decreased far-redlight sensitivity, unraveling cytokinin functions in seed germinationcontrol. Triple mutant seeds were more than twice as large aswild-type seeds. Genetic analysis indicated a cytokinin-dependentendospermal and/or maternal control of embryo size. Unchangedred light sensitivity of mutant hypocotyl elongation suggeststhat previously reported modulation of red light signaling byA-type response regulators may not depend on cytokinin. Combinedloss of AHK2 and AHK3 led to the most prominent changes duringvegetative development. Leaves of ahk2 ahk3 mutants formed fewercells, had reduced chlorophyll content, and lacked the cytokinin-dependentinhibition of dark-induced chlorophyll loss, indicating a prominentrole of AHK2 and, particularly, AHK3 in the control of leafdevelopment. ahk2 ahk3 double mutants developed a strongly enhancedroot system through faster growth of the primary root and, moreimportantly, increased branching. This result supports a negativeregulatory role for cytokinin in root growth regulation. Increasedcytokinin content of receptor mutants indicates a homeostaticcontrol of steady state cytokinin levels through signaling.Together, the analyses reveal partially redundant functionsof the cytokinin receptors and prominent roles for the AHK2/AHK3receptor combination in quantitative control of organ growthin plants, with opposite regulatory functions in roots and shoots.