Phytochromes B, D, and E Act Redundantly to Control Multiple Physiological Responses in Arabidopsis

doi:10.1104/pp.102.015487

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Phytochromes B, D, and E Act Redundantly to Control Multiple Physiological Responses in Arabidopsis

Keara A. Franklin ^*, Uta Praekelt , Wendy M. Stoddart , Olivia E. Billingham , Karen J. Halliday , and Garry C. Whitelam

Department of Biology, University of Leicester, United Kingdom LE1 7RH (K.A.F., U.P., W.M.S., G.C.W.), and School of Biological Sciences, University of Bristol, United Kingdom BS8 1U6 (O.E.B., K.J.H.)

^* Corresponding author; email: kaf5{at}le.ac.uk.

Phytochrome-mediated perception of the ratio of red to far-redwavelengths in the ambient light environment is fundamentalto plant growth and development. Such monitoring enables plantsto detect neighboring vegetation and initiate avoidance responses,thus conferring considerable selective advantage. The shadeavoidance syndrome in plants is characterized by elongationgrowth and early flowering, responses that are fully inducedby end-of-day far-red light treatments. Elucidating the rolesof individual phytochromes in mediating responses to red tofar-red has however always been confounded by synergistic andmutually antagonistic coactions between family members. Thecreation of triple and quadruple mutants in Arabidopsis, deficientin multiple phytochromes, has revealed functional redundancybetween phyB, D, and E in controlling flowering time, leaf development,and regulation of the homeobox gene, ATHB-2. In addition, mutantanalysis suggests a possible novel role for phyC in suppressingATHB-2 transcription in the light.

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