Arabidopsis Homologs of a c-Jun Coactivator Are Present Both in Monomeric Form and in the COP9 Complex, and Their Abundance Is Differentially Affected by the Pleiotropic cop/det/fus Mutations

doi:10.1105/tpc.10.11.1779

Arabidopsis Homologs of a c-Jun Coactivator Are Present Both in Monomeric Form and in the COP9 Complex, and Their Abundance Is Differentially Affected by the Pleiotropic cop/det/fus Mutations

Shing F. Kwok^a,b, Roberto Solano^c, Tomohiko Tsuge^b,d, Daniel A. Chamovitz^b, Joseph R. Ecker^c, Minami Matsui^d, and Xing-Wang Deng^b
^a Department of Genetics, Yale University School of Medicine, New Haven, Connecticut 06510
^b Department of Molecular, Cellular, and Developmental Biology, Yale University, New Haven, Connecticut 06520
^c Plant Science Institute, Department of Biology, University of Pennsylvania, Philadelphia, Pennsylvania 19104
^d Laboratory for Photoperception and Signal Transduction, Frontier Research Program, RIKEN, Saitama 351-01, Japan

Correspondence to: Xing-Wang Deng, xingwang.deng{at}yale.edu (E-mail), 203-432-3854 (fax).

The CONSTITUTIVE PHOTOMORPHOGENIC9 (COP9) complex is a nuclearlocalized, multisubunit protein complex essential for repressionof light-mediated development in Arabidopsis. Mutations thatabolish the complex result in constitutive photomorphogenicdevelopment in darkness and pleiotropic developmental defectsin both light and darkness. Here, we report the identificationof two apparently redundant genes, AJH1 and AJH2, that encodea subunit of the COP9 complex. Both AJH1 and AJH2 share highamino acid sequence identity (62 and 63%, respectively) withJAB1, a specific mammalian coactivator of AP-1 transcription.The proteins encoded by these two genes are present in bothcomplex and monomeric forms, whereas complex formation is inpart mediated by the direct interaction with FUSCA6. In addition,the stability of the monomeric AJH proteins requires functionalCOP1 and DEETIOLATED1 loci. Together with the fact that thepreviously known subunit FUSCA6 is an Arabidopsis homolog ofhuman GPS1, a negative regulator of AP-1 transcription, ourdata suggest that the COP9 complex may contain both negativeand positive regulators of transcription. Therefore, the COP9complex may achieve its pleiotropic effects on Arabidopsis developmentby modulating activities of transcription factors in responseto environmental stimuli.

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