How organisms respond to light and how photosensory receptors mediate light responses are some of the most basic questions in biology that affect human health. Cryptochromes (CRY) are blue/UV-A light receptors found in bacteria, plants, and animals including human, but the molecular mechanisms of CRYs remain not well understood. My laboratory uses Arabidopsis as the model system to study signaling mechanisms underlying CRY1 and CRY2 regulation of plant development. We recently identified, for the first time, blue light-dependent CRY-interacting proteins in plants. We propose to continue study CRY1 and CRY2 signaling mechanisms with three specific aims. First, we propose to investigate how CRY-interacting proteins regulate transcription, mRNA export, and protein stability. Second, we plan to investigate CRY regulation of cell-type- specific gene expression changes. Third, we propose to identify and characterize genes affecting blue light-induced CRY2 degradation and blue light- suppressed CIB1 degradation.
Cryptochromes (CRY) are blue/UV-A light receptors regulating plant development and human health. We propose to study CRY-interacting proteins and how they mediate CRY regulation of gene expression in response to light.
|Wang, Qin; Barshop, William D; Bian, Mingdi et al. (2017) The Blue Light-Dependent Phosphorylation of the CCE Domain Determines the Photosensitivity of Arabidopsis CRY2. Mol Plant 10:357|
|Yang, Zhaohe; Liu, Bobin; Su, Jun et al. (2017) Cryptochromes Orchestrate Transcription Regulation of Diverse Blue Light Responses in Plants. Photochem Photobiol 93:112-127|
|Liu, Qing; Wang, Qin; Deng, Weixian et al. (2017) Molecular basis for blue light-dependent phosphorylation of Arabidopsis cryptochrome 2. Nat Commun 8:15234|
|Wang, Qin; Zuo, Zecheng; Wang, Xu et al. (2016) Photoactivation and inactivation of Arabidopsis cryptochrome 2. Science 354:343-347|
|Liu, Qing; Wang, Qin; Liu, Bin et al. (2016) The Blue Light-Dependent Polyubiquitination and Degradation of Arabidopsis Cryptochrome2 Requires Multiple E3 Ubiquitin Ligases. Plant Cell Physiol 57:2175-2186|
|Liu, Bobin; Yang, Zhaohe; Gomez, Adam et al. (2016) Signaling mechanisms of plant cryptochromes in Arabidopsis thaliana. J Plant Res 129:137-48|
|Gao, Jie; Wang, Xu; Zhang, Meng et al. (2015) Trp triad-dependent rapid photoreduction is not required for the function of Arabidopsis CRY1. Proc Natl Acad Sci U S A 112:9135-40|
|Wang, Qin; Barshop, William D; Bian, Mingdi et al. (2015) The blue light-dependent phosphorylation of the CCE domain determines the photosensitivity of Arabidopsis CRY2. Mol Plant 8:631-43|
|Wang, Xu; Wang, Qin; Nguyen, Paula et al. (2014) Cryptochrome-mediated light responses in plants. Enzymes 35:167-89|
|Fristedt, Rikard; Scharff, Lars B; Clarke, Cornelia A et al. (2014) RBF1, a plant homolog of the bacterial ribosome-binding factor RbfA, acts in processing of the chloroplast 16S ribosomal RNA. Plant Physiol 164:201-15|
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