Role of Arabidopsis BBX proteins in light signaling

Journal of Plant Biochemistry and Biotechnology - Light regulates numerous aspects of plant growth and development like seed germination, seedling de-etiolation, pigment accumulation, cotyledon...     

Molecular mechanisms to sense soil overlay and optimize emergence in plants

The famous Mexican proverb says “They tried to bury us, they did not know we were seeds”. Seeds buried under the soil find their way through the soil particles and emerge out. The mechanical pressure of the soil cover induces the production of the gaseous hormone ethylene in plants. Ethylene promotes formation of an apical hook to protect the plant tip when seedlings try to penetrate through the soil. The dark environment under the soil cover also promotes apical hook formation. Once the seedlings reach the soil surface the apical hook opens to expose the meristem and initiate the development of aerial parts. Recent studies suggest the integration of the ethylene and light signaling pathway to regulate soil emergence. Here we summarize our current understanding of how light and ethylene signals coordinate to optimize seedling establishment. This might contribute towards crop improvement programs as successful emergence is critical for survival of seeds plants in natural environments and agricultural fields.

     

B-box protein BBX32 integrates light and brassinosteroid signals to inhibit cotyledon opening

Cotyledon opening is a key morphological change that occurs in seedlings during de-etiolation. Brassinosteroids (BRs) inhibit the opening of cotyledons in darkness while light promotes cotyledon opening. The molecular regulation of the interplay between light and BR to regulate cotyledon opening is not well understood. Here, we show the B-box protein BBX32 negatively regulates light signaling and promotes BR signaling to inhibit cotyledon opening in Arabidopsis (Arabidopsis thaliana). BBX32 is highly expressed in the cotyledons of seedlings during de-etiolation. bbx32 and 35S:BBX32 seedlings exhibit enhanced and reduced cotyledon opening, respectively, in response to both light and brassinazole treatment in dark, suggesting that BBX32 mediates cotyledon opening through both light and BR signaling pathways. BBX32 expression is induced by exogenous BR and is upregulated in bzr1-1D (BRASSINAZOLE RESISTANT1-1D). Our in vitro and in vivo interaction studies suggest that BBX32 physically interacts with BZR1. Further, we found that PHYTOCHROME-INTERACTING FACTOR 3 (PIF3) interacts with BBX32 and promotes BR-mediated cotyledon closure. BBX32, BZR1, and PIF3 regulate the expression of common target genes that modulate the opening and closing of cotyledons. Our work suggests BBX32 integrates light and BR signals to regulate cotyledon opening during de-etiolation.