Conservation and divergence of regulatory architecture in nitrate-responsive plant gene circuits.

Plant roots dynamically respond to nitrogen availability by executing a signaling and transcriptional cascade resulting in altered plant growth that is optimized for nutrient uptake. The NIN-LIKE PROTEIN 7 (NLP7) transcription factor senses nitrogen and, along with its paralog NLP6, partially coordinates transcriptional responses. While the post-translational regulation of NLP6 and NLP7 is well established, their upstream transcriptional regulation remains understudied in Arabidopsis (Arabidopsis thaliana) and other plant species.

Photosynthetic Living Fiber Fabrication from Algal-Bacterial Consortia with Controlled Spatial Distribution.

Living materials that combine living cells and synthetic matrix materials have become promising research fields in recent years. While multicellular systems present exclusive benefits in developing living materials over single-cell systems, creating artificial multicellular systems can be challenging due to the difficulty in controlling the multicellular assemblies and the complexity of cell-to-cell interactions. Here, we propose a coculture platform capable of isolating and controlling the spatial distribution of algal-bacterial consortia, which can be utilized to construct photosynthetic living fibers.

Discovery of Arabidopsis UGT73C1 as a steviol-catalyzing UDP-glycosyltransferase with chemical probes.

Chemoselective and affinity-based probes of steviol were applied to the discovery of glycosyltransferase activity and corresponding UDP-glycosyltransferase in Arabidopsis thaliana, which illustrates a simple strategy for rapidly harnessing minable novel biological parts from plants for synthetic biology.

Chemical proteomics reveal CD147 as a functional target of pseudolaric acid B in human cancer cells.

CD147 is a glycosylated transmembrane protein highly expressed on the surface of various tumor cells which plays vital roles in tumor invasion, progression and metastasis. We report the discovery of the natural product pseudolaric acid B (PAB) directly targeting CD147 by chemical proteomics utilizing a PAB-derived photoaffinity probe which could serve as a novel type of anticancer reagent.