Your search keyword '"Rong-Jie Pei"' showing total 2 results

1. Stabilization of dimeric PYR/PYL/RCAR family members relieves abscisic acid-induced inhibition of seed germination

Author

Zhi-Zheng Wang, Min-Jie Cao, Junjie Yan, Jin Dong, Mo-Xian Chen, Jing-Fang Yang, Jian-Hong Li, Rui-Ning Ying, Yang-Yang Gao, Li Li, Ya-Nan Leng, Yuan Tian, Kamalani Achala H. Hewage, Rong-Jie Pei, Zhi-You Huang, Ping Yin, Jian-Kang Zhu, Ge-Fei Hao, and Guang-Fu Yang

Subjects

Science

Abstract

Abstract Abscisic acid (ABA) is the primary preventing factor of seed germination, which is crucial to plant survival and propagation. ABA-induced seed germination inhibition is mainly mediated by the dimeric PYR/PYL/RCAR (PYLs) family members. However, little is known about the relevance between dimeric stability of PYLs and seed germination. Here, we reveal that stabilization of PYL dimer can relieve ABA-induced inhibition of seed germination using chemical genetic approaches. Di-nitrobensulfamide (DBSA), a computationally designed chemical probe, yields around ten-fold improvement in receptor affinity relative to ABA. DBSA reverses ABA-induced inhibition of seed germination mainly through dimeric receptors and recovers the expression of ABA-responsive genes. DBSA maintains PYR1 in dimeric state during protein oligomeric state experiment. X-ray crystallography shows that DBSA targets a pocket in PYL dimer interface and may stabilize PYL dimer by forming hydrogen networks. Our results illustrate the potential of PYL dimer stabilization in preventing ABA-induced seed germination inhibition.

Published

2024

2. Real-Time Fluorescence Imaging of the Abscisic Acid Receptor Allows Nondestructive Visualization of Plant Stress

Author

Jing-Fang Yang, Wei-Jie Chen, Li-Ming Zhou, Kamalani Achala H. Hewage, Yi-Xuan Fu, Mo-Xian Chen, Bo He, Rong-Jie Pei, Ke Song, Jian-Hua Zhang, Jun Yin, Ge-Fei Hao, and Guang-Fu Yang

Subjects

Gene Expression Regulation, Plant, Stress, Physiological, Optical Imaging, General Materials Science, Plants, Genetically Modified, Abscisic Acid

Abstract

Environmental stress greatly decreases crop yield. The application of noninvasive techniques is one of the most practical and feasible ways of monitoring the health condition of plants under stress. However, it remains largely unsolved. A chemical fluorescent probe can be applied as a typical nondestructive method, but it has not been applied in living plants for stress detection to date. The abscisic acid (ABA) receptor plays a central role in conferring tolerance to environmental stresses and is an excellent target for developing fluorescent probes. Herein, we developed a fluorescence molecular imaging technology to monitor live plant stress by visualizing the protein expression level of the ABA receptor PYR1. A computer-aided designed indicator dye, flubactin, exhibited an 8-fold enhancement in fluorescence intensity upon interaction with PYR1.

Published

2022