Wu Qiang, distinguished professor of Shanghai Jiaotong University, doctoral supervisor. Researcher of the State Key Laboratory of Oncogenes and Related Genes, executive deputy director of the Key Laboratory of systems biomedicine Ministry of Education, chief scientist of the major scientific research program (973) of the Ministry of Science and Technology, expert of special government allowance of the State Council, Shanghai Pujiang scholar, life member of the Chinese and American Society of Life Scientists, and member of the Society of Neuroscience. 1990 and 1993 obtained a bachelor's degree and a master's degree from Fudan University respectively. From 65438 to 0998, he received his doctorate in cell developmental biology from the State University of New York at Stony Brook. 1999 -200 1 year, postdoctoral fellow at Harvard University, researcher at damon runyon. Before returning to China in 2008, he was an assistant professor at the University of Utah.

He was awarded the Excellent Research Award of Si Tong Brook University, the Second Annual RNA Society Award, the American Cancer Society Research Scholar Award and Basil O 'Connor Scholar Award. The research papers were published in journals such as Science, RNA, MCB, Cell, PNAS, Molecular Cell, Genetics, Neuroscience, Genome Research, Natural Genetics, Natural Protocol and JMCB, and applied for national patents. Now he is the editorial board of ABBS, judging many internationally renowned journals, as well as major scientific research projects of Ministry of Science and Technology, National Natural Science Foundation of China, outstanding doctoral dissertations of Ministry of Education, doctoral programs and major projects of Shanghai Science and Technology Commission.

Long-term research on the expression regulation and in vivo function of nervous system, drug metabolism system and tumor gene family. By means of comparative biomedicine, new technologies and methods of molecular genetics have been developed to study the cellular and molecular mechanisms of cadherin family in brain development and brain function, as well as the physiological functions and expression regulation principles of UGT family in drug metabolism. Using mice as model animals, this paper studies the occurrence and development mechanism of important and common complex neuropsychiatric diseases and provides theoretical basis for their final treatment.