A fragment activity assay reveals the key residues of TBC1D15 GTPase-activating protein (GAP) in Chiloscyllium plagiosum.

Yangyang JinGuodong LinYanna ChenYinghua GeRuofeng LiangJia WuJianqing ChenDan WangHengbo ShiHui FeiZhengbing Lv

Published in: BMC molecular biology (2019)

These results revealed that the substrate specificity of TBC1D15 has had different mechanisms across the evolution of species from lower-cartilaginous fish to higher mammals. Collectively, the data support a different mechanism of Shark TBC1D15-GAP in substrate selection, which provides a new idea for the development of Marine drugs.

Keyphrases

structural basis
amino acid
signaling pathway
high throughput
electronic health record
big data
single cell
artificial intelligence
deep learning