Your search keyword '"Jang, Kiyoung"' showing total 2 results

1. Structural evidence for visual arrestin priming via complexation of phosphoinositols

Author

Sander, Christopher L, Luu, Jennings, Kim, Kyumhyuk, Furkert, David, Jang, Kiyoung, Reichenwallner, Joerg, Kang, MinSoung, Lee, Ho-Jun, Eger, Bryan T, Choe, Hui-Woog, Fiedler, Dorothea, Ernst, Oliver P, Kim, Yong Ju, Palczewski, Krzysztof, and Kiser, Philip D

Subjects

Biochemistry and Cell Biology, Biological Sciences, Eye Disease and Disorders of Vision, Animals, Arrestin, Cattle, Crystallography, X-Ray, Inositol Phosphates, Mice, Models, Molecular, Protein Conformation, Protein Domains, Rhodopsin, Sequence Analysis, RNA, Single-Cell Analysis, (1, 4, 5) myo-D-inositol triphosphate, G protein-coupled receptor, GPCR, InsP(3), InsP(6), arrestin, crystal structure, myo-D-inositol hexakisphosphate, phospholipase C, photoreceptor, phototransduction, retina, vision, Chemical Sciences, Information and Computing Sciences, Biophysics, Biological sciences, Chemical sciences

Abstract

Visual arrestin (Arr1) terminates rhodopsin signaling by blocking its interaction with transducin. To do this, Arr1 translocates from the inner to the outer segment of photoreceptors upon light stimulation. Mounting evidence indicates that inositol phosphates (InsPs) affect Arr1 activity, but the Arr1-InsP molecular interaction remains poorly defined. We report the structure of bovine Arr1 in a ligand-free state featuring a near-complete model of the previously unresolved C-tail, which plays a crucial role in regulating Arr1 activity. InsPs bind to the N-domain basic patch thus displacing the C-tail, suggesting that they prime Arr1 for interaction with rhodopsin and help direct Arr1 translocation. These structures exhibit intact polar cores, suggesting that C-tail removal by InsP binding is insufficient to activate Arr1. These results show how Arr1 activity can be controlled by endogenous InsPs in molecular detail.

Published

2022

2. Crystal Structure of H227A Mutant of Arginine Kinase in Daphnia magna Suggests the Importance of Its Stability.

Author

Kim, Da Som, Jang, Kiyoung, Kim, Wan Seo, Ryu, Moonhee, Park, Jung Hee, and Kim, Yong Ju

Subjects

*DAPHNIA magna, *CRYSTAL structure, *ARGININE, *AMINO acid sequence, *ENZYME stability, *CLADOCERA, *AUTONOMIC nervous system

Abstract

Arginine kinase (AK) plays a crucial role in the survival of Daphnia magna, a water flea and a common planktonic invertebrate sensitive to water pollution, owing to the production of bioenergy. AK from D. magna (DmAK) has four highly conserved histidine residues, namely, H90, H227, H284, and H315 in the amino acid sequence. In contrast to DmAK WT (wild type), the enzyme activity of the H227A mutant decreases by 18%. To identify the structure-function relationship of this H227A mutant enzyme, the crystal 3D X-ray structure has been determined and an unfolding assay using anilino-1-naphthalenesulfonic acid (ANS) fluorescence has been undertaken. The results revealed that when compared to the DmAK WT, the hydrogen bonding between H227 and A135 was broken in the H227A crystal structure. This suggests that H227 residue, closed to the arginine binding site, plays an important role in maintaining the structural stability and maximizing the enzyme activity through hydrogen bonding with the backbone oxygen of A135. [ABSTRACT FROM AUTHOR]

Published

2022