標題: Bioinorganic Chemistry of the Natural [Fe(NO)(2)] Motif: Evolution of a Functional Model for NO-Related Biomedical Application and Revolutionary Development of a Translational Model!
作者: Lu, Tsai-Te
Wang, Yun-Ming
Hung, Chen-Hsiung
Chiou, Show-Jen
Liaw, Wen-Feng
生物科技學系
Department of Biological Science and Technology
公開日期: 15-十月-2018
摘要: Identification of the distinctive electron paramagnetic resonance signal at g = 2.03 in the yeast cells and liver of mice treated with carcinogens opened the discovery and investigation of the natural [Fe(NO)(2)] motif in the form of dinitrosyliron complexes (DNICs). In this Viewpoint, a chronological collection of the benchmark for the study of DNIC demonstrates that the preceding study of its biological synthesis, storage, transport, transformation, and function related to NO physiology inspires the biomimetic study of structural and functional models supported by thiolate ligands to provide mechanistic insight at a molecular level. During the synthetic, spectroscopic, and theoretical investigations on the structure-to-reactivity relationship within DNICs, control of the Fe-NO bonding interaction and of the delivery of NO+/(NO)-N-center dot/HNO/NO- by the supporting ligands and nuclearity evolves into the "redesign of the natural [Fe(NO)(2)] motif" as a strategy to develop DNICs for NO-related biomedical application and therapeutic approach. The revolutionary transformation of covalent a [Fe(NO)(2)] motif into a translational model for hydrogenase, triggered by the discovery of redox interconversion among [{Fe(NO)(2)}(9)-L-center dot] <-> {Fe(NO)(2)}(9) <-> {Fe(NO)(2)}(10) <-> [{Fe(NO)(2)}(10)-L-center dot](-) echoes the preceding research journey on [Fe]/[NiFe]-hydrogenase and completes the development of an electrodeposited-film electrode for electrocatalytic water splitting. Through the 50-year journey, bioinorganic chemistry of DNIC containing the covalent [Fe(NO)(2)] motif and noninnocent/labile NO ligands highlights itself as a unique metallocofactor to join the longitudinal study between biology/chemistry/biomedical application and the lateral study toward multielectron (photo/electro)catalysis for industrial application. This Viewpoint discloses the potential [Fe(NO)(2)] motif awaiting continued contribution in order to emerge as a novel application in the next 50 years, whereas the parallel development of bioinorganic chemistry, guided by inspirational Nature, moves the science forward to the next stage in order to benefit the immediate needs for human activity.
URI: http://dx.doi.org/10.1021/acs.inorgchem.8b01818
http://hdl.handle.net/11536/148332
ISSN: 0020-1669
DOI: 10.1021/acs.inorgchem.8b01818
期刊: INORGANIC CHEMISTRY
Volume: 57
Issue: `
起始頁: 12425
結束頁: 12443
顯示於類別:期刊論文