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4. Aug. 2014 · 杰奎琳・K・巴顿 (Jacqueline K. Barton、19xx年x月x日-)是美国的物理有机化学家・生物有机化学家。加州理工学院教授。她发现了DNA双螺旋的电荷转移现象(Charge Transfer)。 是活跃在科学前沿的女性研究者之一。他的丈夫是与她同一大学的Peter Dervan。 经历; 生于纽约。
27. Sept. 2011 · PASADENA, Calif.—Jacqueline K. Barton, the Arthur and Marian Hanisch Memorial Professor of Chemistry and chair of the Division of Chemistry and Chemical Engineering at Caltech—a leader in studies of the chemistry of DNA—has been named one of seven recipients of the National Medal of Science, the highest honor bestowed by the United States government on scientists.
28. Aug. 2023 · The Welch Foundation has announced that Jacqueline K. Barton has won the 2023 Robert A. Welch Award in Chemistry for her work using “inorganic coordination complexes to target local DNA structures and to study charge transport through DNA.” The annual award aims to encourage and recognize basic chemical research “for the benefit of humankind.” The award is a “tremendous honor ...
1. Juni 2002 · Schematic representations of three possible mechanisms for charge transport through DNA. (a) Superexchange: the charge tunnels from the donor (D) to the acceptor (A) through the bridge in a nonadiabatic process. An exponential decrease in the rate of charge transport with increasing length of bridge is predicted.
Professor Jacqueline K. Barton is the Arthur and Marian Hanisch Memorial professor of Chemistry at California Institute of Technology. The primary focus of her research is transverse electron transport along double-stranded DNA, its implications in the biology of DNA damage and repair, and its potential for materials sciences applications.
10. Feb. 2008 · Jacqueline K. Barton 3 & … Colin Nuckolls 1,2 Show authors. Nature Nanotechnology volume 3, pages 163–167 (2008)Cite this article. 3113 Accesses. 293 Citations. 22 Altmetric. Metrics details ...
Barton JK, Silva RMB, O'Brien E. (2019) Redox Chemistry in the Genome: Emergence of the [4Fe4S] Cofactor in Repair and Replication. Annual Review of Biochemistry . 88: 163-190 Tse ECM, Zwang TJ, Bedoya S, et al. ( 2019 ) Effective Distance for DNA-Mediated Charge Transport between Repair Proteins.
