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Microdroplet fusion mass spectrometry for fast reaction kinetics

Cited 92 time in webofscience Cited 93 time in scopus
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Title
Microdroplet fusion mass spectrometry for fast reaction kinetics
Author(s)
Jae Kyoo Lee; Samuel Kim; Hong Gil Nam; Zare R.N.
Subject
mass spectrometry | liquid microdroplets | reaction kinetics |protein unfolding | hydrogen–deuterium isotope exchange
Publication Date
2015-03
Journal
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, v.112, no.13, pp.3898 - 3903
Publisher
NATL ACAD SCIENCES
Abstract
We investigated the fusion of high-speed liquid droplets as a way to record the kinetics of liquid-phase chemical reactions on the order of microseconds. Two streams of micrometer-size droplets collide with one another. The droplets that fused (13 μm in diameter) at the intersection of the two streams entered the heated capillary inlet of a mass spectrometer. The mass spectrum was recorded as a function of the distance x between the mass spectrometer inlet and the droplet fusion center. Fused droplet trajectories were imaged with a high-speed camera, revealing that the droplet fusion occurred approximately within a 500-μm radius from the droplet fusion center and both the size and the speed of the fused droplets remained relatively constant as they traveled from the droplet fusion center to the mass spectrometer inlet. Evidence is presented that the reaction effectively stops upon entering the heated inlet of the mass spectrometer. Thus, the reaction time was proportional to x and could be measured and manipulated by controlling the distance x. Kinetic studies were carried out in fused water droplets for acid-induced unfolding of cytochrome c and hydrogen-deuterium exchange in bradykinin. The kinetics of the former revealed the slowing of the unfolding rates at the early stage of the reaction within 50 μs. The hydrogen- deuterium exchange revealed the existence of two distinct populations with fast and slow exchange rates. These studies demonstrated the power of this technique to detect reaction intermediates in fused liquid droplets with microsecond temporal resolution
URI
https://pr.ibs.re.kr/handle/8788114/1630
DOI
10.1073/pnas.1503689112
ISSN
0027-8424
Appears in Collections:
Center for Plant Aging Research (식물 노화·수명 연구단) > 1. Journal Papers (저널논문)
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