Femtosecond structural dynamics drives the trans/cis isomerization in photoactive yellow protein

Kanupriya Pande; C. Hutchison; Gerrit Groenhof; Andy Aquila; Josef S. Robinson; Jason Tenboer; Shibom Basu; Sébastien Boutet; Daniel P. DePonte; Mengning Liang; Thomas A. White; Nadia A. Zatsepin; Oleksandr Yefanov; Dmitry Morozov; D. Oberthüer; Cornelius Gati; Ganesh Subramanian; Daniel James; Yun Zhao; J. D. Koralek; Jennifer Brayshaw; Christopher Kupitz; Chelsie E. Conrad; Shatabdi Roy-Chowdhury; Jesse Coe; Markus Metz; P. Lourdu Xavier; Thomas D. Grant; Jason E. Koglin; Gihan Ketawala; Raimund Fromme; V. Šrajer; Robert Henning; John C. H. Spence; A. Ourmazd; Peter Schwander; Uwe Weierstall; Matthias Frank; Petra Fromme; Anton Barty; Henry N. Chapman; Keith Moffat; Jasper J. van Thor; Marius Schmidt

doi:10.1126/science.aad5081

Femtosecond structural dynamics drives the trans/cis isomerization in photoactive yellow protein

Kanupriya Pande(Universität Hamburg), C. Hutchison(Imperial College London), Gerrit Groenhof(University of Jyväskylä), Andy Aquila(SLAC National Accelerator Laboratory), Josef S. Robinson(SLAC National Accelerator Laboratory), Jason Tenboer(University of Wisconsin–Milwaukee), Shibom Basu(Arizona State University), Sébastien Boutet(SLAC National Accelerator Laboratory), Daniel P. DePonte(SLAC National Accelerator Laboratory), Mengning Liang(SLAC National Accelerator Laboratory), Thomas A. White(Universität Hamburg), Nadia A. Zatsepin(Arizona State University), Oleksandr Yefanov(Universität Hamburg), Dmitry Morozov(University of Jyväskylä), D. Oberthüer(Universität Hamburg), Cornelius Gati(Universität Hamburg), Ganesh Subramanian(Arizona State University), Daniel James(Arizona State University), Yun Zhao(Arizona State University), J. D. Koralek(SLAC National Accelerator Laboratory), Jennifer Brayshaw(University of Wisconsin–Milwaukee), Christopher Kupitz(University of Wisconsin–Milwaukee), Chelsie E. Conrad(Arizona State University), Shatabdi Roy-Chowdhury(Arizona State University), Jesse Coe(Arizona State University), Markus Metz(Universität Hamburg), P. Lourdu Xavier(Universität Hamburg), Thomas D. Grant(Hauptman-Woodward Medical Research Institute), Jason E. Koglin(SLAC National Accelerator Laboratory), Gihan Ketawala(Arizona State University), Raimund Fromme(Arizona State University), V. Šrajer(University of Chicago), Robert Henning(University of Chicago), John C. H. Spence(Arizona State University), A. Ourmazd(University of Wisconsin–Milwaukee), Peter Schwander(University of Wisconsin–Milwaukee), Uwe Weierstall(Arizona State University), Matthias Frank(Lawrence Livermore National Laboratory), Petra Fromme(Arizona State University), Anton Barty(Universität Hamburg), Henry N. Chapman(Universität Hamburg), Keith Moffat(University of Chicago), Jasper J. van Thor(Imperial College London), Marius Schmidt(University of Wisconsin–Milwaukee)

Science

May 5, 2016

10.1126/science.aad5081

Cited by 450Open Access

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Abstract

A variety of organisms have evolved mechanisms to detect and respond to light, in which the response is mediated by protein structural changes after photon absorption. The initial step is often the photoisomerization of a conjugated chromophore. Isomerization occurs on ultrafast time scales and is substantially influenced by the chromophore environment. Here we identify structural changes associated with the earliest steps in the trans-to-cis isomerization of the chromophore in photoactive yellow protein. Femtosecond hard x-ray pulses emitted by the Linac Coherent Light Source were used to conduct time-resolved serial femtosecond crystallography on photoactive yellow protein microcrystals over a time range from 100 femtoseconds to 3 picoseconds to determine the structural dynamics of the photoisomerization reaction.

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