Author
Listed:
- Takehiko Tosha
(RIKEN SPring-8 Center)
- Takashi Nomura
(RIKEN SPring-8 Center)
- Takuma Nishida
(Graduate School of Life Science, University of Hyogo)
- Naoya Saeki
(Graduate School of Life Science, University of Hyogo)
- Kouta Okubayashi
(Graduate School of Life Science, University of Hyogo)
- Raika Yamagiwa
(RIKEN SPring-8 Center
Graduate School of Life Science, University of Hyogo)
- Michihiro Sugahara
(RIKEN SPring-8 Center)
- Takanori Nakane
(Graduate School of Science, The University of Tokyo)
- Keitaro Yamashita
(RIKEN SPring-8 Center)
- Kunio Hirata
(RIKEN SPring-8 Center
Japan Science and Technology Agency, PRESTO)
- Go Ueno
(RIKEN SPring-8 Center)
- Tetsunari Kimura
(Graduate School of Science, Kobe University)
- Tamao Hisano
(RIKEN SPring-8 Center)
- Kazumasa Muramoto
(Graduate School of Life Science, University of Hyogo)
- Hitomi Sawai
(Graduate School of Life Science, University of Hyogo)
- Hanae Takeda
(RIKEN SPring-8 Center
Graduate School of Life Science, University of Hyogo)
- Eiichi Mizohata
(Graduate School of Engineering, Osaka University)
- Ayumi Yamashita
(RIKEN SPring-8 Center)
- Yusuke Kanematsu
(Hiroshima City University)
- Yu Takano
(Hiroshima City University)
- Eriko Nango
(RIKEN SPring-8 Center
Graduate School of Medicine, Kyoto University)
- Rie Tanaka
(RIKEN SPring-8 Center)
- Osamu Nureki
(Graduate School of Science, The University of Tokyo)
- Osami Shoji
(Graduate School of Science, Nagoya University
Japan Science and Technology Agency, CREST)
- Yuka Ikemoto
(Japan Synchrotron Radiation Research Institute)
- Hironori Murakami
(Japan Synchrotron Radiation Research Institute)
- Shigeki Owada
(RIKEN SPring-8 Center)
- Kensuke Tono
(Japan Synchrotron Radiation Research Institute)
- Makina Yabashi
(RIKEN SPring-8 Center)
- Masaki Yamamoto
(RIKEN SPring-8 Center)
- Hideo Ago
(RIKEN SPring-8 Center)
- So Iwata
(RIKEN SPring-8 Center
Graduate School of Medicine, Kyoto University)
- Hiroshi Sugimoto
(RIKEN SPring-8 Center
Japan Science and Technology Agency, CREST)
- Yoshitsugu Shiro
(RIKEN SPring-8 Center
Graduate School of Life Science, University of Hyogo)
- Minoru Kubo
(RIKEN SPring-8 Center
Japan Science and Technology Agency, PRESTO)
Abstract
Time-resolved serial femtosecond crystallography using an X-ray free electron laser (XFEL) in conjunction with a photosensitive caged-compound offers a crystallographic method to track enzymatic reactions. Here we demonstrate the application of this method using fungal NO reductase, a heme-containing enzyme, at room temperature. Twenty milliseconds after caged-NO photolysis, we identify a NO-bound form of the enzyme, which is an initial intermediate with a slightly bent Fe-N-O coordination geometry at a resolution of 2.1 Å. The NO geometry is compatible with those analyzed by XFEL-based cryo-crystallography and QM/MM calculations, indicating that we obtain an intact Fe3+-NO coordination structure that is free of X-ray radiation damage. The slightly bent NO geometry is appropriate to prevent immediate NO dissociation and thus accept H− from NADH. The combination of using XFEL and a caged-compound is a powerful tool for determining functional enzyme structures during catalytic reactions at the atomic level.
Suggested Citation
Takehiko Tosha & Takashi Nomura & Takuma Nishida & Naoya Saeki & Kouta Okubayashi & Raika Yamagiwa & Michihiro Sugahara & Takanori Nakane & Keitaro Yamashita & Kunio Hirata & Go Ueno & Tetsunari Kimur, 2017.
"Capturing an initial intermediate during the P450nor enzymatic reaction using time-resolved XFEL crystallography and caged-substrate,"
Nature Communications, Nature, vol. 8(1), pages 1-9, December.
Handle:
RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-01702-1
DOI: 10.1038/s41467-017-01702-1
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