Proton Transfer to Flavin Stabilizes the Signaling State of the Blue Light Receptor Plant Cryptochrome

Hense A, Herman E, Oldemeyer S, Kottke T (2015)
Journal of Biological Chemistry 290(3): 1743-1751.

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Hense A, Herman E, Oldemeyer S, Kottke T. Proton Transfer to Flavin Stabilizes the Signaling State of the Blue Light Receptor Plant Cryptochrome. Journal of Biological Chemistry. 2015;290(3):1743-1751.
Hense, A., Herman, E., Oldemeyer, S., & Kottke, T. (2015). Proton Transfer to Flavin Stabilizes the Signaling State of the Blue Light Receptor Plant Cryptochrome. Journal of Biological Chemistry, 290(3), 1743-1751. doi:10.1074/jbc.M114.606327
Hense, A., Herman, E., Oldemeyer, S., and Kottke, T. (2015). Proton Transfer to Flavin Stabilizes the Signaling State of the Blue Light Receptor Plant Cryptochrome. Journal of Biological Chemistry 290, 1743-1751.
Hense, A., et al., 2015. Proton Transfer to Flavin Stabilizes the Signaling State of the Blue Light Receptor Plant Cryptochrome. Journal of Biological Chemistry, 290(3), p 1743-1751.
A. Hense, et al., “Proton Transfer to Flavin Stabilizes the Signaling State of the Blue Light Receptor Plant Cryptochrome”, Journal of Biological Chemistry, vol. 290, 2015, pp. 1743-1751.
Hense, A., Herman, E., Oldemeyer, S., Kottke, T.: Proton Transfer to Flavin Stabilizes the Signaling State of the Blue Light Receptor Plant Cryptochrome. Journal of Biological Chemistry. 290, 1743-1751 (2015).
Hense, Anika, Herman, Elena, Oldemeyer, Sabine, and Kottke, Tilman. “Proton Transfer to Flavin Stabilizes the Signaling State of the Blue Light Receptor Plant Cryptochrome”. Journal of Biological Chemistry 290.3 (2015): 1743-1751.
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