期刊
NATURE STRUCTURAL & MOLECULAR BIOLOGY
卷 22, 期 5, 页码 390-U61出版社
NATURE PORTFOLIO
DOI: 10.1038/nsmb.3002
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资金
- CEA (Institut de Biologie Structurale)-Helmholtz-Gemeinschaft (Research Center Julich)
- German Ministry of Education and Research (PhoNa-Photonic Nanomaterials) [03152101F]
- Russian Foundation [13-04-91320]
- Helmholtz Association of German Research Centers [HRJRG-401]
- Russian Federal Target Program 'Research and Development' [14.587.21.0004, RFMEFI58714X0004]
- Ministry for Science and Education of Russia [120/2014]
- Russian Scientific Foundation [14-14-00995]
- French Infrastructure for Integrated Structural Biology (FRISBI) [ANR-10-INSB-05-02]
- Grenoble Alliance for Integrated Structural and Cell Biology (GRAL) [ANR-10-LABX-49- 01]
- Fondation Nanosciences
- Russian Science Foundation [14-14-00995] Funding Source: Russian Science Foundation
Recently, the first known light-driven sodium pumps, from the microbial rhodopsin family, were discovered. We have solved the structure of one of them, Krokinobacter eikastus rhodopsin 2 (KR2), in the monomeric blue state and in two pentameric red states, at resolutions of 1.45 an 2.2 and 2.8 , respectively. The structures reveal the ion-translocation pathway and show that the sodium ion is bound outside the protein at the oligomerization interface, that the ion-release cavity is capped by a unique N-terminal alpha-helix and that the ion-uptake cavity is unexpectedly large and open to the surface. Obstruction of the cavity with the mutation G263F imparts KR2 with the ability to pump potassium. These results pave the way for the understanding and rational design of cation pumps with new specific properties valuable for optogenetics.
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