- Title
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Potassium channel-based optogenetic silencing
- Authors
- Bernal Sierra, Y.A., Rost, B.R., Pofahl, M., Fernandes, A.M., Kopton, R.A., Moser, S., Holtkamp, D., Masala, N., Beed, P., Tukker, J.J., Oldani, S., Bönigk, W., Kohl, P., Baier, H., Schneider-Warme, F., Hegemann, P., Beck, H., Seifert, R., Schmitz, D.
- Source
- Full text @ Nat. Commun.
In vivo inhibition of coiling activity of zebrafish using fused-bPAC-K. a Schematic representation of the construct injected to generate the UAS:bPAC-SthK-tRPFtmpn157 transgenic line. The transgenic zebrafish expresses a fusion protein of bPAC(wt), SthK, and tagRFPt under the control of UAS. b Expression of bPAC-SthK-tRFPt in the spinal cord of a 24?h post-fertilization Gal4s1020t, UAS:bPAC-Sthk-tRFPtmpn157 embryo. Scale bar: 50?µm. c High magnification of the spinal cord in fused-bPAC-K transgenic zebrafish. Scale bar: 10?µm. d?f Raster plots of coiling events in 25 fused-bPAC-K transgenic embryos (black) and 10 non-expressing embryos from the same clutch (gray) before, during, and after illumination with blue or red light. g?i Average number of coils per 5?s over three replicates in fused-bPAC-SthK-positive (black) and non-expressing (gray) embryos. All zebrafish embryos show low-level photoinhibition of motor responses due to endogenous light sensitivity. Error bars represent SEM |