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Gene/Clone | Species | Stage | Anatomy Item | Experimenter |
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kcnh6 | xenopus | somite [+] |
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Experiment details for kcnh6
Sempou E et al. (2022) AssayMembrane potential drives the exit from pluripotency and cell fate commitment via calcium and mTOR.
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Fig. 2: kcnh6 expression analysis for kcnh6 during Xenopus development. a–h kcnh6 transcripts were detected by a full-length antisense probe via WMISH. Embryos and tissues displayed are in the following orientations: a animal pole to the top, b animal pole view c bisected with animal pole to the top, d animal pole view, e vegetal view and dorsal to the top, f gastrocoel roof plate with anterior to the top and vegetal view, g, h lateral view with anterior to the left and dorsal to the top; Ecto prospective ectoderm, Endo prospective endoderm, DMZ dorsal marginal zone (mesoderm), PM paraxial mesoderm, som somites, GRP gastrocoel roof plate. Representative images from N = 60 embryos (per developmental stage) over 3 independent experiments. i kcnh6 transcripts19 (blue) and Vm16 (black) plotted during early Xenopus development. Blue dots represent mean transcript levels by temporal resolution RNA-seq, while blue shaded region marks Gaussian process 95% confidence interval of the data; n = 2 biological replicate time courses in original study. Membrane potential is presented as mean ± SD from at least n = 14 embryos in original study. | ||||||||||||||||
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kcnh6 (potassium channel, voltage gated eag related subfamily H, member 6) gene expressionin X. tropicalis embryo, NF stage 22, assayed via in situ hybridization, lateral view, anterior left, dorsal up. |