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FIGURE 3 — Calcium Deregulation: Novel Insights to Understand Friedreich's Ataxia Pathophys

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paper figure Created: 2026-04-21T18:29:40 By: paper_figures_tool Quality: 50% 🔗 External ID: paper-fig-paper-eba56eb9e84f-3
FIGURE 3 — Calcium Deregulation: Novel Insights to Understand Friedreich's Ataxia Pathophys
FIGURE 3Figure 3
Failure to restore Ca 2+ homeostasis after depolarization in YG8R CGNs. (A–C) CGNs were loaded with Fluo4-AM (A) and challenged with 30 mM KCL (B) , amplitudes were measured and showed a higher response in YG8R than Control ( C ; ∗ p < 0.05). (D,E) CGNs response to 1 μM Thapsigargin and 1mM CaCl 2 , and relative amplitudes ( ∗∗∗ p < 0.0005). Scale bar (20 μm).
PubMed: paper-eba56eb9e84f
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pmidpaper-eba56eb9e84f
captionFailure to restore Ca 2+ homeostasis after depolarization in YG8R CGNs. (A–C) CGNs were loaded with Fluo4-AM (A) and challenged with 30 mM KCL (B) , amplitudes were measured and showed a higher
image_urlhttps://www.ebi.ac.uk/europepmc/articles/PMC6176067/bin/fncel-12-00264-g003.jpg
paper_titleCalcium Deregulation: Novel Insights to Understand Friedreich's Ataxia Pathophysiology.
figure_labelFIGURE 3
figure_number3
_schema_version1
source_strategypmc_api
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