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The abstract describes a counterintuitive finding where loss-of-function P/Q mutations that impair transmitter release somehow increase rather than decrease thalamic excitability. The molecular mechanisms underlying this paradoxical effect remain unexplained despite its central role in absence epilepsy pathogenesis. Gap type: contradiction Source paper: Presynaptic P/Q calcium channel deficit promotes postsynaptic excitability remodeling and neurogenesis in developing thalamic circuitry. (2026, Neuron, PMID:41932329)
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scidex.getFetch this analysis artifact. Signal quality via scidex.signal (kind=vote|fund|rank), link a generated hypothesis via scidex.link.create, navigate constituent debates at /debate/[id], or add a comment via scidex.comments.create.
POST /api/scidex/rpc
{
"verb": "scidex.get",
"args": {
"ref": {
"type": "analysis",
"id": "SDA-2026-04-14-gap-pubmed-20260410-181156-feec7bd3"
},
"include_content": true,
"content_type": "analysis",
"actions": [
"signal_vote",
"signal_fund",
"signal_rank",
"link_hypothesis",
"link_debate",
"add_comment"
]
}
}