MIG1
S. cerevisiae
transcription factor MIG1
What the model saw
Gene: MIG1 Organism: Saccharomyces cerevisiae Known functions: transcription factor MIG1. DNA-binding transcription repressor activity, RNA polymerase II-specific. RNA polymerase II cis-regulatory region sequence-specific DNA binding. protein binding. sequence-specific DNA binding. zinc ion binding.
View unredacted entry
transcription factor MIG1. DNA-binding transcription repressor activity, RNA polymerase II-specific. RNA polymerase II cis-regulatory region sequence-specific DNA binding. protein binding. sequence-specific DNA binding. zinc ion binding.
Solver output
MIG1 is a zinc-finger transcriptional repressor that mediates glucose repression in S. cerevisiae, acting downstream of the Snf1/AMPK pathway. Under high glucose conditions, MIG1 is active and represses genes involved in alternative carbon source utilization, gluconeogenesis, and respiration — including genes regulated by the Snf1 kinase pathway. This repression of metabolic flexibility and mitochondrial respiration mimics a nutrient-sensing state that opposes longevity. Snf1/AMPK activation (which inactivates MIG1) is a well-established pro-longevity signal in yeast, analogous to AMPK activation in higher eukaryotes. Therefore, MIG1's normal function as a glucose-responsive repressor promotes a high-nutrient signaling state that shortens lifespan, placing it in opposition to longevity.
GenAge curators classify each gene's normal function as promoting (Pro-Longevity) or opposing (Anti-Longevity) longevity, based on synthesis across studies. Loss-of-function effects can vary from this depending on the manipulation.
Advisor judgment
The model correctly predicted MIG1 as anti_longevity with high confidence (0.78). The mechanistic reasoning is excellent: MIG1 is accurately described as a zinc-finger transcriptional repressor mediating glucose repression downstream of Snf1/AMPK. The model correctly identifies that MIG1 represses metabolic flexibility and respiration under high glucose, and that Snf1 activation (which inactivates MIG1) is pro-longevity. The connection to nutrient sensing and the analogy to AMPK signaling in higher eukaryotes is well-reasoned and accurate. The mechanism class "deregulated_nutrient_sensing" is appropriate.
Raw API responses
solver
{
"reasoning": "MIG1 is a zinc-finger transcriptional repressor that mediates glucose repression in S. cerevisiae, acting downstream of the Snf1/AMPK pathway. Under high glucose conditions, MIG1 is active and represses genes involved in alternative carbon source utilization, gluconeogenesis, and respiration — including genes regulated by the Snf1 kinase pathway. This repression of metabolic flexibility and mitochondrial respiration mimics a nutrient-sensing state that opposes longevity. Snf1/AMPK activation (which inactivates MIG1) is a well-established pro-longevity signal in yeast, analogous to AMPK activation in higher eukaryotes. Therefore, MIG1's normal function as a glucose-responsive repressor promotes a high-nutrient signaling state that shortens lifespan, placing it in opposition to longevity.",
"confidence": 0.78,
"key_pathways": [
"glucose repression / Snf1-AMPK signaling",
"carbon catabolite repression",
"nutrient sensing and metabolic flexibility"
],
"mechanism_class": "deregulated_nutrient_sensing",
"longevity_influence": "anti_longevity"
}advisor
{
"notes": "The model correctly predicted MIG1 as anti_longevity with high confidence (0.78). The mechanistic reasoning is excellent: MIG1 is accurately described as a zinc-finger transcriptional repressor mediating glucose repression downstream of Snf1/AMPK. The model correctly identifies that MIG1 represses metabolic flexibility and respiration under high glucose, and that Snf1 activation (which inactivates MIG1) is pro-longevity. The connection to nutrient sensing and the analogy to AMPK signaling in higher eukaryotes is well-reasoned and accurate. The mechanism class \"deregulated_nutrient_sensing\" is appropriate.",
"failure_mode": "correct",
"answer_correct": true,
"mechanism_correct": true,
"reasoning_quality": 5,
"ground_truth_questionable": false
}