What is the ACADVL gene?
Very-long-chain acyl-CoA dehydrogenase catalyzing the first beta-oxidation step for long-chain fatty acids.
How ACADVL affects metabolism
When ACADVL-related function is shifted, the practical effect is interpreted through fatty-acid oxidation, mitochondrial transport, organic-acid handling, or high-demand energy metabolism. This does not mean the pathway is active or impaired right now; it means the gene can help prioritize what to check next.
What happens when ACADVL is altered
Altered ACADVL signal should be treated as a DNA-based tendency, not a diagnosis. 1 claim currently passes the report-use gate. The useful question is whether symptoms, labs, and lifestyle context line up with the pathway signal.
Curated SNP evidence for ACADVL
These SNPs come from the approved study-level evidence model. Each claim is scored from curated study rows, then gated before it can influence pathway scoring.
Evidence-backed report connection
ACADVL currently has 1 curated SNPs, 1 claim-level scores, and 1 claims eligible for pathway scoring.
Open the sample reportrs113994167ACADVL c.848T>C / Val283Ala1 claims · 2 study rows
enzyme activity · CC
VLCAD activity tendency
rs113994167 CC / ACADVL c.848T>C p.Val283Ala is associated with lower very-long-chain acyl-CoA dehydrogenase activity tendency.
ACADVL rs113994167 C is staged as a recessive VLCAD deficiency allele affecting mitochondrial very-long-chain fatty-acid oxidation.
Show study evidence
Common symptoms people report
- low energy under fasting, illness, or exercise
- slow recovery after exertion
- fatigue that feels out of proportion to workload
Biomarkers to validate
CBC, ferritin, and thyroid context
Rules out common non-DNA explanations for low energy.
Glucose and HbA1c
Checks whether fuel handling is adding pressure.
Organic acids or acylcarnitines when available
Adds more specific mitochondrial and fatty-acid oxidation context.
Where DNA analysis helps
DNA helps decide whether ACADVL deserves attention inside the broader Mitochondrial energy pathway. It is most useful when combined with biomarkers instead of used as a standalone answer.
Example interpretation
ACADVL may add context to fatty-acid oxidation, mitochondrial transport, organic-acid handling, or high-demand energy metabolism, especially when its SNP evidence lines up with other genes in the same pathway.
Suggested validation: CBC, ferritin, and thyroid context.
What to do next
- Review the Mitochondrial energy pathway result before interpreting ACADVL on its own.
- Use relevant biomarkers to confirm whether this DNA tendency is visible in current biology.
- Treat supplement or nutrition decisions as follow-up steps only after the pattern fits symptoms or labs.
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