What Is the Longevity-Aging Pathway in Genetic Testing?
The Longevity-Aging pathway in the Precision Peptide Genetic Test delivers 17 insights organized across five functional clusters — antioxidant defense, NAD+ homeostasis, methylation, longevity transcription factors, and structural aging biology. Part of 14 pathways, 49 peptides, and 150+ genetic insights, these 17 variants map biological aging as a connected system, not a list of isolated risk genes.
How Does Genetics Affect Antioxidant Capacity? A Complete Guide
Antioxidant capacity is not a single number — it is the combined genetic output of five overlapping enzyme systems, each with its own variant layer. The Precision Peptide Genetic Test maps SOD2, GPX1, GCLC, NFE2L2, FOXO3, and more across 14 pathways, 49 peptides, and 150+ genetic insights, revealing the genetic architecture your antioxidant biology is built on.
What Genes Affect Glutathione Production? Your Genetic Guide
Glutathione synthesis, recycling, and detoxification capacity are all genetically variable — GCLC, GCLM, GSR, GPX1, GSTM1, and NFE2L2 each shape a different step. The Precision Peptide Genetic Test maps these variants across 14 pathways, 49 peptides, and 150+ genetic insights, revealing where your antioxidant production is genetically strongest and where it leaks.
Mitochondrial Function and Genetics: The Cellular Energy Story
Mitochondria generate the energy that powers every biological process — and mitochondrial decline is one of the most upstream drivers of aging. NRF2, KLOTHO, SOD2, SIRT1, FOXO3, and MTHFR all converge on mitochondrial biology. The Precision Peptide Genetic Test analyzes 17 Longevity & Aging insights spanning 14 pathways, 49 peptides, and 150+ genetic insights.