Recovery is where muscle growth actually happens — and your genetics determine how quickly and completely that process runs. IL-6, ACTN3, IGF1, GHSR, VDR, and ACE variants all shape different dimensions of post-exercise repair. The Precision Peptide Genetic Test analyzes all of them across 15 Muscle Growth insights spanning 14 pathways, 49 peptides, and 150+ genetic insights.

Not exactly — but it reveals the biological architecture athletic training response is built on. Genetic testing maps predispositions in fiber type (ACTN3), cardiovascular optimization (ACE), anabolic capacity (IGF1), and recovery (IL-6). The Precision Peptide Genetic Test delivers 15 Muscle Growth insights across 14 pathways, 49 peptides, and 150+ genetic insights.

Myostatin — encoded by the MSTN gene — is one of the most actively researched muscle growth regulators in exercise science. Your MSTN genotype determines how tightly this brake is set before any intervention. The Precision Peptide Genetic Test analyzes MSTN variants as part of 15 Muscle Growth insights across 14 pathways, 49 peptides, and 150+ genetic insights.

Multiple genes shape growth hormone response — from GHSR, which triggers GH pulses from the pituitary, to IGF1, which converts that signal into anabolic action, to ACTN3 and MSTN, which determine what the signal builds. The Precision Peptide Genetic Test analyzes all of them as part of 15 Muscle Growth insights across 14 pathways, 49 peptides, and 150+ genetic insights.

Struggling to build muscle despite consistent training? Genetics may be the missing variable. MSTN, ACTN3, IGF1, GHSR, and VDR variants all influence how your body responds to resistance training stimulus — from hypertrophy ceiling to anabolic signal strength to fiber architecture. The Precision Peptide Genetic Test analyzes 15 Muscle Growth insights across 14 pathways, 49 peptides, and 150+ genetic insights.

Yes — ACTN3 affects muscle growth by determining your fast-twitch versus slow-twitch fiber ratio, which shapes how aggressively your muscle fibers hypertrophy. The R577X variant produces three genotypes (RR, RX, XX) with meaningfully different hypertrophy profiles. The Precision Peptide Genetic Test analyzes ACTN3 as one of 15 Muscle Growth insights across 14 pathways, 49 peptides, and 150+ genetic insights.

Your response to growth hormone axis pathways isn’t shaped by a single gene — it’s the product of at least eight interacting genetic factors, from GH release (GHSR) to fiber architecture (ACTN3) to recovery capacity (IL-6). The Precision Peptide Genetic Test analyzes all as part of 15 Muscle Growth insights across 14 pathways, 49 peptides, and 150+ genetic insights.

Vitamin D levels get all the attention — but VDR, the gene encoding the vitamin D receptor, determines whether those levels actually translate into muscle function. VDR variants influence protein synthesis, calcium handling, and satellite cell activity. The Precision Peptide Genetic Test analyzes VDR as one of 15 Muscle Growth insights across 14 pathways, 49 peptides, and 150+ genetic insights.

IGF-1 — the primary mediator of growth hormone signaling — converts GH axis activation into muscle growth, tissue repair, and anabolic adaptation. The Precision Peptide Genetic Test analyzes IGF1 variants as part of 15 Muscle Growth insights across 14 pathways, 49 peptides, and 150+ genetic insights — revealing how efficiently your biology converts growth hormone signals into action.

Myostatin — encoded by the MSTN gene — is the body’s primary biological brake on muscle mass accumulation. The Precision Peptide Genetic Test analyzes MSTN variants as part of 15 Muscle Growth insights across 14 pathways, 49 peptides, and 150+ genetic insights — revealing how tightly your genetics constrain your hypertrophy ceiling.

The ACTN3 R577X variant — known as the “sprint gene” — determines your muscle fiber type composition, shaping how your body builds power, recovers from training, and responds to growth hormone axis pathways. The Precision Peptide Genetic Test includes ACTN3 as one of 15 Muscle Growth insights across 14 pathways, 49 peptides, and 150+ genetic insights.

The Precision Peptide Genetic Test analyzes 15 muscle growth insights — ACTN3, IGF1, MSTN, GHSR, and GHR — within a panel of 14 pathways, 49 peptides, and 150+ genetic insights. This pillar guide breaks down each muscle gene, what it reveals about fiber type and growth response, and why your DNA is the most underused variable in any muscle protocol.