Solstice Genomics

Customized testing and reporting for your practice or business.

Genetics-based Fitness!

At Solstice Genomics, we focus on providing cutting-edge SNP analysis tailored for personal trainers, gyms, and fitness professionals. Our mission is to help you offer personalized fitness programs that maximize results and set you apart in a competitive market. By integrating genetic insights into your training plans, you can deliver customized, science-backed fitness solutions that enhance your clients’ performance, health, and satisfaction.

Gain a Competitive Edge

In today’s fitness industry, personalization is key. With Solstice Genomics, you can offer bespoke fitness plans based on your clients’ unique genetic makeup. This advanced service not only differentiates your business but also adds immense value to your training programs, attracting more clients and boosting retention rates.

DNA based fitness equipment
Chef with DNA based recipe ingredients

DNA-based Diets!

Nutrigenetics is the study of how variations in individual genes affect an individual’s response to specific nutrients or dietary patterns. This field focuses on identifying specific genetic variations that impact nutrient metabolism, absorption, and utilization, and how these variations can affect an individual’s risk for certain diseases. Nutrigenetics research aims to identify how genetic variations can affect an individual’s response to dietary interventions and identify personalized dietary recommendations based on an individual’s genetic makeup.

ACTN3

ACTN3

Exploring the ACTN3 Gene: How It Influences Strength, Speed, and Athletic Performance The ACTN3 gene is known as the “speed gene,” playing a critical role in muscle function and athletic ability. Trainers can leverage insights into the ACTN3 gene to personalize...

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PPARG2 and Personalizing Fitness with Genetics

PPARG2 and Personalizing Fitness with Genetics

PPARG2 and the Pro12Ala (C>G) Polymorphism: Optimizing Fitness with Genetic Insights The PPARG2 (Peroxisome Proliferator-Activated Receptor Gamma 2) gene plays a critical role in regulating metabolism, particularly in fat storage, glucose metabolism, and insulin...

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COMT and Neurotransmitter  Balance

COMT and Neurotransmitter Balance

Understanding Variants of the COMT Gene and Their Impact on Health The COMT (Catechol-O-Methyltransferase) gene plays a crucial role in the breakdown of catecholamines, including dopamine, epinephrine, and norepinephrine. Variants of this gene can significantly...

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The CLOCK Gene and Circadian Rhythm

The CLOCK Gene and Circadian Rhythm

Individuals with an unfavorable genotype for the CLOCK gene, such as the risk allele for SNP rs1801260, may experience various signs and symptoms related to disrupted circadian rhythms. One common symptom is sleep disturbances, which can include difficulty falling...

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APOE

APOE

APOE (Apolipoprotein E) is crucial for lipid transport and metabolism in the body. This protein regulates lipid homeostasis and maintains brain function. In nutrigenomics, the APOE genotype significantly influences individual responses to dietary factors. APOE...

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The TAS2R38 gene

The TAS2R38 gene

TAS2R38 codes for a taste receptor protein located on taste buds, specifically involved in perceiving bitter tastes. Genetic variations in the TAS2R38 gene result in different forms of the receptor protein, leading to variations in an individual's ability to taste...

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