NAD+ 100mg / Mots-C 10mg / 5-Amino-1MQ 10mg
NAD+ 100mg • MOTS‑C 10mg • 5‑Amino‑1MQ 10mg
Metabolic Optimization & Mitochondrial‑Support Peptide Blend • Lyophilized • Research Use Only
Description: This research‑grade formulation combines three synergistic metabolic modulators—NAD+, MOTS‑C, and 5‑Amino‑1MQ—to create a multi‑pathway model for studying cellular energy production, fat metabolism, insulin sensitivity, and anti‑aging biology. Together, these compounds are frequently explored in research involving mitochondrial repair, metabolic enhancement, body‑composition regulation, and cellular rejuvenation.
Each component targets a distinct mechanism:
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NAD+ replenishes essential redox cofactors and supports DNA repair.
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MOTS‑C regulates metabolic homeostasis and improves nutrient utilization.
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5‑Amino‑1MQ inhibits NNMT to elevate intracellular NAD+ and increase energy expenditure.
Specifications
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Compounds:
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NAD+ — 100mg
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MOTS‑C — 10mg
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5‑Amino‑1MQ — 10mg
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Total Active Content: 120mg per vial
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Purity: ≥99.8%
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Form: Lyophilized powder
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Storage:
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Store at –20°C (–4°F)
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Protect from moisture and prolonged light exposure
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After reconstitution, refrigerate at 2–8°C (36–46°F); use within 30 days
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Grade: Research Use Only — Not for human consumption, therapeutic, or diagnostic use
Mechanistic Overview
NAD+ (100mg) — Cellular Energy & DNA Repair
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Essential coenzyme for ATP production and mitochondrial respiration
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Supports PARP‑mediated DNA repair and genomic stability
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Studied for roles in inflammation control, cognitive clarity, and metabolic resilience
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Central to sirtuin activation, longevity pathways, and redox balance
MOTS‑C (10mg) — Mitochondrial‑Derived Metabolic Regulator
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Enhances insulin sensitivity and glucose utilization
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Supports AMPK activation, improving metabolic efficiency
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Studied for effects on exercise performance, recovery, and mitochondrial quality
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Regulates cellular stress responses and metabolic homeostasis
5‑Amino‑1MQ (10mg) — NNMT Inhibitor & NAD+ Amplifier
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Inhibits NNMT, preventing NAD+ depletion
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Promotes smaller adipocyte size and reduced fat storage
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Increases energy expenditure and metabolic rate in research models
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Explored for its role in cellular energetics and metabolic optimization
Synergistic Research Effects
Enhanced Weight‑Management Models
The combination supports:
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Reduced fat mass, particularly in metabolically active tissues
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Preservation of lean muscle during caloric or metabolic stress
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Improved nutrient partitioning and energy utilization
Optimized Metabolic Function
Research highlights improvements in:
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Insulin sensitivity
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Glucose metabolism
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Mitochondrial efficiency
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Lipid oxidation
Cellular Rejuvenation & Anti‑Aging
The blend is frequently studied for its ability to:
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Replenish critical NAD+ pools
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Support DNA repair and genomic maintenance
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Reduce oxidative stress and inflammatory load
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Enhance cognitive performance and mitochondrial resilience
Improved Athletic Output
Models show potential for:
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Faster recovery times
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Reduced muscle soreness
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Increased exercise capacity and endurance
Research Focus Areas
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Mitochondrial function and bioenergetics
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Metabolic health, insulin sensitivity, and glucose regulation
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Fat metabolism, adipocyte biology, and body‑composition studies
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Longevity, anti‑aging pathways, and cellular repair
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Exercise physiology and performance‑recovery models
NOTICE
FOR LABORATORY RESEARCH USE ONLY. NOT FOR HUMAN CONSUMPTION.