HGH FRAGMENT 176-191
HGH-Fragment 176-191 is a synthetic peptide fragment derived from the C-terminal region of human growth hormone (amino acids 176–191).
Unlike full-length HGH, this 16-amino-acid fragment selectively influences lipid metabolism without directly affecting insulin-like growth factor 1 (IGF-1) levels or cell proliferation.
In pre-clinical and in-vitro studies, HGH Fragment 176-191 has been shown to stimulate lipolysis (fat breakdown) and inhibit lipogenesis (fat formation), making it a valuable research compound for understanding metabolic regulation, obesity mechanisms, and energy utilization pathways.
Price range: $49.00 through $100.00
Lipolytic and Fat Metabolism Research
- Selectively binds to adipose tissue cell receptors associated with lipid mobilization.
- Demonstrated to enhance lipolysis (fat breakdown) and inhibit lipogenesis (fat accumulation) in cell culture and animal models.
- Provides a research model for studying GH-independent metabolic pathways and fat oxidation mechanisms.
Energy Utilization and Thermogenesis Studies
- Promotes fatty-acid oxidation and increased cellular energy expenditure through mitochondrial activation pathways.
- Enables research into energy balance, ATP production, and thermogenic gene expression.
- Useful for investigating how GH-derived fragments affect cellular metabolic rate without growth hormone side effects.
Glucose Metabolism and Insulin Sensitivity Models
- Provides data on how GH fragments affect glucose homeostasis, insulin signaling, and energy partitioning.
- Used to study the distinction between full GH and fragment-specific metabolic effects on carbohydrate metabolism.
Muscle Preservation and Body Composition Research
- Shown in pre-clinical models to preserve lean muscle mass while reducing adipose tissue accumulation.
- Offers a controlled platform for studying GH-fragment-induced body composition changes and protein turnover.
Cellular Regeneration and Mitochondrial Efficiency Studies
- May promote cellular repair by enhancing energy availability and reducing oxidative stress.
- Serves as a model compound for examining growth factor signaling, AMPK activation, and mitochondrial metabolism.
Peptide Specificity and Safety Profile Research
- Distinct from full HGH, this fragment lacks pro-proliferative effects associated with insulin or IGF-1 receptor activation.
- Valuable in comparing targeted GH-fragment actions versus systemic growth hormone activity.
This product is supplied strictly for laboratory research use only. It is not a drug, food, or cosmetic and must not be administered to humans or animals. Proper handling procedures and safety protocols should be followed by trained professionals when working with this material.
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Disclaimer: For Research Use Only
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Any references to specific peptides, studies, or potential biological functions are provided strictly for informational and educational purposes. Such content must not be considered medical, health, or legal advice, nor encouragement for non-research use.
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