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Verified Purity. Proven Integrity.
At HERO Peptides, every batch is third-party tested right here in the United States to ensure unmatched research-grade purity and accuracy. We don’t just claim “>99% purity” — we prove it. Each product is verified through independent laboratory analysis, including HPLC and Mass Spectrometry, to confirm molecular identity, purity, and consistency. Every COA is transparent, traceable, and available for you to review before you order.
≥99% Pure
3X Tested
U.S Lab Tested
*Disclaimer:
This product is intended solely for laboratory research purposes. It is not suitable for consumption by humans, nor for medical, veterinary, or household purposes.
Researchers should handle Agomelatine with care and adhere to strict safety guidelines during experiments. Kindly review our Terms & Conditions before making a purchase.
DESCRIPTION
Signal transduction peptides are used in RUO studies to explore how cells send and receive messages. These signals help control how cells grow, repair themselves, and respond to stress. Researchers use these peptides in lab models to better understand how communication inside cells works—and what happens when it doesn’t.
Exciting Areas of Study
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How cellular signals initiate chain reactions in lab models.
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Peptide effects on messaging pathways like MAPK & PI3K.
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How cells respond to stress in lab models.
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Model disrupted signaling seen in pre-clinical disease research.
Research Applications
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Map how cell signals change under different conditions
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Test how peptides influence key response pathways
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Study how signaling balance affects cell behavior over time
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Tesamorelin is an N-terminally modified GHRH(1-44) analog used in RUO signal-transduction models to interrogate GPCR-driven cAMP/PKA signaling and CREB-linked transcription. Studies often quantify receptor engagement, second messengers, and downstream gene expression. Not intended for diagnostic or therapeutic use.
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GHRH-R coupling and cAMP kinetics
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PKA/CREB pathway transcriptional readouts
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Comparisons vs. native GHRH and shorter analogs
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Name Tesamorelin Acetate
SynonymsTesamorelin; Egrifta; t-3-Hexenoyl-GHRH(1-44)-NH2
Sequence t-3-Hexenoyl-Tyr-Ala-Asp-Ala-Ile-Phe-Thr-Asn-Ser-Tyr-Arg-Lys-Val-Leu-Gly-Gln-Leu-Ser-Ala-Arg-Lys-Leu-Leu-Gln-Asp-Ile-Met-Ser-Arg-Gln-Gln-Gly-Glu-Ser-Asn-Gln-Glu-Arg-Gly-Ala-Arg-Ala-Arg-Leu-NH2
Molecular Formula C221H366N72O67S (free base)
Molecular Weight~5135.8 g/mol (free base)
CAS Number 218949-48-5 (base)
Appearance White to off-white lyophilized powder
Solubility Soluble in sterile or bacteriostatic water
Purity≥99% (HPLC), lot-specific
Storage Guidelines• Lyophilized: ≤0°F (–18°C), dry, protected from light/moisture
• Reconstituted: 36–46°F (2–8°C); short-term only
• Long-Term: Store dry at ≤−20°C; avoid freeze–thawThis product is intended solely for laboratory research purposes. It is not suitable for human, animal, or household use. Researchers must follow institutional safety protocols. See our Terms & Conditions and our Research Compliance Disclaimers for details.
GLP-3RT 10MG
- GLP-3RT Research-use-only next-gen triple agonist GLP peptide engaging GLP-1, GIP, and Glucagon pathways. Studied in bioenergetic models of appetite, glucose handling, and multi-receptor metabolic signaling. Assesses multi-pathway energy signaling. Explores stress-adaptive metabolism.
BAC Water Sold Separately - Syringes Not Included | Peptides sold in powdered form.
DESCRIPTION
Category Overview | Bioenergetic Pathway Modulators
Bioenergetic peptides are used in RUO studies to explore how cells generate, manage, and recover energy. These compounds interact with key metabolic pathways—especially mitochondrial ATP output and redox signaling—making them essential tools for researchers investigating energy dysfunction, oxidative stress, and cell viability under stress conditions.
Exciting Areas of Study
Modulation of ATP output in energy-restricted cellular environments
Pre-clinical insights into mitochondrial performance
Stress-induced metabolic pathway behavior in controlled assays
Early-stage models of energy dysregulation across tissue types
Insulin sensitivity & glucose regulation in cell-based assays
Introduction
GLP-3 is a research-use-only, triple agonist incretin-pathway analog engaging GLP-1 + GIP + Glucagon receptors. Investigations probe multi-receptor signaling integration, mitochondrial efficiency, and redox-sensitive responses in vitro. Not intended for diagnostic or therapeutic use.
Triple-receptor incretin/glucagon signaling models
Energy balance and metabolic stress studies
Redox and mitochondrial efficiency assessments
Molecular Identity & Composition
Name GLP-3 Research Analog (Triple GLP-1 + GIP + Glucagon Agonist)
Synonyms Triple incretin/glucagon analog | GLP-1/GIP/GCGR co-agonist
Sequence 39-aa peptide with lipidation; KEGG motif: YXQGTFTSDY SILLDKKAQX AFIEYLLEGG PSSGAPPPS (X = non-canonical residue)
Molecular Formula C221H342N46O68
Molecular Weight≈4731.34 g/mol (free base)
CAS Number 2381089-83-2
Appearance White to off-white lyophilized powder
Solubility Soluble in sterile water or bacteriostatic water
Purity ≥99% (HPLC)
Storage Guidelines• Lyophilized: ≤0°F (–18°C), dry, protected from light • Reconstituted: 36–46°F (2–8°C); avoid repeat freeze–thaw • Long-Term: Keep dry and frozen until use
Values correspond to a triple GLP-1/GIP/Glucagon receptor agonist analog (retatrutide-class): formula, mass, sequence motif, and CAS per primary sources.
Research Use Disclaimer
This product is intended solely for laboratory research purposes. It is not suitable for human, animal, or household use. Researchers must follow institutional safety protocols. See our Terms & Conditions and our Research Compliance Disclaimers for details.
