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Tissue Regeneration Research Bundle (BPC-157, TB-500, MOTS-c)

Original price was: $190.00.Current price is: $175.00.

Three of our most popular research peptides, including BPC-157 (10mg), TB-500 (10mg), and MOTS-c (10mg) bundled together to provide everything needed to investigate vascular endothelial growth factor (VEGF) pathways, actin dynamics, and mitochondrial signaling in one convenient, cost-effective package.

  • Total Value: $190.00

  • Bundle Price: $175.00 (You Save $15.00)

  • Shipping: Free Shipping Included

Research use only. Not for human use or consumption.

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BPC-157 10mg peptide vial

BPC-157

BPC-157 peptide studied in preclinical tissue integrity and vascular signaling models. Available in 10mg and 40mg lyophilized vials. Third-party tested, 99% purity. For research use only.

TB-500 10mg peptide

TB-500 10mg

Scientific research has investigated the potential of TB-500, a synthetic version of Thymosin Beta-4, for its role in tissue repair, circulation enhancement, and inflammation modulation. Studies have explored its possible effects on musculoskeletal recovery, angiogenesis (the formation of new blood vessels), and systemic healing, making it an area of interest in the field of regenerative medicine.

In stock

MOTS-C 10mg peptide from Protide Health for Mitochondrial Function and Energy.

MOTS-c

Buy MOTS-c 10mg-20mg online at Protide Health. Mitochondrial peptide for energy, metabolism & endurance research studies. 99% purity, USA-made, third-party tested (HPLC/Mass Spec).

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  • Done 99% Purity (HPLC-MS Verified)
  • Done Independent Third-Party Tested
  • Done USA GMP Manufactured
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  • Done Ships in 24 Hours (USA)
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    Disclaimer: This product is intended solely for laboratory research purposes. It is not for human consumption, medical use, veterinary use, or household application. All product information on this website is provided for educational purposes only. Researchers must handle this product with appropriate safety protocols and comply with all applicable regulations. Please review our Terms & Conditions before purchasing.

    Tissue Regeneration Research Bundle

    The Tissue Regeneration Research Bundle provides investigators with a multi-pathway solution for in vitro and preclinical models. This strategic combination integrates BPC-157, TB-500, and MOTS-c to examine vascular, structural, and energetic mechanisms in controlled laboratory environments.

    Components of the Tissue Regeneration Research Bundle

    The Tissue Regeneration Research Bundle integrates three distinct peptides for comprehensive cellular analysis. Researchers utilize these compounds to observe complex signaling networks and biological pathways.

    BPC-157

    BPC-157 is a 15-amino-acid synthetic peptide. Laboratory studies investigate its interaction with VEGFR2 signaling pathways for angiogenesis (new blood vessel formation) (PMC). Preclinical models examine mechanisms including:

    • EGR-1 transcription factor expression

    • Nitric oxide synthesis modulation

    • ERK1/2 phosphorylation markers

    Investigators can source BPC-157 10mg for dedicated vascular modeling.

    TB-500

    TB-500 functions as a synthetic analog of Thymosin Beta-4 (Tβ4). In vitro research measures its influence on actin, a cytoskeletal protein controlling cellular structure (PubMed). Animal models examine:

    • Endothelial cell differentiation

    • Keratinocyte migration rates

    • Myofibroblast activity modulation

    MOTS-c

    MOTS-c is a 16-amino-acid mitochondrial-derived peptide. Scientists investigate its role in the Folate-AICAR-AMPK pathway during metabolic stress (PubMed). Experimental models monitor:

    • AMPK-mediated cellular energy production

    • Glucose uptake markers in skeletal muscle

    • Anti-inflammatory cytokine signaling

    Researchers evaluate MOTS-c 10mg to model metabolic homeostasis.

    Synergistic Pathway Modulation

    The combination of these peptides allows investigators to model multifaceted cellular processes. Research hypothesizes that overlapping mechanisms modulate cellular signaling across distinct biological dimensions.

    Peptide ComponentPrimary Cellular TargetInvestigated Laboratory Mechanism
    BPC-157VEGFR2 and eNOSVascular signaling and angiogenesis
    TB-500Cytoskeletal ActinCellular migration and structural formation
    MOTS-cAMPK PathwayMitochondrial bioenergetics and energy regulation

    Research Protocols and Experimental Considerations

    Current research lacks standardization for this specific three-peptide combination. Long-term co-administration data remains absent in current scientific literature. Typical study designs involve rodent models to measure shifts in metabolic and structural markers over predefined observation periods.

    Investigators must develop internal laboratory parameters for compound analysis. Research groups focusing on these pathways include:

    • Musculoskeletal modeling researchers

    • Exercise physiology investigators

    • Mitochondrial bioenergetics scientists

    For comprehensive methodological approaches, consult our peptide guides.

    Frequently Asked Questions

    Why integrate MOTS-c into structural peptide models?

    BPC-157 and TB-500 target vascular and structural dimensions in laboratory models. MOTS-c provides a metabolic dimension, allowing researchers to examine the cellular energy production mechanisms essential for cell proliferation and angiogenesis.

    References

    1. Vasireddi A et al. Regeneration or risk? A narrative review of BPC-157 for musculoskeletal healing. PMC

    2. Chang CH et al. BPC-157 enhances tendon healing involving growth hormone receptor upregulation. PubMed

    3. Malinda KM et al. Thymosin beta4 accelerates wound healing. PubMed

    4. Lee C et al. The mitochondrial-derived peptide MOTS-c promotes metabolic homeostasis. PubMed

    5. Reynolds JC et al. MOTS-c is an exercise-induced mitochondrial-encoded regulator. PubMed

    6. Wan W et al. Mitochondria-derived peptide MOTS-c: effects and mechanisms. PubMed

    7. Lu Z et al. MOTS-c modulates skeletal muscle function by directly binding and regulating CK2α. iScience

    8. Zheng Y et al. MOTS-c: A promising mitochondrial-derived peptide for therapeutic exploitation. PMC

    9. Kim MS et al. Exercise, mitohormesis, and MOTS-c. PMC

    Legal Disclaimer

    The information provided is for educational and research purposes only. The compounds included in this bundle are intended solely for investigational use in controlled laboratory and in vitro settings by qualified researchers. Protide Health does not endorse or promote the use of these compounds for the diagnosis, treatment, cure, or prevention of any disease. Products sold by Protide Health are strictly for laboratory research purposes and are not intended for human consumption, medical use, or veterinary application.

    BPC-157

    Select vial strength:

    10mg

    MOTS-c

    Select vial strength:

    10mg

    FAQs

    We partner exclusively with ISO 9001:2015 certified, GMP-compliant facilities in the USA. Every batch is rigorously tested for analytical purity and molecular identity before being approved for release.

    Yes. All compounds undergo independent HPLC-MS (Mass Spectrometry) testing to confirm 99%+ purity, identity, and the absence of contaminants.

    Lyophilized (freeze-dried) vials remain stable for up to 24 months when stored properly at -20°C. Once reconstituted, vials should be refrigerated at 2°C to 8°C and utilized within your research protocol timeframe.

    Lyophilized (Unmixed) Vials: Store away from direct sunlight in a cool, dry environment. For long-term preservation, refrigeration (2–8°C) or freezing (-20°C) is recommended.
    Reconstituted Vials: Must be refrigerated immediately at 2–8°C to maintain stability. Utilize within your specific laboratory research protocol timeframe.

    We utilize secure, insulated packaging designed to maintain compound stability and prevent physical or UV damage during transit, ensuring your research materials arrive safely and securely.

    Once your order is confirmed, it is dispatched from our USA facility within 24 hours. Most orders arrive within 2–3 business days. As soon as your package ships, you will receive an email with your tracking number and estimated delivery date.

    Every order is shipped in secure, insulated packaging to maintain compound stability.
    Inside, you will receive:

    • Your lyophilized peptide vials in a premium, reusable magnetic storage case.
    • One complimentary vial of Bacteriostatic Water to use as a lab diluent.
    • A detailed reference card covering optimal storage, handling, and reconstitution best practices for your research.

    Our USA-based support team is here to help. Whether you need assistance with documentation, handling, or storage requirements, you can reach us anytime at support@protidehealth.com

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    All products available through Protide Health are strictly intended for scientific and laboratory research only—not for human or animal use, medicine, or treating any condition. By proceeding, I confirm I am 21+ years old, will follow all applicable laws, and accept that Protide Health and our affiliates are not responsible for how I use or store these items after delivery.

    YES, I'M 21 AND ABOVENO
    Recovery and Repair Research Bundle PeptideTissue Regeneration Research Bundle (BPC-157, TB-500, MOTS-c)
    Original price was: $190.00.Current price is: $175.00.Add to cart