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BPC-157 10mg(BPC Pentadecape)
(Pentadecapeptide–15 Amino Acids)
( Product no. 871-35 )
£33.99
BPC-157: Studied for Cellular Signalling and Tissue Integrity
BPC-157 is a synthetic research peptide modelled on a fragment of a gastric derived protein sequence, widely used in laboratory studies exploring repair associated signalling pathways. In vitro research commonly evaluates its influence on endothelial cell function markers, angiogenic signalling readouts, and nitric oxide related pathways under controlled conditions. Additional study themes include cytokine profiling, oxidative stress assays, and cell survival measurements.
BPC-157 10mg
(BPC Pentadecape)
Premium Grade | UK Supply
Product Overview
BPC-157 is a synthetic pentadecapeptide composed of 15 amino acids and derived from a naturally occurring sequence found within gastric proteins. It is extensively studied in molecular and regenerative research for its role in cellular signalling, tissue organisation, and biological repair pathways. Due to its endogenous origin and broad spectrum of biological activity, BPC-157 has become one of the most widely researched peptides in regenerative and biochemical science. In laboratory research environments, BPC-157 is utilised to investigate complex signalling networks involved in tissue integrity, vascular organisation, and cellular communication. Its stability and resistance to enzymatic degradation allow for consistent experimental evaluation, making it a valuable compound in controlled research models focused on regeneration and repair mechanisms. BPC-157’s diverse molecular interactions and strong presence in scientific literature position it as a cornerstone peptide for advanced studies in regenerative biology and peptide-based signalling research.
Scientific Background
BPC-157 originates from a protective protein sequence identified in gastric tissue and is known for its interaction with multiple molecular pathways involved in tissue repair and cellular resilience. Scientific research indicates that BPC-157 influences signalling systems related to angiogenesis, nitric oxide modulation, and extracellular matrix organisation, all of which play critical roles in coordinated tissue regeneration processes. At the molecular level, BPC-157 has been shown to affect gene expression linked to growth factor signalling, cytoskeletal organisation, and inflammatory response modulation. Its interaction with the nitric oxide system is of particular interest, as this pathway contributes to vascular stability, cellular communication, and adaptive tissue responses in regenerative research models. Unlike endocrine peptides, BPC-157 does not operate through hormone receptor pathways, instead exerting its effects through localised cellular signalling and molecular repair mechanisms. This distinct mode of action makes it especially valuable for studying tissue-level regeneration independent of systemic endocrine influence.
(Recommend, Reconstitute with-Acetic Acid)
Research Applications
BPC-157 is extensively researched in regenerative biology, molecular science, and vascular research, particularly in studies examining tissue repair signalling, angiogenesis, and extracellular matrix restoration. Researchers utilise BPC-157 to explore how coordinated molecular pathways contribute to tissue stability and regenerative outcomes in controlled experimental environments. In vascular and endothelial research, BPC-157 is studied for its involvement in blood vessel organisation, nitric oxide signalling regulation, and cellular resilience mechanisms. These investigations provide insight into how peptides can influence complex vascular and regenerative systems at a molecular level. Additionally, BPC-157 is employed in advanced research focused on inflammatory signalling modulation, cytoskeletal repair, and cellular communication networks. Its multifunctional molecular activity and extensive documentation make BPC-157 one of the most significant peptides in modern regenerative and repair-focused scientific research.
(Read More About BPC-157 in our Article)
Technical Specifications
- Contents: 10mg BPC-157
- Form: Lyophilized powder
- Purity: >99% (HPLC Verified)
- Molecular Formula: C₆₂H₉₈N₁₆O₂₂
- Sequence: Gly-Glu-Pro-Pro-Pro-Gly-Lys-Pro-Ala-Asp-Gly-Leu-Val
- Peptide Length: 15 Amino-Acids
- pH Range: 4.0–7.0 • Storage: Store between 2°C and 8°C
Note: Reconstitute with 50% Bacteriostatic (BAC) water and 50% Acetic Acid for best results.
Related Research Compounds
Thymosin 10mg
TB500 10mg
LL-37 10mg
Internal Research Sources
Trade supply
Peptides sets
Bulk purchase range
Disclaimer
BPC-157 is a synthetic research peptide modelled on a fragment of a gastric derived protein sequence, widely used in laboratory studies exploring repair associated signalling pathways. In vitro research commonly evaluates its influence on endothelial cell function markers, angiogenic signalling readouts, and nitric oxide related pathways under controlled conditions. Additional study themes include cytokine profiling, oxidative stress assays, and cell survival measurements.
BPC-157 10mg
(BPC Pentadecape)
Premium Grade | UK Supply
Product Overview
BPC-157 is a synthetic pentadecapeptide composed of 15 amino acids and derived from a naturally occurring sequence found within gastric proteins. It is extensively studied in molecular and regenerative research for its role in cellular signalling, tissue organisation, and biological repair pathways. Due to its endogenous origin and broad spectrum of biological activity, BPC-157 has become one of the most widely researched peptides in regenerative and biochemical science. In laboratory research environments, BPC-157 is utilised to investigate complex signalling networks involved in tissue integrity, vascular organisation, and cellular communication. Its stability and resistance to enzymatic degradation allow for consistent experimental evaluation, making it a valuable compound in controlled research models focused on regeneration and repair mechanisms. BPC-157’s diverse molecular interactions and strong presence in scientific literature position it as a cornerstone peptide for advanced studies in regenerative biology and peptide-based signalling research.
Scientific Background
BPC-157 originates from a protective protein sequence identified in gastric tissue and is known for its interaction with multiple molecular pathways involved in tissue repair and cellular resilience. Scientific research indicates that BPC-157 influences signalling systems related to angiogenesis, nitric oxide modulation, and extracellular matrix organisation, all of which play critical roles in coordinated tissue regeneration processes. At the molecular level, BPC-157 has been shown to affect gene expression linked to growth factor signalling, cytoskeletal organisation, and inflammatory response modulation. Its interaction with the nitric oxide system is of particular interest, as this pathway contributes to vascular stability, cellular communication, and adaptive tissue responses in regenerative research models. Unlike endocrine peptides, BPC-157 does not operate through hormone receptor pathways, instead exerting its effects through localised cellular signalling and molecular repair mechanisms. This distinct mode of action makes it especially valuable for studying tissue-level regeneration independent of systemic endocrine influence.
(Recommend, Reconstitute with-Acetic Acid)
Research Applications
BPC-157 is extensively researched in regenerative biology, molecular science, and vascular research, particularly in studies examining tissue repair signalling, angiogenesis, and extracellular matrix restoration. Researchers utilise BPC-157 to explore how coordinated molecular pathways contribute to tissue stability and regenerative outcomes in controlled experimental environments. In vascular and endothelial research, BPC-157 is studied for its involvement in blood vessel organisation, nitric oxide signalling regulation, and cellular resilience mechanisms. These investigations provide insight into how peptides can influence complex vascular and regenerative systems at a molecular level. Additionally, BPC-157 is employed in advanced research focused on inflammatory signalling modulation, cytoskeletal repair, and cellular communication networks. Its multifunctional molecular activity and extensive documentation make BPC-157 one of the most significant peptides in modern regenerative and repair-focused scientific research.
(Read More About BPC-157 in our Article)
Technical Specifications
- Contents: 10mg BPC-157
- Form: Lyophilized powder
- Purity: >99% (HPLC Verified)
- Molecular Formula: C₆₂H₉₈N₁₆O₂₂
- Sequence: Gly-Glu-Pro-Pro-Pro-Gly-Lys-Pro-Ala-Asp-Gly-Leu-Val
- Peptide Length: 15 Amino-Acids
- pH Range: 4.0–7.0 • Storage: Store between 2°C and 8°C
Note: Reconstitute with 50% Bacteriostatic (BAC) water and 50% Acetic Acid for best results.
Related Research Compounds
Thymosin 10mg
TB500 10mg
LL-37 10mg
Internal Research Sources
Trade supply
Peptides sets
Bulk purchase range
Disclaimer
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How to Reconstitute Your Peptides
What You Will Need
- Lyophilized peptide vial
- Sterile solvent (such as bacteriostatic water or another suitable choice)
- 1 ml sterile syringe with a fine (29–30g) needle
- Sterile alcohol wipes
- Calculator for dilution and dosage accuracy
- Labels for marking each aliquot with concentration and date
- Sterile workspace or biosafety cabinet (recommended for best practice)
Preparation Steps
Allow the vial to reach room temperature
This helps prevent condensation, which can compromise sterility when you open the vial.
Draw up the solvent
Using a sterile syringe, measure the precise amount of bacteriostatic water or your chosen solvent.
Inject the solvent gently
Insert the needle into the vial at a 45-degree angle so the liquid runs down the inside wall, which reduces bubbling and foam.
Dissolve the peptide
Swirl the vial gently until the peptide powder is completely dissolved. Avoid shaking, as this can damage the peptide bonds.
Aliquot the solution
If smaller, single-use portions are needed, divide the solution into sterile microtubes using a new, sterile syringe or pipette for each.
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If you have any questions regarding our research peptides for sale, please feel free to reach out below.
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Tips for Storing Your Peptides
General Storage Guidelines
- Store all peptides in airtight, moisture-resistant containers to prevent exposure to humidity.
- Minimise freeze-thaw cycles by dividing peptides into single-use aliquots whenever possible.
- Protect peptides from light, especially if they are modified or known to be photosensitive, by storing them in amber vials or wrapping them in foil.
- Always practice sterile handling and accurate labelling, including peptide name, concentration, date, and storage conditions.
Lyophilised Peptides
- Keep lyophilised (freeze-dried) peptides at minus 20°C or lower for long-term stability.
- Ensure the container is sealed tightly to keep out moisture.
- Allow the vial to reach room temperature before opening to avoid condensation, which can degrade the peptide.
- Only open vials in a dry environment to prevent humidity from affecting the product.
Reconstituted Peptides
- Store peptides reconstituted with sterile water or buffer at 2°C to 8°C and use within 1–12 weeks.
- If peptides are dissolved in DMSO or other organic solvents, store them at minus 20°C and protect from light.
- Always aliquot into single-use volumes immediately after reconstitution to avoid repeated freeze-thaw cycles.
- Clearly label all aliquots with relevant information and only thaw as needed to preserve the peptide’s activity and integrity.
Read More on Storage Guidelines
Ask a Question
If you have any questions regarding our research peptides for sale, please feel free to reach out below.
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Shipping and Postage
UK & European Delivery
Evri UK Tracked 1-2 Business Days
This costs; £4.99 per order
European DHL Express Tracked 1-2 Days
This cost; £24.99 per order
Bioplex Peptides offers fast and reliable 1-2 days delivery across the UK with full tracking included. Note; Due to the nature of our products, we only dispatch samples between Monday-Thursday, orders after 12pm will be shipped the following day.
*We aim to dispatch and deliver orders within the stated timeframes, but delays can occur due to severe weather, transport issues, public holidays, or other unforeseen events. Once an order has been dispatched, extended delivery times are outside our control.
International Delivery
United States of America & Canada 1-2 Business Days
This cost; £24.99 per order
International Delivery 1-3 Business Days
This cost; £29.99 per order
Bioplex Peptides offers fast and reliable 1-3 days worldwide delivery with full tracking included using the worlds fastest and most reliable courier available with a discounted rate for all EU & International customers. Delays may occur due to natural causes such as severe weather conditions, transportation disruptions, public holidays, or other unforeseen events. All international samples ship Monday–Saturday, ensuring steady worldwide delivery scheduling.
Order Processing
Orders are typically processed within 24hrs after payment confirmation. Custom peptide synthesis orders and wholesale orders may require additional lead time depending on complexity and quantity. Clients will be notified of estimated delivery timelines upon order confirmation.
Shipping Methods and Carriers
We utilize reliable courier services such DHL Express Premium 1-2 Business days for all International deliveries and Evri & Royal Mail tracked 1-2 days delivery for all United Kingdom deliveries to ensure timely and traceable delivery. Shipping options may vary depending on destination, order size, and regulatory requirements.
BioPleX Peptides is not responsible for delays caused by customs clearance, weather disruptions, or carrier-related issues.
Returns and Refunds
Due to the specialised and perishable nature of our research peptide products, BioPlex Peptides does not offer general refunds or accept returns once an order has been shipped. All purchases are considered final unless they meet specific criteria outlined below.
Refunds and Replacements
We do not provide refunds for products that have been correctly fulfilled and delivered. However, if an item arrives damaged, compromised, or incorrect due to an error on our part, we will offer a replacement at no additional cost. Claims must be submitted within 48 hours of delivery, accompanied by photographic evidence and a description of the issue.
Missing Parcels
If your parcel has not arrived within the estimated delivery window, please contact our logistics team promptly. We will initiate an investigation with the carrier and provide updates throughout the process. If the parcel is confirmed lost, we will issue a replacement shipment or credit, depending on the circumstances.
Order Cancellation
Orders may be cancelled within 24 hours of placement, provided production has not yet begun. Custom peptide synthesis orders are non-cancellable once processing has started. To request a cancellation, please email us at enquiries@bioplexpeptides.co.uk with your order number and reason for cancellation.
Damaged or Incorrect Items
In the rare event that you receive a damaged or incorrect item, please notify us within 48 hours of receipt. Include your order number, photos of the product and packaging, and a description of the issue. We will assess the claim and, if validated, arrange for a replacement to be shipped promptly.
Read More on Our Returns & Refunds Policy
Ask a Question
If you have any questions regarding our research peptides for sale, please feel free to reach out below.
Quick Links
Policies
