BPC-157 5mg + TB-500 5mg
Research compound

BPC-157 5mg + TB-500 5mg

Price
85,00 CHF

BPC-157 / TB-500 Blend 10 mg
research-grade
lyophilized peptide powder
in a glass vial. This blend contains
5 mg BPC-157
and
5 mg TB-500
co-lyophilized for use in laboratory models exploring
synergistic tissue repair, regeneration, angiogenesis and cell-migration pathways.

Third party tested
High purity and quality
Research use only
Research use only: this product is intended exclusively for laboratory, analytical or collector purposes. It is not intended for human or veterinary use, food use, dietary supplementation, cosmetic use or as a medicine.

BPC-157 / TB-500 Blend 10 mg
research-grade
lyophilized peptide powder
in a glass vial. This blend contains
5 mg BPC-157
and
5 mg TB-500
co-lyophilized for use in laboratory models exploring
synergistic tissue repair, regeneration, angiogenesis and cell-migration pathways.

Research Use Only:
All products are intended exclusively for laboratory and scientific research. Not for human or veterinary use.
Purity
99%+ (HPLC, third-party tested)
Form
Lyophilized peptide powder
Content
5 mg BPC-157 & 5 mg TB-500 per vial (10 mg total)
Packaging
Glass vial with sterile closure
Storage
Store lyophilized at 2–8 °C (desiccated, protect from light)
Molecular Formula
Mixture (BPC-157 & TB-500)
Molecular Weight
Mixture
Sequences
BPC-157: G-E-P-P-P-G-K-P-A-D-D-A-G-L-V
TB-500: Ac-L-K-K-T-E-T-Q
CAS Numbers
137525-51-0 (BPC-157); 885340-08-9 (TB-500)
In laboratory workflows, lyophilized research peptides are typically handled with suitable sterile diluents such as bacteriostatic water (BAC). For a compatible research-only solvent, see Bacteriostatic water - 10 ml.

Research Overview

This blend combines
BPC-157,
a gastric pentadecapeptide, with
TB-500,
the active fragment of Thymosin β4. In experimental systems it is used to explore
synergistic tissue repair and regeneration mechanisms
involving angiogenesis, cell migration and cytoskeletal dynamics.

Primary Research Areas

  • Synergistic tissue repair & regeneration:
    models combining BPC-157 and TB-500 to evaluate coordinated effects on tissue integrity and recovery dynamics.
  • Angiogenesis & microvascular remodeling:
    studies of blood-vessel formation, microcirculation and endothelial responses in repair frameworks.
  • Cell migration & actin-related processes:
    experimental systems focusing on cytoskeletal organization, motility and TB-500–linked actin dynamics.
  • Inflammation & soft-tissue models:
    research on local and systemic inflammatory markers in musculoskeletal and soft-tissue repair setups.
 
Powered by Phoca Cart