TB-500 10mg
TB-500 | Thymosin Beta-4 Acetate 10mg — Actin-Sequestering Tetrapeptide Research Compoun
$69.99$59.99
TB-500 (Thymosin Beta-4 Acetate) 10mg is an exceptional, research-grade formulation of one of the most biologically significant and scientifically compelling naturally occurring peptide compounds in contemporary tissue biology and regenerative science research. As a synthetic analogue of the naturally occurring Thymosin Beta-4 protein — a ubiquitous, highly conserved 43 amino acid peptide found in virtually every nucleated cell in the human body — TB-500 has established itself as one of the most extensively studied, widely referenced, and scientifically celebrated peptide research compounds in the modern laboratory science community, consistently generating profound scientific interest across an impressively diverse range of biological research disciplines.
Originally isolated from bovine thymus tissue in the early 1960s alongside a family of related thymic peptides, Thymosin Beta-4 has since been recognized as far more than a simple thymic hormone. Decades of intensive scientific investigation have revealed it to be a master regulator of actin dynamics, cellular migration, tissue repair initiation, and vascular biology — playing fundamental and indispensable roles in the coordination of cellular responses to injury, inflammation, and tissue damage across virtually every major tissue type in the body. This remarkable biological versatility has made TB-500 one of the most scientifically valuable and broadly applicable peptide research tools available to the modern laboratory researcher.
The 10mg variant of TB-500 offered by Mile High Compounds is precision-formulated as a sterile, freeze-dried lyophilized powder to ensure maximum compound stability, exceptional batch-to-batch consistency, and reliable reconstitution characteristics across all experimental applications. Its precise 10mg formulation provides research teams with an ideal compound volume for structured laboratory investigations, controlled experimental protocols, and comprehensive tissue biology research programs requiring consistent, uninterrupted access to the highest quality Thymosin Beta-4 analogue available in the research market today.
At the molecular level, TB-500's biological activity is fundamentally anchored in its unique ability to sequester G-actin (globular actin) — the monomeric building block of the actin cytoskeleton — through its highly conserved LKKTETQ actin-binding domain. By regulating the cellular pool of available G-actin, TB-500 profoundly influences the dynamic equilibrium between G-actin and F-actin (filamentous actin), directly modulating cytoskeletal organization, cell shape regulation, cellular motility, and the fundamental actin-dependent processes that underpin virtually every aspect of cellular biology from cell division and migration to intracellular vesicle trafficking and signal transduction. This central role in actin dynamics regulation places TB-500 at the very heart of cellular biology, making it an indispensable research tool for scientists investigating the fundamental mechanisms of cell biology, tissue repair, and regenerative medicine at the molecular level.
Research Applications:
TB-500 10mg supports an exceptionally broad and scientifically rich range of research applications spanning tissue biology, vascular science, cellular biochemistry, immunology, and regenerative biology research, including:
Actin Dynamics & Cytoskeletal Biology Research — conducting foundational and advanced investigations into TB-500's core molecular mechanism of G-actin sequestration, examining how Thymosin Beta-4-mediated regulation of the G-actin/F-actin equilibrium influences cytoskeletal organization, cell morphology, intracellular transport dynamics, and the fundamental actin-dependent processes governing cellular function and biological integrity in controlled in vitro research models
Cell Migration & Motility Research — examining TB-500's well-documented and extensively researched influence on cell migration and motility, investigating the molecular mechanisms through which actin sequestration and cytoskeletal remodeling facilitate directed cell movement, chemotactic responses, and the coordinated cellular migration events that underpin tissue repair initiation and wound healing biology
Wound Healing & Tissue Repair Biology Research — studying TB-500's comprehensive influence on the multiple overlapping phases of tissue repair biology, including inflammatory cell recruitment, fibroblast activation and proliferation, keratinocyte migration, extracellular matrix deposition, and the coordinated cellular events governing wound closure and tissue remodeling in controlled laboratory research environments
Angiogenesis & Endothelial Cell Biology Research — investigating TB-500's well-established pro-angiogenic properties, including its influence on endothelial cell migration, proliferation, tube formation, and VEGF pathway interactions, examining the molecular mechanisms through which Thymosin Beta-4 promotes new blood vessel formation and vascular network stabilization in tissue biology research models
Cardiac & Smooth Muscle Cell Biology Research — exploring TB-500's documented influence on cardiomyocyte biology, cardiac progenitor cell activation, smooth muscle cell regulation, and the molecular mechanisms governing cardiac tissue repair and vascular smooth muscle function in laboratory research settings — an area of particularly active and rapidly evolving scientific interest
Inflammatory Regulation & Immune Cell Biology Research — examining TB-500's multifaceted influence on inflammatory cell behavior, macrophage polarization, neutrophil function, T-cell migration, and the broader inflammatory regulatory mechanisms through which Thymosin Beta-4 modulates immune cell activity and inflammatory pathway dynamics in tissue repair contexts
Hair Follicle Biology & Dermatological Research — studying TB-500's documented influence on hair follicle stem cell activation, follicular keratinocyte biology, and the cellular mechanisms governing hair follicle regeneration and dermal tissue repair in laboratory research models — an area of significant and growing scientific research interest
Musculoskeletal Tissue Biology Research — investigating TB-500's influence on skeletal muscle satellite cell activation, myofiber repair mechanisms, tendon fibroblast biology, and the cellular processes governing musculoskeletal tissue maintenance, repair, and regenerative capacity in controlled in vitro research frameworks
Neurological Tissue Biology & Neuroprotection Research — exploring the emerging scientific research interest in TB-500's influence on neuronal cell migration, axonal biology, oligodendrocyte function, and neuroprotective signaling pathways — examining the potential intersection of Thymosin Beta-4 biology with neurological tissue repair and maintenance mechanisms in laboratory research settings
Extracellular Matrix & Connective Tissue Research — conducting detailed investigations into TB-500's influence on collagen synthesis, fibronectin expression, laminin production, and the broader extracellular matrix remodeling dynamics that govern connective tissue structural integrity, mechanical properties, and regenerative capacity across multiple tissue types
Comparative Tissue Protective Peptide Research — utilizing TB-500 alongside complementary research compounds including BPC-157, GHK-Cu, and KPV in comparative and combination research frameworks designed to investigate the collective, additive, and potentially synergistic contributions of multiple tissue-protective peptide compounds to cellular repair biology, regenerative signaling, and systemic tissue homeostasis
Specifications:
Detail | Info |
|---|---|
Active Compound | TB-500 (Thymosin Beta-4 Acetate) |
CAS Number | 77591-33-4 |
Classification | Actin-Sequestering Tetrapeptide |
Amino Acids | 43 Amino Acid Sequence |
Form | Sterile Lyophilized Powder |
Unit Size | 10mg per vial |
Storage | Cool, dry place; Reconstituted: 2°C–8°C |
Purity | ≥99% |
Recommended Use | In Vitro Research & Educational Purposes Only |
Research-Only Use: This material is sold strictly for in vitro laboratory research use only. It is not intended for human consumption, clinical use, or veterinary applications. No claims are made regarding safety or efficacy for therapeutic purposes.
Disclaimer: The information presented here is provided for scientific and educational purposes only. It is not intended to diagnose, treat, cure, or prevent any disease. Statements have not been evaluated by the FDA or any regulatory authority. Product use is restricted to qualified researchers in compliance with local, state, and federal law.
Terms of Sale: By purchasing this item, you confirm that you are a qualified individual or laboratory operating within appropriate research guidelines. All liability and responsibility for handling, use, or misuse of this product rest solely with the buyer.