Product Overview
TB-500 10mg is a high-purity synthetic peptide representing a biologically active fragment of Thymosin Beta-4 (Tβ4). This research-grade peptide is widely utilized in controlled laboratory environments to investigate peptide-mediated cellular signaling, angiogenesis, and tissue regulatory pathways.
Supplied in a 10mg lyophilized (freeze-dried) powder format, TB-500 is a primary subject in studies involving cytoskeletal organization and actin-binding regulatory proteins. Its stable analytical profile makes it a cornerstone for researchers exploring the molecular mechanisms of structural repair and functional recovery.
Why Choose Our TB-500 10mg?
- Exceptional Purity: Every batch is HPLC-tested to ensure ≥99% purity for consistent and reliable research data.
- Maximum Stability: The lyophilization process preserves the peptide’s structural integrity and ensures a long shelf life when stored correctly.
- Optimized Concentration: 10mg unit size allows for precise dosing across a variety of in-vitro and in-vivo research protocols.
- Professional Grade: Manufactured and packaged specifically for qualified researchers and laboratory professionals.
What is TB-500 (Thymosin Beta-4 Fragment)?
TB-500 is a synthetic version of the most active region of the naturally occurring Thymosin Beta-4 protein, which is present in almost all mammalian tissues. In research models, TB-500 is primarily studied for its interaction with G-actin, a structural protein essential for cellular movement and transport.
Scientific Mechanisms under Investigation:
- Cellular Migration: Analyzing how TB-500 promotes the movement of cells to damaged sites to facilitate repair.
- Angiogenic Signaling: Studying the peptide's ability to stimulate new blood vessel formation (angiogenesis), critical for oxygenating recovering tissues.
- Cytoskeletal Organization: Investigating its role in maintaining and rearranging the internal framework of cells.
- Inflammatory Modulation: Researching the peptide's potential to soothe inflammatory responses and enhance resilience in soft tissue models.
Primary Research Applications
Researchers utilize TB-500 10mg to explore complex biological outcomes, including:
- Soft Tissue Repair: Modeling the recovery of muscle, tendons, and ligaments following simulated physical strain.
- Cardiovascular Research: Investigating the peptide's role in cardiac tissue repair and vascular integrity.
- Dermal Wound Healing: Studying the acceleration of epithelialization and dermal tissue closure.
- Mobility Flexibility Studies: Analyzing the preservation of tissue fluidity and the reduction of adhesions in musculoskeletal research models.
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