SENO BPC157 + TB500 Polvo liofilizado a granel Precio al por mayor

Descripción

Regenerative & Cellular Signaling Research Peptide Combination

SENO BPC157 + TB500 is a high-purity research péptido combination supplied as a lyophilized powder for advanced laboratory investigations involving tissue regeneration, angiogenesis, receptor-mediated signaling, and cellular repair mechanisms.

This synergistic peptide formulation combines:

• BPC157
• TB500

The combination is designed for experimental research involving regenerative biology, biochemical pathway analysis, and peptide-receptor interaction studies in controlled laboratory environments.

Available specifications:

• BB10 — 10mg × 10 vials
• BB20 — 20mg × 10 vials
• BB30 — 30mg × 10 vials

Manufactured under controlled laboratory conditions using automated solid-phase peptide synthesis (SPPS), each batch undergoes analytical verification through HPLC and mass spectrometry to support purity, molecular integrity, and batch reproducibility.

Este producto se suministra exclusivamente para aplicaciones de investigación en laboratorio.

What Is BPC157 + TB500?

BPC157 + TB500 is a dual-peptide research formulation developed for investigations involving tissue-response signaling, cellular repair pathways, angiogenesis-related mechanisms, and regenerative biology models.

BPC157 Component

BPC157 is a synthetic peptide investigated in laboratory studies involving:

• tissue regeneration signaling
• cellular repair mechanisms
• angiogenesis-related pathways
• receptor-mediated responses
• peptide signaling dynamics

TB500 Component

TB500 is a peptide associated with studies involving:

• cellular migration pathways
• cytoskeletal signaling
• regenerative cellular communication
• tissue remodeling investigations
• intracellular pathway modulation

Together, the two peptides allow researchers to investigate synergistic regenerative signaling and coordinated cellular responses across multiple biological pathways.

The peptide blend is supplied as a white to off-white lyophilized powder to support structural stability during storage and transportation.

Aplicaciones de la investigación

BPC157 + TB500 is commonly utilized in laboratory investigations involving:

• tissue repair pathway research
• regenerative biology studies
• angiogenesis investigations
• receptor-mediated signaling analysis
• cellular migration experiments
• peptide synergy research
• intracellular communication studies
• extracellular matrix investigations
• molecular pharmacology research
• preclinical regenerative models
• biochemical signaling pathway analysis

The formulation supports scalable laboratory workflows using BB10, BB20, and BB30 vial configurations.

Fórmula molecular

BPC157

C62H98N16O22C_{62}H_{98}N_{16}O_{22}C62​H98​N16​O22​

TB500 (research-associated peptide structure)

C212H350N56O78SC_{212}H_{350}N_{56}O_{78}SC212​H350​N56​O78​S

Peso molecular

Approximate combined molecular profile:

$\sim 4.5kDa$

Número CAS

Especificaciones del producto

Mecanismo de acción

The BPC157 + TB500 peptide blend is investigated for coordinated activity across regenerative and receptor-mediated signaling pathways.

Tissue Repair Signaling

Research commonly focuses on:

• cellular repair mechanisms
• regenerative signaling pathways
• extracellular matrix interactions
• tissue-response communication systems

Angiogenesis & Cellular Migration

Laboratory studies may involve:

• angiogenesis-related signaling
• vascular pathway investigations
• cellular migration dynamics
• tissue remodeling mechanisms

Receptor-Mediated Cellular Responses

The peptide combination is also studied for:

• intracellular signaling modulation
• peptide-receptor interactions
• cellular communication pathways
• regenerative pathway coordination

Its synergistic peptide profile supports multi-target investigations within regenerative biology and molecular signaling research.

Solubilidad

The peptide formulation is generally soluble in:

• agua estéril
• bacteriostatic water
• solución salina tamponada con fosfato (PBS)
• selected laboratory research buffers

Suggested laboratory preparation volumes:

BB10

$1mLsolventper10mgvial$

BB20

$2mLsolventper20mgvial$

BB30

$3mLsolventper30mgvial$

Preparation concentrations should be optimized according to specific laboratory protocols and assay requirements.

Recomendaciones de almacenamiento

Para una estabilidad óptima del péptido:

• Store lyophilized peptide at -20°C
• Proteger de la humedad y la luz directa
• Avoid repeated temperature fluctuations
• Mantener condiciones estériles de manipulación en el laboratorio

Después de la reconstitución:

• Aliquot into sterile containers when possible
• Minimize freeze-thaw exposure
• Store according to laboratory protocol
• Use prepared solutions promptly

Información sobre estabilidad

The lyophilized formulation helps preserve peptide integrity and reduce degradation during storage and transport.

Los factores que influyen en la estabilidad del péptido pueden ser:

• oxidación
• hidrólisis
• contaminación microbiana
• ciclos repetidos de congelación y descongelación
• temperature exposure
• prolonged storage after reconstitution

Controlled storage conditions support reproducible laboratory performance and peptide consistency.

Estudios de investigación e interés científico

BPC157 + TB500 is increasingly investigated in regenerative and molecular signaling research due to its synergistic peptide profile.

Research areas commonly include:

• regenerative cellular biology
• tissue-response pathway analysis
• angiogenesis-related investigations
• farmacología de receptores
• cellular migration studies
• intracellular signaling research
• peptide synergy experiments
• extracellular matrix pathway studies

Its dual-peptide design supports exploratory laboratory investigations into coordinated regenerative mechanisms.

Fabricación y control de calidad

SENO manufactures BPC157 + TB500 using automated solid-phase peptide synthesis (SPPS) under controlled laboratory conditions.

El flujo de trabajo de producción incluye:

• high-purity raw material sourcing
• automated peptide sequence assembly
• controlled synthesis protocols
• preparative HPLC purification
• mass spectrometry verification
• sterile lyophilization procedures

Each production batch undergoes analytical verification to support:

• integridad molecular
• purity consistency
• structural stability
• sequence fidelity
• batch reproducibility

This manufacturing process supports reliable performance in sensitive regenerative and signaling research applications.

COA (Certificado de análisis)

La documentación analítica puede incluir:

• identificación de lotes
• HPLC purity profile
• verificación molecular
• inspección de aspecto
• fecha de fabricación
• storage recommendations
• aprobación del control de calidad

COA documentation supports laboratory traceability and internal quality assurance workflows.

Verificación por HPLC y espectrometría de masas

Cada lote se somete a una evaluación analítica mediante:

• Cromatografía líquida de alto rendimiento (HPLC)
• Espectrometría de masas (EM)

These analytical methods help verify:

• peptide purity
• identidad molecular
• coherencia estructural
• evaluación de impurezas
• batch reproducibility

Analytical chromatograms and verification data may be available for laboratory documentation purposes.

Guía de reconstitución

Procedimiento de laboratorio recomendado

1. Allow vial to reach room temperature before opening.
2. Select sterile solvent appropriate for the experimental protocol.
3. Añadir lentamente disolvente a lo largo de la pared del vial.
4. Gently swirl until fully dissolved.
5. Evitar agitar enérgicamente o hacer espuma.
6. Aliquot prepared solution into sterile containers when possible.
7. Store according to laboratory requirements.

Researchers should optimize preparation concentrations according to individual experimental designs.

Precauciones de manipulación

• Para uso exclusivo en investigación de laboratorio
• No destinado a la administración humana o veterinaria
• Use laboratory PPE during handling
• Maintain aseptic preparation procedures
• Evitar ciclos repetidos de congelación y descongelación
• Dispose of materials according to institutional biosafety regulations

Información de envío

• Worldwide FedEx or equivalent courier shipping
• Lyophilized peptide supplied for improved transport stability
• Ambient temperature shipping with protective packaging
• Packaging designed to maintain vial integrity during international transportation

Preguntas más frecuentes (FAQ)

What is BPC157 + TB500 used for in research?

This peptide combination is commonly studied in regenerative biology, tissue repair signaling, angiogenesis investigations, and receptor-mediated cellular pathway research.

Why combine BPC157 and TB500?

The two peptides are frequently investigated together for potential synergistic effects involving regenerative signaling, cellular migration, and tissue-response pathways.

Why is the peptide supplied in lyophilized form?

Lyophilization helps improve structural stability and reduces moisture-related degradation during storage and transportation.

¿Qué métodos analíticos se utilizan para verificar la calidad?

Each batch is verified using HPLC and mass spectrometry to confirm purity, molecular identity, and structural consistency.

How should the peptide formulation be stored?

Lyophilized peptide should generally be stored at -20°C. Reconstituted solutions should be handled carefully and protected from repeated freeze-thaw exposure.

Is this product intended for therapeutic or medical use?

No. SENO BPC157 + TB500 is supplied strictly for laboratory research applications only and is not approved for human or veterinary administration.