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TB-500 5mg

Original price was: $79.99.Current price is: $59.99.

(4.9) (15 customer reviews)

Researched Benefits:

 

  • Accelerates healing of injuries and wounds
  • Reduces inflammation and promotes tissue repair
  • Enhances muscle and tendon recovery
  • Supports joint health and mobility

Quantity:

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Secure payment methods for buying peptides: Visa, MasterCard, AMEX, and more.

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ALL ARTICLES AND PRODUCT INFORMATION PROVIDED ON THIS WEBSITE ARE FOR INFORMATIONAL AND EDUCATIONAL PURPOSES ONLY. The products offered on this website are intended solely for research and laboratory use. These products are not intended for human or animal consumption. They are not medicines or drugs and have not been evaluated or approved by the FDA to diagnose, treat, cure, or prevent any disease or medical condition. Any form of bodily introduction is strictly prohibited by law.

Description

TB-500 5mg is designed for advanced research purposes, focusing on enhancing healing, promoting tissue repair, and cellular movement. Derived from high-quality materials and produced through sophisticated synthesis processes, TB-500 assures high purity and effectiveness in research.

Key Features:

  • Produced under rigorous standards to maintain purity and specificity.
  • Undergoes thorough quality checks to guarantee consistency across batches.
  • Offered in a lyophilized format to ensure longevity and preservation of quality under specified storage conditions.

Applications:

  • Primarily used in research involving wound healing and tissue repair.
  • Investigates cellular migration and upregulation of cellular processes.
  • Explored for potential therapeutic roles in tissue recovery and healing.

Specifications and Documentation

 

  • Material Safety Data Sheet (MSDS): Coming Soon.
  • Handling and Storage Instructions: Coming Soon.

 

TB-500 5mg is recognized for its significant capabilities in promoting efficient healing and recovery, making it an essential component for studies related to wound healing and cellular activities.

Additional information

CAS No.

901758-09-6

Purity

≥99%

Sequence

Trans-3-Hexenoyl-Tyr-Ala-Asp-Ala-Ile-Phe-Thr-Asn-Ser-Tyr-Arg-Lys-Val-Leu-Gly-Gln-Leu-Ser-Ala-Arg-Lys-Leu-Leu-Gln-Asp-Ile-Met-Ser-Arg-NH2

Molecular Formula

C221H366N72O67S

Molecular Weight

5135.89 g/mol

Synthesis

Solid-phase synthesis

Format

Lyophilized powder

Solubility

Soluble in water or 1% acetic acid

Stability & Storage

Stable for up to 24 months at -20°C. After reconstitution, may be stored at 4°C for up to 4 weeks or at -20°C for up to 6 months.

Applications

Growth hormone secretion studies, metabolic regulation research, obesity therapy research

Appearance

White lyophilized powder

Shipping Conditions

Shipped at ambient temperature; once received, store at -20°C

Regulatory/Compliance

Manufactured in a facility that adheres to cGMP guidelines

Safety Information

Refer to provided MSDS

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Table of Contents
Pure Lab Peptides TB-500 supplement promoting healing and muscle recovery benefits.

Buy TB-500 Peptide (Thymosin Beta-4) | Accelerate Healing & Muscle Recovery

If you’ve ever been in a scrape and wished for a speedy recovery, TB-500 peptide might just sound like something out of a sci-fi flick.

Known as thymosin beta-4, this little protein is here to transform how you think about healing and recovery.

Dig into why TB-500, a synthetic peptide consisting of 43 amino acids, is the next big name for those keen on muscle healing and tissue repair, minus the hassle of prolonged recovery.

What is TB-500 Peptide?

Understanding Thymosin Beta-4

Ah, thymosin beta-4. This protein thymosin beta-4 is quite intriguing—manufactured right in our bodies! Naturally occurring, it’s found in both human and animal cells, playing a big part in all the hocus-pocus that is cell structure and regeneration. It’s like your body’s secret weapon!

How is TB-500 Peptide Different from Other Peptides?

Think of TB-500 peptide as a very focused friend who only cares about your healing journey. No drama or distractions, unlike some other peptides. It’s synthesized—yes, it’s a synthetic version—and aims right at promoting healing. TB-500 is a real straight-shooter in the peptide world.

Benefits of TB-500 Peptide

Original Pure Lab Peptides Mindmap Diagram outlining the various benefits of TB-500 peptide.

How Does TB-500 Accelerate Healing?

Original Pure Lab Peptides Activity Diagram exploring the process of healing with TB-500.

TB-500 is known to boost healing by promoting cell migration and regeneration. It’s like a magical ingredient in your smoothies, just without the green goo. Its ability to activate certain biological processes speeds up recovery times.

Impact of TB-500 on Muscle Recovery

For those who hit the gym a bit too hard or faced an unwelcome injury, TB-500 is your best buddy. The regenerative peptide, known for accelerating muscle recovery, just might get you back to your workout playlist faster than you expected.

Why is Thymosin Beta-4 Essential for Tissue Repair?

The 43 amino acids in thymosin beta-4? They’re game-changers. They promote not only actin regulation but also contribute to effective tissue repair. You know how annoying it is when you snag your favorite sweater? Thymosin beta-4 is that level of attention to detail—every single fiber matters.

TB-500 Research and Studies

Original Pure Lab Peptides Sequence Diagram detailing research stages of TB-500 studies.

Overview of TB-500 Research

Research indicates that TB-500 is a big deal in the world of wound healing. Scientists have been diving into TB-500 research to learn how those 43 amino acids work their magic in both animal models and, eventually, broader applications.

Latest Findings in Thymosin Beta-4 Studies

Evidence suggests that TB-4 and its adjuvants could promote cardiac repair and possibly offer insights into myocardial infarction. Doesn’t that make you itch to learn more about the potential of this peptide?

How TB-500 Supports Cardiovascular Health

Aside from your gym goals, TB-500 also has its eye on your heart. It helps maintain cardiovascular health by supporting blood vessel growth and even endothelial cell health. Keep your heart happy, folks!

Mechanism of Action of TB-500

Original Pure Lab Peptides Activity Diagram explaining how TB-500 operates within the body.

How Does TB-500 Work in the Body?

When it gets into the actin game, TB-500 promotes cell migration, which is crucial for healing. Think of it as the friendly tear in your yoga pants that becomes a stylish rip—hey, the body knows how to fix things naturally!

Exploring the Mechanism of Action of Thymosin Beta-4

β4 promotes angiogenesis and the formation of new blood vessels. With TB-500, it’s like your body gets a memo saying, “It’s repair time!” The peptide is naturally occurring in our behavior, ensuring every cell knows its role.

How Does TB-500 Promote Blood Vessel Growth?

TB-500 works on the blood vessel game by fostering endothelial cell migration, thus contributing to efficient blood vessel growth and stability. New blood vessels mean better nourishment for tissues.

TB-500 for Wound Healing and Recovery

How Effective is TB-500 for Wound Healing?

Original Pure Lab Peptides Activity Diagram showing the pathway of wound healing with TB-500.

Ever consider what a godsend TB-500 could be in post-surgical recovery? Studies suggest that Tβ4 can decrease healing times significantly, acting as an anti-inflammatory agent to reduce inflammation and expedite the wound healing process.

Insights into TB-500 and Healing and Tissue Repair

TB-500 is a component of cell structure, ensuring cell repair processes are spot-on. Besides wound healing, it plays a crucial role in the regeneration of tissue in injury and neurodegenerative diseases.

Can TB-500 Help with Surgical Recovery?

If you’re facing a surgical incision, TB-500 could offer a peek into smoother recovery days by reducing inflammation and promoting tissue repair. An anti-inflammatory agent like TB-500 might be just what you need post-op.

Cardiovascular Health and TB-500

Original Pure Lab Peptides Mindmap Diagram exploring cardiovascular effects of TB-500.

Benefits of TB-500 for Cardiovascular Health

Folks interested in cardiovascular health will appreciate TB-500’s tricks. Its capacity to promote new blood vessel formation can aid in cardiac repair, making it a supportive component for heart health enthusiastically.

Can Thymosin Beta-4 Improve Heart Function?

Research and evidence suggest that Tβ4 could be therapeutic in myocardial challenges alongside its usual healing ambitions. A peptide that’s truly looking out for your ticker!

How Does TB-500 Affect Blood Vessel Health?

TB-500 plays a noted role in encouraging endothelial function to maintain a healthy blood vessel system. Hey, more efficient blood vessel health is on the menu!

Hair Growth and TB-500

Original Pure Lab Peptides Sequence Diagram illustrating hair growth stimulation with TB-500.

Is TB-500 Effective for Hair Growth?

Yeah, you read right! Not just a muscle buddy, TB-500, may help with hair shafts and grouped hair follicles. If hair thinning is your concern, TB-500 might be your new salon in a bottle.

How Does Thymosin Beta-4 Influence Hair Follicles?

Thymosin β4 promotes hair growth by inducing the transformation of hair follicles. It’s like unlocking a cheat code for some serious hair game growth.

Can TB-500 Reverse Hair Loss?

Regeneration champions rejoice—while not a magical cure, TB-500 shows promise in managing hair loss by promoting actin of hair growth. A remedy that could accompany your haircare regimen.

Neurodegenerative Conditions and TB-500

Original Pure Lab Peptides Mindmap Diagram on TB-500's role in neuroprotection.

How Can TB-500 Aid Neurodegenerative Diseases?

LB-500’s role in cell migration and regenerative processes may hold answers for spinal cord injury and neurodegenerative diseases. It could become part of the next breakthrough in regenerative medicine.

Exploring Thymosin Beta-4’s Potential in Neuroprotection

Thymosin beta4 operates in neuroprotection by promoting regeneration of nerves in spinal cord regions—it’s like hitting ‘refresh’ on our nervous system circuitry.

What Role Does TB-500 Play in Brain Health?

Allegedly, TB-500 could assist with neurodegenerative challenges. It’s no psychic machine, but we hoomans can look forward to securing neurons.

Blood Vessel Growth with TB-500

Original Pure Lab Peptides Mindmap Diagram showing TB-500's role in blood vessel formation.

How TB-500 Enhances Blood Vessel Growth

By promoting endothelial cell growth, TB-500 peps up blood vessel expansion and supports restoration where necessary. Healthier blood flow means a greater capacity for healing.

Why is TB-500 Important for Angiogenesis?

Angiogenesis, the art of blood vessel growth, is something TB-500 works hard on. By influencing endothelial cell functioning, it aids tissue with a better blood supply.

Mechanisms Behind Thymosin Beta-4 and Blood Vessel Formation

TB-4 induces the production of factin that’s paired with endothelial cell actions, rain-checking the cellular mood in forming new blood vessels. A maestro in vascular functions!

TB-500 and Tissue Repair

Original Pure Lab Peptides Activity Diagram detailing tissue repair process with TB-500.

The Role of TB-500 in Tissue Repair

For injuries from clumsy accidents to major burn tissues, TB-500 is the pocket repair kit you wish you’d always prepared. It’s a true player in tissue repair.

How Does Thymosin Beta-4 Aid Tissue Regeneration?

Thymosin β4 promotes regeneration by concentrating fibrous proteins in traumatized zones. It optimizes the healing by calling the shots in human and animal cells!

Can TB-500 Stimulate Collagen Production?

Biological processes signal collagen to hit the production line as TB-500 shares pep talks with healing centers. Guess who’s inviting super skin support?

Safety and Usage of TB-500 Peptide

Are There Any Side Effects of TB-500?

While TB-500 is generally accepted for limited to educational and scientific research, it’s important to adhere to all terms and conditions provided by suppliers, as it is not approved by the FDA for human consumption beyond research purposes.

Best Practices for TB-500 Peptide Usage

This peptide for sale is best stored and used based on its 10mg configuration. Attention to correct usage limitaion practices is key to reaping its maximal benefits.

How to Store TB-500 for Maximum Efficacy

Store it carefully at the recommended 10mg dosage away from fluctuations in temperature and light—that’s the TLC every serious peptide deserves.

How to Buy TB-500 and Terms and Conditions

Original Pure Lab Peptides Sequence Diagram outlining steps to purchase TB-500.

Where Can You Buy TB-500 Peptide?

Considering buying TB-500 peptide? It is available for sale online for research and development purposes, particularly for researchers who comply with proper terms and conditions.

Understanding the Terms and Conditions of Buying TB-500

Be aware of disclaimers about usage when you spot TB-500 for sale. Products offered on this website must follow protocols suitable for educational and scientific research, aligning with guidelines set by suppliers.

What to Consider When Purchasing Thymosin Beta-4

When searching for USA made peptide, consider factors like peptide purity, provider reputation, and adherence to research limitations. Ensure your purchase aligns with scientific research aspects intended for peptide use.

Common Questions About TB-500

How Quickly Does TB-500 Show Results?

The peptide may bring noticeable changes in tissue repair and blood vessel assistance within specified usage timelines. Keep that eagerness in check, as regeneration doesn’t operate on teleportation just yet.

Can TB-500 be Used with Other Peptides?

TB-4 combined with ciprofloxacin has emerged in preliminary studies, possibly enhancing the effects of antibiotics. Collaboration? Sounds promising.

How Long Should TB-500 be Used for Best Results?

Usage specific to both scientific need and educational emphasis underlies how TB-500 is currently considered most fruitful. There’s no hard-set formula but align with research necessities for proper timeframes.

Overview of TB-500 Peptide

Original Pure Lab Peptides Sequence Diagram showing interactions during TB-500 clinical trials.

What Makes TB-500 a Unique Peptide?

TB-500 stands out with its naturally occurring and synthetic blend, offering widespread applications from endothelial functions to intricate injury repairs—an all-encompassing science triumph!

A Comprehensive Guide to TB-500 Peptide

Your guide consists of understanding this peptide’s formation, its 43 amino acids-based inception, and how to effectively employ it for research. The insight gained can redefine the healthcare lexicon!

How is TB-500 Peptide Manufactured?

Appearing miraculous, yet TB-500 undergoes rigorous processes to ensure it hits every key note in its formation from scratch. It’s ama—ahem, impressive, right?

Potential Applications of TB-500

Future Possibilities for TB-500 in Medicine

There’s buzz that TB-500 could tip the scales in regenerative medicine. Picture spinal cord repairs, progressive cardiac benefits, and innovative neurodegenerative solutions.

How Could Thymosin Beta-4 Transform Healthcare?

Called thymosin, its holistic (oops!) approach to tissue recovery and regeneration makes transformations plausible in long-complicated domains like rheumatoid arthritis and myocardial infarction.

TB-500’s Potential Role in Cosmetic Science

Want to gush over hair or skin enhancements without invasive routes? TB-500 whimsically greets desires for regenerative transformations with styles as fascinating as sci-fi genres.

Summary of TB-500 Benefits

  • TB-500 is known for promoting cell repair and regeneration.
  • Thymosin beta-4 is significant for ol’ heart health.
  • TB-500 peptide use fosters efficient blood vessel growth.
  • Hair, skin, heart? Covered—all thanks to TB-500’s range.
  • Known for therapeutic support in healing nerve challenges.

Summary

  • TB-500 enhances tissue repair, muscle recovery, and hair growth.
  • It involves endothelial, myocardial, and neurological tissue care.
  • TB-500 works uniquely through actin and blood vessel improvements.
  • It primarily serves research purposes, not approved for human consumption.
  • Considered safe in limited doses, especially for educational uses.

FAQs

1. how to get tb 500

You can get TB 500 through online stores that specialize in peptides for scientific research and development purposes. Look for vendors that clearly state the peptide is not approved for human consumption by the Food and Drug Administration. Ensure the supplier offers TB-500 in a synthetic version suitable for research and check their reputation through user reviews.

2. where can i buy tb 500

TB 500 can be purchased online from reputable suppliers that offer peptides strictly limited to educational and scientific research. These stores ensure that TB-500 is a synthetic peptide for research use only. Verify their credentials and product reviews to confirm the authenticity of their offerings.

3. how to buy tb-500

To buy TB-500, search for online peptide vendors that focus on peptides for research purposes. Ensure they provide detailed product information, including that TB-500 is a synthetic version and emphasize its use is for your scientific research and development purposes. Check if they list the terms and conditions for research-specific sales.

4. where to buy tb 500

You can buy TB 500 from reputable online stores that specialize in laboratory-grade peptides. Make sure the seller provides TB-500 in a synthetic version, aligned with scientific research compliance, and ensure they offer information on terms and conditions for its intended use.

5. where to buy bpc 157 and tb 500

Both BPC 157 and TB 500 can be purchased from specialized online vendors offering peptides for scientific studies. Opt for suppliers that offer these peptides online for research purposes only and avoid those that imply therapeutic use, as FDA does not approve these peptides for human consumption.

6. IS THYMOSIN BETA 4 LEGAL?

Thymosin beta-4 is legal to buy for research purposes. The Food and Drug Administration does not approve it for therapeutic use or human consumption. Purchase from vendors focusing on scientific study, ensuring they meet compliance guidelines for educational purposes.

7. WHAT DOES THYMOSIN BETA 4 DO TO THE BODY?

Thymosin beta-4, a naturally occurring peptide, helps with cell migration, movement of immune cells, and tissue repair. It promotes healing through its significant anti-inflammatory properties by interacting with the extracellular matrix, enhancing regeneration.

8. WHAT IS PEPTIDE THYMOSIN BETA 4?

Peptide Thymosin Beta-4 is a synthetic version of a naturally occurring peptide instrumental in healing, tissue repair, and reducing inflammation. It comprises 43 amino acids and is involved in crucial biological processes like the dynamic interaction of the cell structure.

9. What Is TB-500?

TB-500 is a synthetic version of thymosin beta-4, designed for research and development purposes. Composed of 43 amino acids, TB-500 promotes cell regeneration by influencing the extracellular matrix and immune cell activity, making it a crucial component of cell healing mechanisms.

10. What Peptides Have Similar Research Applications to TB-500?

Similar to TB-500 in research contexts, BPC 157 and Thymosin Beta 4 (β4) can also be used for studying tissue repair, immune response, and anti-inflammatory effects. These peptides share therapeutic properties involving regeneration and act as a potential aid for heart cell and endothelial studies.

Peptide Industry Contributing Authors Recognition

Dr. Jean M. Bidlack

Dr. Jean M. Bidlack is a highly respected figure in the peptide research community, with a profound expertise in opioid receptors and peptide interactions. For over 30 years, Dr. Bidlack has explored the roles and pharmacological effects of peptides on neurotransmitter systems, significantly enhancing our understanding of their therapeutic potential in treating a variety of conditions, including pain and addiction.

Some of her influential publications include:

  • Peptide Kappa Opioid Receptor Ligands: Pharmacology and Therapeutic Potential – This paper, published in the Journal of Pharmacology and Experimental Therapeutics, discusses the pharmacological properties of kappa opioid receptor ligands and their potential therapeutic applications.

  • Mechanisms of Peptide Modulation in Opioid Efficacy and Safety – Published in the Journal of Medicinal Chemistry, this study illustrates the dynamics of peptide modulation on opioid receptor selectivity and function, proposing improvements in opioid safety.

Dr. Bidlack’s work is renowned for its scientific rigor and clinical implications, earning her numerous accolades, including the National Institutes of Health MERIT Awards. Her contributions are invaluable, establishing her as an authoritative and trusted voice in the peptide research sphere.

Dr. Victor J. Hruby

Dr. Victor J. Hruby is recognized worldwide as a pioneer in peptide science, particularly in the design and development of peptide drugs. With over four decades of experience, Dr. Hruby has shaped the landscape of peptide therapeutics, contributing significantly to the fields of cancer treatment, metabolic disorders, and pain management through innovative peptide-based solutions.

Key publications by Dr. Hruby include:

  • Advancements in Peptide Therapeutics: From Design to Clinical Implementation – This article, featured in Journal of Medicinal Chemistry, synthesizes the latest research in peptide drug design, highlighting their utility and innovation in therapeutic applications.

  • Peptide Engineering and Applications in Biomedicine – Published in Biopolymers, this work details the engineering of peptides for enhanced stability and efficacy, advocating for their broad potential in biomedicine.

Dr. Hruby’s contributions are well acknowledged through various honors, including the American Peptide Society’s Rao Award for Excellence in Peptide Science. His dedication to peptide research reflects a blend of creativity, scientific acumen, and leadership, ensuring his status as a leading authority whose work continues to drive the field forward.

References

Bako, P., Lippai, B., Nagy, J., Kramer, S., Kaszas, B., Tornoczki, T., & Bock-Marquette, I. (2023). Thymosin beta-4 – A potential tool in healing middle ear lesions in adult mammals. International Immunopharmacology, 116, 109830. https://doi.org/10.1016/j.intimp.2023.109830

Belsky, J. B., Rivers, E. P., Filbin, M. R., Lee, P. J., & Morris, D. C. (2018). Thymosin beta 4 regulation of actin in sepsis. Expert Opinion on Biological Therapy, 18(sup1), 193–197. https://doi.org/10.1080/14712598.2018.1448381

Bock-Marquette, I., Maar, K., Maar, S., Lippai, B., Faskerti, G., Gallyas, F., Olson, E. N., & Srivastava, D. (2023). Thymosin beta-4 denotes new directions towards developing prosperous anti-aging regenerative therapies. International Immunopharmacology, 116, 109741. https://doi.org/10.1016/j.intimp.2023.109741

Bubb, M. R. (2003). Thymosin β4 Interactions. Vitamins and Hormones, 297–316. https://doi.org/10.1016/s0083-6729(03)01008-2

Esposito, S., Deventer, K., Geldof, L., & Van Eenoo, P. (2014). In vitromodels for metabolic studies of small peptide hormones in sport drug testing. Journal of Peptide Science, 21(1), 1–9. https://doi.org/10.1002/psc.2710

Esposito, S., Deventer, K., Goeman, J., Van Der Eycken, J., & Van Eenoo, P. (2012). Synthesis and characterization of the N‐terminal acetylated 17‐23 fragment of thymosin beta 4 identified in TB‐500, a product suspected to possess doping potential. Drug Testing and Analysis, 4(9), 733–738. https://doi.org/10.1002/dta.1402

Faa, G., Messana, I., Coni, P., Piras, M., Pichiri, G., Piludu, M., Iavarone, F., Desiderio, C., Vento, G., Tirone, C., Manconi, B., Olianas, A., Contini, C., Cabras, T., & Castagnola, M. (2024). Thymosin β4 and β10 Expression in Human Organs during Development: A Review. Cells, 13(13), 1115. https://doi.org/10.3390/cells13131115

Han, H., Kim, S., & Kwon, J. (2018). Thymosin beta 4-Induced Autophagy Increases Cholinergic Signaling in PrP (106–126)-Treated HT22 Cells. Neurotoxicity Research, 36(1), 58–65. https://doi.org/10.1007/s12640-018-9985-0

Ho, E. N., Kwok, W., Lau, M., Wong, A. S., Wan, T. S., Lam, K. K., Schiff, P. J., & Stewart, B. D. (2012). Doping control analysis of TB-500, a synthetic version of an active region of thymosin β4, in equine urine and plasma by liquid chromatography–mass spectrometry. Journal of Chromatography A, 1265, 57–69. https://doi.org/10.1016/j.chroma.2012.09.043

Judák, P., Van Eenoo, P., & Deventer, K. (2017). Adsorption effects of the doping relevant peptides Insulin Lispro, Synachten, TB-500 and GHRP 5. Analytical Biochemistry, 537, 69–71. https://doi.org/10.1016/j.ab.2017.09.003

Kim, J., & Jung, Y. (2015). Potential role of thymosin beta 4 in liver fibrosis. International Journal of Molecular Sciences, 16(5), 10624–10635. https://doi.org/10.3390/ijms160510624

Kwok, W. H., Ho, E. N. M., Lau, M. Y., Leung, G. N. W., Wong, A. S. Y., & Wan, T. S. M. (2013). Doping control analysis of seven bioactive peptides in horse plasma by liquid chromatography–mass spectrometry. Analytical and Bioanalytical Chemistry, 405(8), 2595–2606. https://doi.org/10.1007/s00216-012-6697-9

Low, T. L., & Goldstein, A. L. (1985). [16] Thymosin β4. Methods in Enzymology on CD-ROM/Methods in Enzymology, 248–255. https://doi.org/10.1016/s0076-6879(85)16018-0

Pipes, G., & Yang, J. (2016). Cardioprotection by thymosin beta 4. Vitamins and Hormones, 209–226. https://doi.org/10.1016/bs.vh.2016.04.004

Rahaman, K. A., Muresan, A. R., Min, H., Son, J., Han, H., Kang, M., & Kwon, O. (2024). Simultaneous quantification of TB-500 and its metabolites in in-vitro experiments and rats by UHPLC-Q-Exactive orbitrap MS/MS and their screening by wound healing activities in-vitro. Journal of Chromatography B, 1235, 124033. https://doi.org/10.1016/j.jchromb.2024.124033

Song, K., Han, H., Kim, S., & Kwon, J. (2019). Thymosin beta 4 attenuates PrP(106-126)-induced human brain endothelial cells dysfunction. European Journal of Pharmacology, 869, 172891. https://doi.org/10.1016/j.ejphar.2019.172891

Sosne, G. (2018). Thymosin beta 4 and the eye: the journey from bench to bedside. Expert Opinion on Biological Therapy, 18(sup1), 99–104. https://doi.org/10.1080/14712598.2018.1486818

Sosne, G., Rimmer, D., Kleinman, H., & Ousler, G. (2016). Thymosin Beta 4. Vitamins and Hormones, 277–306. https://doi.org/10.1016/bs.vh.2016.04.012

Thevis, M., & Schänzer, W. (2014). Analytical approaches for the detection of emerging therapeutics and non-approved drugs in human doping controls. Journal of Pharmaceutical and Biomedical Analysis, 101, 66–83. https://doi.org/10.1016/j.jpba.2014.05.020

Thevis, M., Thomas, A., & Schänzer, W. (2014). Detecting peptidic drugs, drug candidates and analogs in sports doping: current status and future directions. Expert Review of Proteomics, 11(6), 663–673. https://doi.org/10.1586/14789450.2014.965159

Vasilopoulou, E., Kolatsi-Joannou, M., Lindenmeyer, M. T., White, K. E., Robson, M. G., Cohen, C. D., Sebire, N. J., Riley, P. R., Winyard, P. J., & Long, D. A. (2016). Loss of endogenous thymosin β4 accelerates glomerular disease. Kidney International, 90(5), 1056–1070. https://doi.org/10.1016/j.kint.2016.06.032

Wirsching, H., Krishnan, S., Florea, A., Frei, K., Krayenbühl, N., Hasenbach, K., Reifenberger, G., Weller, M., & Tabatabai, G. (2013). Thymosin beta 4 gene silencing decreases stemness and invasiveness in glioblastoma. Brain, 137(2), 433–448. https://doi.org/10.1093/brain/awt333

Zvereva, I., Semenistaya, E., Krotov, G., & Rodchenkov, G. (2016). Comparison of various in vitro model systems of the metabolism of synthetic doping peptides: Proteolytic enzymes, human blood serum, liver and kidney microsomes and liver S9 fraction. Journal of Proteomics, 149, 85–97. https://doi.org/10.1016/j.jprot.2016.08.016

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