Bronchogen - 20mg

Bronchogen – 20mg

$79.00

For research purposes only. Not for human or animal use & not FDA-approved. By purchasing, you confirm you are 21 or older and qualified researcher.

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Description

Bronchogen

Research-Grade Peptide Bioregulator (Bronchopulmonary Tissue)
Tagline: Respiratory & Epithelial Regulation Research

Product Description

Bronchogen is a short synthetic peptide bioregulator derived from naturally occurring regulatory peptides found in bronchial and lung tissue. It belongs to the class of tissue-specific cytomedins, studied for their role in gene expression modulation, epithelial repair, and pulmonary tissue homeostasis.

In laboratory research, Bronchogen is used to explore respiratory epithelial regeneration, inflammatory regulation, oxidative stress response, and age-related pulmonary decline. Its short peptide structure allows it to interact with DNA and regulatory proteins, influencing transcription processes involved in tissue maintenance and repair.

For Laboratory and Scientific Research Use Only. Not for Human Consumption.

Why Researchers Choose Bronchogen

  • Tissue-specific peptide bioregulator targeting bronchopulmonary systems

  • Used in respiratory epithelial repair and regeneration models

  • Supports gene-expression regulation research

  • Relevant to inflammation and oxidative stress studies

  • Short peptide structure with high cellular compatibility

  • Well-documented bioregulator class in gerontology and regenerative research

Important Note

For laboratory and scientific research only. Not for human consumption, diagnostic, or therapeutic use.

Details

Compound Name Bronchogen
Peptide Class Tissue-specific peptide bioregulator (bronchopulmonary)
Peptide Length Short peptide (2–4 amino acids)
Origin Concept Bronchial and lung tissue regulatory peptides
Intended Research Use Respiratory epithelial repair, inflammation, gene regulation studies

Research

Research Applications

Respiratory Epithelium Regeneration

Bronchogen is studied for its ability to support epithelial cell renewal and restore bronchial tissue integrity in experimental injury and aging models.

Gene Expression & Cellular Regulation

Bioregulator peptides influence DNA–protein interactions, allowing researchers to examine how short peptides regulate transcription of tissue-specific genes involved in pulmonary maintenance.

Inflammation & Oxidative Stress Modulation

Bronchogen is applied in models investigating cytokine signaling, oxidative injury, and inflammatory responses in lung and airway tissues.

Pulmonary Aging Research

Age-associated decline in respiratory tissue function is a focus area where Bronchogen is used to study cellular resilience and regeneration signaling.

References

  1. Ashapkin VV, et al. (2021).
    Peptide Regulation of Gene Expression: A Systematic Review. Molecules. 26(22):7053.
    https://www.mdpi.com/1420-3049/26/22/7053

  2. Khavinson VKh, Linkova NS. (2016).
    Short Biologically Active Peptides as Epigenetic Modulators of Gene Expression.
    In Peptide Drug Discovery and Development. Springer.
    https://link.springer.com/chapter/10.1007/978-3-319-27186-6_5

  3. Khavinson VKh, et al. (2009).
    Peptide bioregulation of aging: results and prospects. Biogerontology.
    https://link.springer.com/article/10.1007/s10522-009-9249-8

  4. Biolongevity Labs.
    Bronchogen peptide in respiratory cell regulation.
    https://biolongevitylabs.com/research/bronchogen-peptide/

  5. The Peptide Company.
    Bronchogen short peptide bioregulator for bronchial and pulmonary tissue research.
    https://www.thepeptidecompany.co/post/bronchogen-short-peptide-bioregulator-for-bronchial-and-pulmonary-tissue-research

  1. Anisimov VN, Khavinson VKh. (2010).
    Peptide bioregulators and aging of the respiratory system. Advances in Gerontology.
    https://link.springer.com/article/10.1134/S2079057010030024

Mechanism of Action

Mechanism of Action

  • Epigenetic gene regulation: Short peptides interact with DNA to influence transcription of tissue-specific genes

  • Epithelial cell support: Enhances bronchial epithelial repair and renewal pathways

  • Inflammatory modulation: Regulates cytokine expression in respiratory tissues

  • Oxidative stress resistance: Supports cellular defense mechanisms against ROS

  • Tissue homeostasis signaling: Maintains functional stability of bronchopulmonary cells

References

  1. Ashapkin VV, et al. (2021).
    Peptide Regulation of Gene Expression: A Systematic Review. Molecules. 26(22):7053.
    https://www.mdpi.com/1420-3049/26/22/7053

  2. Khavinson VKh, Linkova NS. (2016).
    Short Biologically Active Peptides as Epigenetic Modulators of Gene Expression.
    In Peptide Drug Discovery and Development. Springer.
    https://link.springer.com/chapter/10.1007/978-3-319-27186-6_5

  3. Khavinson VKh, et al. (2009).
    Peptide bioregulation of aging: results and prospects. Biogerontology.
    https://link.springer.com/article/10.1007/s10522-009-9249-8

  4. Biolongevity Labs.
    Bronchogen peptide in respiratory cell regulation.
    https://biolongevitylabs.com/research/bronchogen-peptide/

  5. The Peptide Company.
    Bronchogen short peptide bioregulator for bronchial and pulmonary tissue research.
    https://www.thepeptidecompany.co/post/bronchogen-short-peptide-bioregulator-for-bronchial-and-pulmonary-tissue-research

  1. Anisimov VN, Khavinson VKh. (2010).
    Peptide bioregulators and aging of the respiratory system. Advances in Gerontology.
    https://link.springer.com/article/10.1134/S2079057010030024

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