Product Details – Cardiogen
Cardiogen peptide is a synthetic tetrapeptide bioregulator derived from sequences found in cardiac tissue. Bioregulator peptides are studied for their interactions with specific molecular pathways and intracellular signaling mechanisms under controlled experimental conditions.
This peptide has been investigated for its influence on cellular processes associated with cardiovascular tissue models and connective tissue at the molecular level. Research explores how Cardiogen interacts with cellular pathways involved in protein synthesis, oxidative stress modulation, and gene expression regulation in laboratory environments.
Mechanism of Action
Cardiogen peptide is examined for its capacity to enter cells and interact with intracellular signaling cascades.
Experimental studies indicate that Cardiogen may modulate gene expression by interacting with transcriptional and translational machinery. These interactions can influence protein synthesis pathways, particularly those involved in mitochondrial function and cellular energy metabolism.
Cardiogen is also observed to interact with molecular components involved in oxidative stress responses, including pathways regulating reactive oxygen species (ROS) and apoptosis-associated proteins. These interactions are being studied to understand peptide-mediated modulation of cellular homeostasis and structural protein maintenance.
At the biochemical level, Cardiogen’s activity involves regulation of molecular signaling cascades that impact tissue structural proteins and mitochondrial pathways. These processes are strictly studied in laboratory and preclinical models, without implications for human or animal use.
Chemical Properties of Cardiogen
| Property | Value |
| Product Name | Cardiogen Peptide |
| Alternative Names | Ala-Glu-Asp-Pro, Cardiac Bioregulator Peptide |
| Molecular Formula | C18H31N7O9 |
| Molecular Weight | 489.48 g/mol |
| PubChem CID | 11583989 |
| Shelf Life | At least 2 years |
Research Applications
Gene Expression Modulation
Cardiogen peptide is studied for its influence on intracellular gene expression pathways. Research focuses on how the peptide may interact with transcriptional regulators and signaling molecules to modulate the production of proteins associated with tissue structure and mitochondrial activity.
Oxidative Stress Pathway Research
Laboratory investigations explore Cardiogen’s interaction with molecular pathways involved in oxidative stress regulation. These studies examine how peptide signaling may influence reactive oxygen species levels and apoptosis-related protein activity under controlled conditions.
Protein Synthesis and Mitochondrial Function
Cardiogen peptide is also applied in research on protein synthesis pathways relevant to mitochondrial function. These studies analyze how peptide interaction with translational machinery may affect energy metabolism and cellular structural protein regulation in experimental systems.
Why Choose BehemothLabz to Buy Cardiogen for Research
BehemothLabz supplies research-grade Cardiogen produced under controlled laboratory conditions with strict quality assurance protocols in place. Each batch undergoes detailed analytical verification to ensure consistency in molecular composition and purity.
In addition, comprehensive documentation, including laboratory testing reports and sourcing transparency, supports reproducibility across experimental applications. BehemothLabz maintains a compliance-focused approach, ensuring that all compounds are supplied exclusively for laboratory-based investigation and analytical research.
Disclaimer
Cardiogen is intended strictly for laboratory research and analytical purposes only. It is not designed for diagnostic procedures, therapeutic applications, or any form of in vivo study.
All references to biochemical pathways, receptor interactions, and enzymatic processes are provided solely within a research context. This compound must be handled only by qualified professionals within controlled laboratory environments, in accordance with applicable regulations and safety standards.
Any use outside of these defined research conditions is strictly prohibited.
References
- Levdik, N. V., & Knyazkin, I. V. (2009). Tumor-modifying effect of cardiogen peptide on M-1 sarcoma in senescent rats. Bulletin of experimental biology and medicine, 148(3), 433–436. https://doi.org/10.1007/s10517-010-0730-9
- Chalisova, N. I., Lesniak, V. V., Balykina, N. A., Urt’eva, S. A., Urt’eva, T. A., Sukhonos, I.uA., & Zhekalov, A. N. (2009). Advances in gerontology = Uspekhi gerontologii, 22(3), 409–413. https://pubmed.ncbi.nlm.nih.gov/20210190/
