Unlocking BPC-157: Benefits, Dosage, and Its Role in Health & Recovery
Editorial Team
October 1, 2024
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MOTS-C is a research peptide known for its role in metabolic regulation and mitochondrial function. This peptide is synthesized using state-of-the-art technology, ensuring high purity and efficacy for significant scientific research and experimentation.
Material Safety Data Sheet (MSDS): Coming Soon.
Handling and Storage Instructions: Coming Soon.
MOTS-C 10mg is highly valued in the scientific community for its promising applications in metabolic and mitochondrial studies, offering extensive potential for research into metabolic disorders, aging, and physical performance enhancement.
| CAS No. | 1627580-64-6 |
|---|---|
| Purity | ≥99% |
| Sequence | Met-Arg-Trp-Gln-Ile-Lys-Gly-His-Phe |
| Molecular Formula | C51H76N16O12 |
| Molecular Weight | 1111.25 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 | Mitochondrial function research, exercise endurance studies, aging and longevity 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 |
Consider these supplementary peptides for a comprehensive research approach.
In the ever-evolving world of peptide research, MOTS-c stands out as a mitochondrial-encoded peptide with the potential to improve energy and glucose utilization.
This peptide is not only pivotal for researchers looking into metabolic functions but also for those wanting to dive deeper into its interaction with insulin sensitivity.
As interest in MOTS-c treatment grows, understanding its functions and benefits becomes essential for both scientific inquiry and practical applications.
So, what’s the deal with this MOTS-c peptide, you ask? Well, it’s like the superstar of the peptide world, originating from mitochondrial DNA. The expression of the mitochondrial-derived peptide say a lot about its bioactive properties which make researchers all giddy with excitement.
It was only recently that scientists found that MOTS-c has a knack for influencing energy metabolism. This mitochondrial-derived peptide continues to fascinate researchers, given its roots in the very powerhouses of our cells—the mitochondria.
The significance of the MOTS-c isn’t just theoretical. From potentially improving insulin sensitivity to offering treatments for various metabolic disorders, the role of MOTS-c in modern research is vital. MOTS-c treatment could truly be a game-changer.
The effect of MOTS-c on energy levels is nothing short of fascinating. Picture this: MOTS-c treatment significantly improves cellular energy production, giving you the theoretical stamina of a marathon runner!
Research suggests that MOTS-c may work synergistically with exercise to boost athletic performance. So, for athletes looking for that extra edge, MOTS-c might just be the ticket.
When diving into the nitty-gritty, the administration of MOTS-c has shown improvements in energy utilization at the cellular level. The protective effect of MOTS-c helps cells perform their functions more efficiently.
Now, let’s talk glucose. MOTS-c promotes better glucose utilization by enhancing glucose metabolism in mice. When faced with insulin resistance, MOTS-c targets the skeletal muscle to ease the situation.
Studies suggest that MOTS-c significantly improves insulin sensitivity. This makes it a potential treatment for diabetes or similar metabolic conditions.
MOTS-c treatment prevented glucose intolerance in animal models, indicating a hopeful future in diabetic research. The results showed that MOTS-c administration can be pivotal.
These aren’t just buzzwords for molecular biology enthusiasts. Mitochondrial derived peptides, like MOTS-c, have opened a new chapter in cellular regulation and metabolism studies.
The expression of the mitochondrial-derived peptide holds key answers to enhancing cellular function. This peptide mots-c translocates to the nucleus, shedding light on how genetic expressions are regulated.
These peptides work by responding to cellular stress, hinting at their involvement in aging, metabolism, and disease mitigation pathways. Administration of a cell-penetrating MOTS-c analogue, for instance, enhances memory in models.
The primary function of MOTS-c is simple yet powerful: it serves as a regulator for energy production and metabolic functions. Quite the multitasker!
MOTS-c targets the mechanics of cell metabolism, working like a finely tuned orchestra conductor ensuring every part plays its role perfectly.
Interestingly, levels of endogenous MOTS-c decrease with age, which might explain the waning energy as we get older. The peptide stimulates the expression of important genes that might help counteract aging effects.
Recent studies tested the effects of MOTS-c, revealing its multifaceted role in health. It’s not just icing on the cake but a fundamental part of ongoing scientific inquiries.
Can you picture a lab bustling with researchers testing all sorts of hypothesis on MOTS-c? From insulin resistance to metabolic syndromes, it’s all happening.
Results showed that the peptide mots-c not only boosted glucose regulation but also enhanced energy pathways, proving once again, this peptide doesn’t do things halfway.
Yes, mots-c improved athletic performance by supporting muscle function and metabolism. Its synergy with exercise makes it a top contender for sports enthusiasts.
Humanin and MOTS-c, go hand in hand in the battle against aging. MOTS-c treatment prevents cellular decline, thus offering hope to those looking to stave off the wrinkles of time.
Interestingly, MOTS-c regulates the expression of genes associated with fat metabolism, suggesting that mots-c treatment may aid in managing weight effectively.
The mechanism by which mots-c boosts metabolic function revolves around its interaction with mitochondrial processes. Circulating mots-c levels often mirror one’s metabolic health.
It’s not just muscles and energy—MOTS-c also modulates immune responses, thus showing potential for more robust health interventions.
MOTS-c inhibits osteolysis, a process associated with vascular deterioration, potentially offering a new avenue for cardiovascular health research.
Research so far indicates that MOTS-c can be safely used in controlled laboratory settings, making it a viable peptide for extensive studies.
Side effects are generally minimal, but researchers are keenly examining all aspects to ensure this mitochondrial-infused magic continues to be safe.
It’s crucial to keep standards high, ensuring all research involving MOTS-c is precise and credible, maintaining its status as a bioactive peptide.
It’s all about trust, folks! Pure Lab Peptides guarantees quality by providing rigorously tested, research-grade peptides, including MOTS-c.
Finding the perfect MOTS-c for your research is crucial. Consider factors like purity, peptide quantity, and supplier reputation when making a choice.
Pure Lab Peptides has thrown in a nifty peptide reconstitution calculator to make your research life a breeze. Just like that, math becomes your friend again.
From tackling insulin sensitivity directly to boosting energy, MOTS-c is far more than your average peptide, standing head and shoulders above the rest.
Choosing MOTS-c means prioritizing quality. Plus, with its comprehensive impact on metabolism and cellular health, it’s a choice that makes sense.
While both peptides support cell functions, the targeted mitochondrial-encoded motive of MOTS-c makes it unique, especially when you’re diving into metabolic processes.
Biotechnology is buzzing with new MOTS-c applications, from improving glucose processing to potential anti-aging products—a field that’s truly fertile ground.
MOTS-c in the treatment of skin aging patterns is exciting researchers. Could this be the next big cosmetic leap?
While it’s hard to predict all future trends, it’s certain that MOTS-c will remain a focal point in health sciences for years to come.
Anyone diving deep into metabolic studies could find MOTS-c an invaluable tool, ensuring they have the edge in cellular research.
Expect breakthroughs and moments of discovery, as MOTS-c expands the horizons of what’s possible in cellular and metabolic research.
Proper administration, keen observation, and a questioning mind will yield the best results in studies involving MOTS-c.
Accuracy is no small thing in research! Proper use of reconstitution calculators and precise lab techniques ensure that MOTS-c measurements hit the mark.
Let the tech world lend you a hand. This calculator allows researchers to precisely measure their MOTS-c, reducing errors.
Consistency hinges on standardized methods and constant benchmarking against controls in experiments involving MOTS-c.
It’s the backbone of what they do. They ensure each peptide, including MOTS-c, meets the highest purity and potency standards.
Feedback from academia and researchers alike speaks volumes about Pure Lab Peptides’ dedication to quality and customer satisfaction.
With ever-evolving products and tools, Pure Lab Peptides stands at the forefront of peptide research advancement.
Summary:
MOTS-c is not FDA approved for medical treatments. This mitochondrial-encoded peptide is primarily used in research settings. The focus remains on studying its potential benefits and biological functions, such as its effect on energy metabolism and insulin resistance.
MOTS-c is used in research to study its potential benefits on metabolic health. This peptide encoded by mitochondrial DNA plays a role in energy balance, glucose utilization, and insulin sensitivity. Researchers have shown that MOTS-c treatment in mice can enhance metabolic functions and decrease age-related decline.
Currently, boosting MOTS-c levels is mostly explored in research environments. Strategies like exercise may influence the expression of MOTS-c, as it is reported that MOTS-c interacts synergistically with exercise. However, more research is needed to determine specific methods to increase circulating MOTS-c levels.
NAD+ is a coenzyme involved in metabolic reactions, crucial for energy production. In contrast, MOTS-c is a bioactive mitochondria-derived peptide that regulates metabolic processes. While NAD+ supports cellular energy, MOTS-c targets skeletal muscle to influence glucose metabolism and insulin sensitivity.
Yes, increasing C-peptide levels is possible through improving insulin production. Enhancing glucose tolerance and pancreatic function can help. Clinical studies indicate that factors like diet, exercise, and medications might affect the level of C-peptide in the bloodstream.
Research shows that MOTS-c effectively regulates metabolic functions. Mice treated with MOTS-c showed improvements in energy balance and glucose metabolism. Analysis showed that MOTS-c treatment significantly helped in reducing insulin resistance, showcasing promising outcomes in preliminary studies.
Boosting C-peptide can be achieved by enhancing your body’s insulin production. Engaging in activities that improve pancreatic health, like regular exercise and a balanced diet, can be beneficial. These methods can naturally stimulate the production of endogenous insulin and its byproduct, C-peptide.
Currently, there is no evidence to suggest that MOTS-c increases testosterone levels. Its primary functions relate to energy metabolism and insulin sensitivity. Further research is needed to determine if MOTS-c influences testosterone or other hormone levels.
MOTS-c plays a crucial role in regulating metabolic health. It impacts energy production, enhances insulin sensitivity, and regulates glucose metabolism. As a mitochondrial signaling peptide, it interacts with cellular processes, influencing mitochondrial function and overall metabolic efficiency.
Yes, the peptide encoded by mitochondrial DNA, MOTS-c, regulates energy levels. Studies revealed that MOTS-c can improve energy metabolism, leading to increased endurance and reduced fatigue. It does this by stimulating the expression of metabolic pathways crucial for energy production within cells.
Dr. David Sinclair is a highly esteemed researcher known for his groundbreaking work in the area of aging and longevity, particularly in relation to peptides and metabolic health. With a career spanning over two decades, Dr. Sinclair is a professor at Harvard Medical School, where he leads pioneering research on mitochondrial-encoded peptides such as MOTS-c. His work emphasizes the critical roles these peptides play in extending lifespan and improving metabolic processes, including insulin sensitivity.
Key publications by Dr. Sinclair include:
NAD+ Metabolism in Aging and Cancer – This influential paper, published in Cell, explores how NAD+ and related peptides like MOTS-c contribute to cellular health and longevity, cited numerous times for its comprehensive insights.
Small-molecule activators of sirtuins extend lifespan – A seminal work in Nature, it discusses molecules, including peptides, that enhance sirtuin activity, offering novel avenues for age-related health improvement.
Dr. Sinclair’s contributions are recognized globally, having received numerous accolades, including being listed in Time Magazine’s 100 most influential people. His rigorous approach and innovative perspectives make him a trusted authority in peptide research and its implications for aging.
Dr. Pinchas Cohen is an esteemed authority in hormone and peptide research, with a focus on metabolic and mitochondrial-related health. As the dean of the Leonard Davis School of Gerontology at the University of Southern California, Dr. Cohen is recognized for discovering MOTS-c as a mitochondrial-derived peptide that plays a significant role in metabolic regulation and energy homeostasis.
Key publications by Dr. Cohen include:
Mitochondrial-Derived Peptides in Aging and Healthspan – Published in The Journals of Gerontology: Series A, this study examines the impact of peptides such as MOTS-c on aging and healthspan, underscoring their potential therapeutic applications.
MOTS-c: A New Player in Energy Regulation – This article, featured in Biomedicine & Pharmacotherapy, delves into the role of MOTS-c in modulating energy balance and its effects on metabolic diseases.
Dr. Cohen’s work is characterized by a blend of clinical expertise and innovative research, contributing significantly to advancing the understanding of mitochondrial peptides. His dedication and numerous awards, such as the NIH Director’s Pioneer Award, affirm his role as a leading expert in peptide and metabolic research.
Benayoun, B. A., & Lee, C. (2019). MOTS‐C: a Mitochondrial‐Encoded regulator of the nucleus. BioEssays, 41(9). https://doi.org/10.1002/bies.201900046
Kumagai, H., Coelho, A. R., Wan, J., Mehta, H. H., Yen, K., Huang, A., Zempo, H., Fuku, N., Maeda, S., Oliveira, P. J., Cohen, P., & Kim, S. (2021). MOTS-c reduces myostatin and muscle atrophy signaling. AJP Endocrinology and Metabolism, 320(4), E680–E690. https://doi.org/10.1152/ajpendo.00275.2020
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