Nad+
53-84-9
Ohfg
53-84-9
Pharmaceutical Intermediates
Powder
Janoshik
White
Yes
Customized
Elderly, Children, Adult
>99%
Janoshik
Powder
99%
Exceed Content
Yes
Janoshik
Yes
7-12days
Enjoy Free Second Payment for Customs Issues
Beauty and Anti-Aging
Cocer
Concealed Transportation
10mg
China
3001200010
Product Description
| Purity | 99%+ | Private customization | 2mg 5mg 10mg 15mg 20mg 30me etc. | |
| Cleanliness | Sterile | Transportation time | 7-15days | |
| Actual peptide content | Exceed the standard | Disguise | Can provide | |
| Test Report | Janoshik Test Report | Resend policy | According to different countries | |
| Customized top color | Red Yellow Blue Black Purple White Green | Payment method | Bank Transfer BTC USDT Paypal |
The main function of NAD+ is manifested in the mitochondria of body cells. Mitochondria are the "powerhouses of the cell" that provide energy to the cell by producing adenosine triphosphate (ATP), an energy storage molecule.
In cells, mitochondria make ATP in a number of different ways. The electron transport chain is one of the most efficient ways to produce ATP within the mitochondria, which can meet most of the energy needs of the body's cells. In this process, the coenzyme NAD+ acts as a transfer mechanism, delivering electrons to enzymes in the mitochondria to produce ATP.
When NAD+ accepts electrons, a positively charged hydrogen ion is added to the structure of NAD+, turning into NADH. NADH then transfers electrons to other enzymes and releases hydrogen ions, and NADH turns back into NAD+.
After delivering the electrons, NAD+ has completed its mission. The electrons power the enzymes in the mitochondria, which are arranged in an orderly manner to pass the electrons from one enzyme to the next until they reach the final step, ATP Synthase, to make ATP. Finally, ATP is sent throughout the cell, providing energy. In summary, NAD+ is an important electron transport carrier that can initiate the electron transport chain and drive mitochondria to produce and provide energy.
In cells, mitochondria make ATP in a number of different ways. The electron transport chain is one of the most efficient ways to produce ATP within the mitochondria, which can meet most of the energy needs of the body's cells. In this process, the coenzyme NAD+ acts as a transfer mechanism, delivering electrons to enzymes in the mitochondria to produce ATP.
When NAD+ accepts electrons, a positively charged hydrogen ion is added to the structure of NAD+, turning into NADH. NADH then transfers electrons to other enzymes and releases hydrogen ions, and NADH turns back into NAD+.
After delivering the electrons, NAD+ has completed its mission. The electrons power the enzymes in the mitochondria, which are arranged in an orderly manner to pass the electrons from one enzyme to the next until they reach the final step, ATP Synthase, to make ATP. Finally, ATP is sent throughout the cell, providing energy. In summary, NAD+ is an important electron transport carrier that can initiate the electron transport chain and drive mitochondria to produce and provide energy.
Peptides are composed of amino acids linked together by Peptides. The smallest Peptides can consist of three amino acids, such as thyrotropin-releasing hormone (TRH). Most Peptides can be made up of dozens or even hundreds of amino acids. The primary secretion organs for Peptides are the hypothalamus and the pituitary gland; however, Peptides have also been found in other organs, such as the gastrointestinal tract, brain tissue, lungs, and heart. Peptides are a type of endogenous substance that consists of protein chains containing polypeptide compounds. Examples of Peptides include thyrotropin-releasing hormone, Peptides and its analogs, Peptides and its analogs, adrenocorticotropic hormone, gonadotropins, Peptides and its analogs, Peptides-like Peptides, calcitonin, and parathyroid hormone.
The functions of Peptides include:
1:Growth Effects: They promote the division and proliferation of cells in bones, cartilage, muscles, and other tissues, leading to increased protein synthesis. This promotes bone growth during childhood and adolescence and is primarily used clinically for the treatment of dwarfism.
2:Metabolic Effects: They increase muscle mass and enhance tendon strength, resulting in stronger muscles and increased power, providing a competitive advantage. This is one reason why they are used as performance enhancers.
3:Anti-Aging Effects: They are frequently used in the field of cosmetics.
2:Metabolic Effects: They increase muscle mass and enhance tendon strength, resulting in stronger muscles and increased power, providing a competitive advantage. This is one reason why they are used as performance enhancers.3:Anti-Aging Effects: They are frequently used in the field of cosmetics.
1. How can I confirm the quality of the product before purchasing?
Answer: We can provide samples, and we have authoritative testing reports from the Janoshik laboratory.
2. Do you provide after-sales service after shipping?
Answer: Our customer service is available 24/7, and we will immediately assist you with any product issues, including shipping problems.
3. How long does delivery take?
Answer: It depends on your location; typically, the time is 7-12 days, which is the fastest logistics speed available.
4. What type of products do you mainly focus on?
Answer: Cocer Pharmaceutical has been specializing in peptide products for 30 years, focusing on the production of peptides in the health, fitness, weight loss, and beauty fields since 1990. All products have been tested by the Janoshik laboratory and come with detailed testing reports.
