Beta-Nicotinamide Mononucleotide (NMN)
Product Description:
NMN (Nicotinamide mononucleotide): The full name is "β-nicotinamide mononucleotide", which is a naturally occurring biologically active nucleotide. There are two irregular forms of NMN, α and β; β isomer is the active form of NMN with a molecular weight of 334.221 g/mol. Because nicotinamide belongs to vitamin B3, NMN belongs to the category of vitamin B derivatives. It is widely involved in many biochemical reactions of the human body and is closely related to immunity and metabolism.
The substances inherent in the human body are also rich in some fruits and vegetables. In the human body, NMN is the most direct precursor of NAD+, and its function is manifested through NAD+. NAD+ is also called Coenzyme I, and its full name is nicotinamide adenine dinucleotide. It exists in every cell and participates in thousands of reactions. In a variety of cellular metabolic reactions, nicotinamide adenine dinucleotide (NAD) molecules play an important role and are an important support for cells to maintain vitality.
The decline of NAD in the aging process is considered to be the main cause of diseases and disability, such as hearing and vision loss, cognitive and motor dysfunction, immune deficiency, arthritis, metabolic disorders and cardiovascular diseases caused by dysregulation of autoimmune inflammation. Therefore, supplementation of NMN increases the NAD+ content in the body, thereby delaying, improving, and preventing various phenotypes related to aging, or age-induced metabolic disorders, senile diseases, etc.
Product Picture:
What's NMN ?
NR is often thought of as the most efficient
precursor to NAD+, but its cousin molecule NMN is
raising eyebrows as the new kid on the block in the
field of aging.
Nicotinamide mononucleotide (NMN) is a
derivative of the B-vitamin niacin that dramatically
improves health and longevity by serving as a
precursor to NAD+, a compound that plays a crucial
role in energy production, metabolism, and gene
expression in the body.
When we boost NMN levels in the body, we can
enhance the biosynthesis of NAD+ and alleviate
symptoms associated with depletion of this crucial
nutrient.
How is NDA+ Function?
Why we need NMN?
Scientists have discovered that as we get
older, our NAD+levels steadil decrease,
and by the time we got to our late 70s
and 80s, our NAD+ levels appear to be
very much lower, than those of younger
people.
Key Technical Parameters:
Item |
Standard |
Assay(HPLC) |
≥99.0% |
Organoleptic |
Appearance |
Powder |
Color |
White |
Physical Characteristics |
Moisture |
≤1.0% |
Ethanol |
≤5000ppm |
Bulk Density |
Loose Density |
-- |
Tight Density |
-- |
pH Value |
2.0-4.0 |
Heavy metals |
Lead(Pb) |
≤0.5ppm |
Arsenic(As) |
≤0.5ppm |
Mercury(Hg) |
≤0.5ppm |
Cadmium(Cd) |
≤0.5ppm |
Microbiological Tests |
Total Plate Count |
≤500cfu/g |
E.Coli. |
≤3.0MPN/g |
Function of NMN:
Application:
Nicotinamide mononucleotide ("NMN" and "β-NMN") is a nucleotide derived from ribose and nicotinamide.
Niacinamide (nicotinamide) is a derivative of vitamin B3, also known as niacin. As a biochemical precursor of NAD+, it may be useful in the prevention of pellagra.
Its precursor, niacin, is found in a variety of nutritional sources: peanuts, mushrooms (portobello, grilled), avocados, green peas (fresh), and certain fish and animal meats.
In studies on mice, NMN has shown to reverse age-related arterial dysfunction by decreasing oxidative stress. A long-term study indicates that NMN can slow down the physiologic decline in ageing mice. As a result, the older mice in the study have metabolism and energy levels resembling those of younger mice, with extended life spans. However, NMN did not show similar beneficial effects in young mice.