NMN is an inherent substance in the human body and is also rich in some fruits and vegetables. In human body, NMN is the precursor of NAD +, and its function is reflected through NAD +. NAD + also known as coenzyme I, fully known as nicotinamide adenine dinucleotide, exists in every cell and participates in thousands of reactions.
NMN has important physiological functions on human cells. It can be synthesized naturally in cells. It can also come from a variety of foods, including broccoli, cabbage, cucumber, soybeans, avocado, etc. In human body, NMN is the precursor of NAD + synthesis, and its physiological function is mainly reflected by improving the level of NAD +. NAD + is also called coenzyme I, and its full name is nicotinamide adenine dinucleotide. NAD + in cells, not only as a coenzyme, but also as a substrate for a variety of signal reactions, participates in hundreds of reactions. In a paper published in 2016, scientists from the University of Washington School of medicine pointed out that after mice ingested drinking water dissolving NMN, the concentration of NMN in blood gradually increased within 10 minutes, and within 30 minutes, NMN entered multiple tissues with blood circulation, synthesized NAD + in tissues and increased NAD + level
NMN is an inherent substance in the human body and is also rich in some fruits and vegetables. In human body, NMN is the precursor of NAD +, and its function is reflected through NAD +. NAD + also known as coenzyme I, fully known as nicotinamide adenine dinucleotide, exists in every cell and participates in thousands of reactions.
NMN has important physiological functions on human cells. It can be synthesized naturally in cells. It can also come from a variety of foods, including broccoli, cabbage, cucumber, soybeans, avocado, etc. In human body, NMN is the precursor of NAD + synthesis, and its physiological function is mainly reflected by improving the level of NAD +. NAD + is also called coenzyme I, and its full name is nicotinamide adenine dinucleotide. NAD + in cells, not only as a coenzyme, but also as a substrate for a variety of signal reactions, participates in hundreds of reactions. In a paper published in 2016, scientists from the University of Washington School of medicine pointed out that after mice ingested drinking water dissolving NMN, the concentration of NMN in blood gradually increased within 10 minutes, and within 30 minutes, NMN entered multiple tissues with blood circulation, synthesized NAD + in tissues and increased NAD + level