Product name | Spermidine |
Other name | N-(3-Aminopropyl)-1,4-butanediamine;SpermidineN-(3-Aminopropyl)-1,4-butanediamine;4-azaoctamethylenediamine |
CAS /span> | 124-20-9 |
Molecular formula | C7H22N3 |
Molecular weight | 148.29 |
Purity | 20% with 80% silicon oxygen |
Appearance | White crystaler |
Packing | 1 kg/bag & 25kg/drum |
Application | Dietary supplement material |
3Product introduction
Spermidine, a low molecular weight alitic carbide containing 3 amine groups, is one of the natural polyamines present in all living organisms. One of the important raw materials for drug synthesis is widely used in the synthesis of rmaceutical intermediates. Spermidine maintains membrane stability, increases antioxidant enzyme activity, and improves tosystem II (PSII) and related gene expression. Spermidine also significantly reduced H2O2 and O2.- levels. Spermidine is a precursor of spermidine, derived from putrescine, which promotes the structural stability of membranes and nucleic acids. Spermidine has a variety of amazing effects, including but not limited to regulating circadian rhythm, improving hypertension, protecting cardiovascular, preventing Alzheimer's, boosting immunity, fighting cancer and even anti-aging.
4Feature
Spermidine is a naturally occurring polyamine compound commonly found in food. It is essential for growth and survival. Spermidine maintains membrane stability, increases antioxidant enzyme activity, and improves tosystem II (PSII) and related gene expression. Spermidine also significantly reduced H2O2 and O2.- levels. Colorless transparent liquid, soluble in water, alcohol and ether; It is hygroscopic.
Solid powder can be used in variety formulations.
5Applications
Spermidine is involved in many biological processes in vivo, such as regulating proliferation, aging, organ development, immunity, cancer and other siological and pathological processes. Recent studies have shown that spermidine plays an important role in regulating synaptic plasticity, oxidative stress and autogy in the nervous system. Spermidine can slow protein aging. Because different molecular weight proteins may play different roles in the aging process, some large molecular weight proteins may play a key role in controlling the aging process of leaves. Once these proteins begin to degrade, aging is inevitable, and controlling the degradation of these proteins can delay the aging process.
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