自2016年美国国立抗衰老研究中心首次确认烟酰胺腺嘌呤二核苷酸(Nicotinamide adenine di… 继续阅读华盛顿大学首次发现可运输“抑衰分子”的关键物质
分类: 基础研究
抑衰之路新发现〡《自然代谢》:CD38蛋白决定体内NAD+的下降程度
素有“生命必需分子”之称的烟酰胺腺嘌呤二核苷酸(Nicotinamide adenine dinucleoti… 继续阅读抑衰之路新发现〡《自然代谢》:CD38蛋白决定体内NAD+的下降程度
宾大科学家首次鉴定出一种协助NAD+进入人体线粒体的关键蛋白
今年夏天,“百米飞人”田径运动员苏炳添、“不老军神”举重运动员吕小军、一投定乾坤铅球运动员巩立姣等华夏儿女一次… 继续阅读宾大科学家首次鉴定出一种协助NAD+进入人体线粒体的关键蛋白
NAD+ Booster Improves Oocyte Quality
Highlights: Egg cells (oocytes) in female mice fe… 继续阅读NAD+ Booster Improves Oocyte Quality
NMN Limits Senescence of Vital Lung Cells
Highlights Senescence of lung cells called alveolar epi… 继续阅读NMN Limits Senescence of Vital Lung Cells
Fluctuating Molecule Levels in the Blood May Indicate Signs of Aging
Previous research has shown that aging can be combatted… 继续阅读Fluctuating Molecule Levels in the Blood May Indicate Signs of Aging
CD38 Enzymes on Immune Cell Surfaces Drive Declining NAD+ Levels with Age
Nicotinamide adenine dinucleotide (NAD+) is an essentia… 继续阅读CD38 Enzymes on Immune Cell Surfaces Drive Declining NAD+ Levels with Age
The Cell Compartment Subdivision of NAD+ is Critical to Mammalian Life
The roles of the vital molecule nicotinamide adenine di… 继续阅读The Cell Compartment Subdivision of NAD+ is Critical to Mammalian Life
Blood Cancer Therapy May Provide a Strategy for Age-Related Disease Treatments
Chimeric antigen receptor (CAR) T cells, genetically al… 继续阅读Blood Cancer Therapy May Provide a Strategy for Age-Related Disease Treatments