2022年，北京大学邓宏魁教授首次实现了完全利用化学小分子诱导人类体细胞转变为多能干细胞——化学诱导多能干细胞（CiPSC）【2】。传统的iPSC是通过在体细胞中过表达转录因子而产生的，而CiPSC的产生则采用了非生物的、小分子化学物质作为重编程因子 ...

A team of biologists in China has reprogrammed skin cells from giant pandas into induced pluripotent stem cells (iPSCs), ...

Individuals who display exceptional longevity provide evidence that humans can live longer, healthier lives. Centenarians (greater than 100 years of age) provide a unique lens through which to study ...

Specifically, they’ve been able to make induced pluripotent stem cells, or iPSCs. This is a type of cell that starts off as ...

Researchers at the Johns Hopkins University School of Medicine have mapped variation in human stem cells that explains how ...

Scientists have perfected the recipe to convert giant panda skin cells into stem cells to study the animal’s biology and aid ...

此次大熊猫iPSCs研究取得突破，丰富了大熊猫干细胞生物学特性认知，为大熊猫疾病治疗提供新途径。同时，大熊猫iPSCs也会促进胚胎和繁殖研究，为大熊猫遗传资源和种群保护奠定坚实基础。

RxCell has announced a US patent for its induced pluripotent stem cells (iPSCs)-based cell therapy approach, a method of ...

The biotech has secured $65m in a Series A funding round led by Cormorant Asset Management and other investors.

PSC-derived cells and micro-physiological systems provide significant advancements in enhancing neuronal disease models, ...

For the first time, Chinese scientists have cultivated stem cells of giant pandas which is expected to offer materials for ...

A Kyoto University-led research team said its studies on iPS cells pinpointed a medicine that halted the progression of amyotrophic lateral sclerosis (ALS) in patients for the first time in the world.