Silicon nanotube arrays deliver functional mRNA into human pluripotent stem cells for the first time, achieving up to 64% transfection without compromising stem cell identity.

Tissue Engineering (TE) strategies combining stem cells, biomaterial scaffolds, and biochemical/physical cues have emerged as promising approaches for the repair/replacement of injured tissues and ...

A team of stem cell scientists have successfully used embryonic stem cell engineering to create a bi-paternal mouse—a mouse with two male parents—that lived until adulthood. Their results, publishing ...

Johns Hopkins Medicine scientists say they have developed a simplified version of biodegradable nanoparticles that can ...

Research on preventing type 1 diabetes often focuses on limiting the autoimmune response that destroys the body’s ability to produce its own insulin. A new technology developed by scientists at the ...

The earliest days after fertilization, once a sperm cell meets an egg, are shrouded in scientific mystery. The process of how a humble single cell becomes an organism fascinates scientists across ...

Scott Coyle receives funding from the National Institute of Health, the National Science Foundation, and The David and Lucile Packard Foundation Waves are ubiquitous in nature and technology. Whether ...

A team of stem cell scientists have successfully used embryonic stem cell engineering to create a bi-paternal mouse -- a mouse with two male parents -- that lived until adulthood. Their results ...

Funded by the UB Provost, the new Center for Cell, Gene and Tissue Engineering (CGTE) will be led by SUNY Distinguished Professor Stelios Andreadis. “I am very happy to announce the launch of the Cell ...

The ISSCR has selected five distinguished early career scientists to serve as new Early Career Editors for Stem Cell Reports, the peer-reviewed, open access, online journal of the International ...