UCSC scientists have used CRISPR to develop programmable embryoids that can be used to study early embryo development and ...

Using CRISPR-based engineering methods to prompt stem cells to organize into embryo-like structures, scientists were able to create 'programmable' cellular models of embryos without ever experimenting ...

Scientists have found a way to study early embryonic development without real embryos. Using CRISPR, they programmed stem cells to self-organize into structures mimicking early embryos. The cells show ...

A growing body of work suggests that cell metabolism — the chemical reactions that provide energy and building materials — ...

The pluripotent and multipotent stem cells are found in the bone marrow, which can differentiate into any tissue in the body.

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 ...

First Mouse With Two Male Parents to Reach Adulthood Jan. 28, 2025 — A team of stem cell scientists have successfully used embryonic stem cell engineering to create a bi-paternal mouse -- a ...

Embryonic stem cells and induced pluripotent stem cells are pluripotent stem cells. Ubiquitin-specific peptidase 22 (USP22) is identified as a key chromatin-based barrier to human iPSC derivation ...

Stem cell therapy has emerged as a groundbreaking treatment option for corneal injuries, offering hope to individuals suffering from severe damage to the cornea.Cornea is the transparent, dome-shaped ...

Using CRISPR-based engineering methods to prompt stem cells to organize into embryo-like structures, scientists at UC Santa Cruz were able to create “programmable” cellular models of embryos without ...