By engineering a system replicating the womb lining with high biological accuracy, researchers at the Babraham Institute and ...

Transposable elements are stretches of DNA that can move around the genome. Many of these DNA sequences originate from long ...

A new study from the MRC Laboratory of Medical Sciences (LMS) in London, UK reveals how ancient viral DNA once written off as ...

The viral transposable element, MERVL, acts as a central switch during early embryonic development, driving totipotent gene ...

Scientists captured first real-time 3D video of human embryo implantation, revealing mechanical forces behind successful ...

Scientists have developed an experimental way to study how human embryos implant in a uterus, which may provide new insights into why miscarriages occur and how they can be prevented.

The post Exciting Advancement In 3D Embryo Models Shows Lab-Grown Cells Making Their Own Blood Supply first on TwistedSifter.

Neal D. Amin is in the Department of Psychiatry and Behavioral Sciences, Stanford University, Stanford, California 94305, USA, and in the Stanford Brain Organogenesis Program, Wu Tsai Neurosciences ...

Despite being an essential developmental process, the understanding of human embryonic genome activation is limited, owing to the lack of in vitro cell models and ethical concerns. To advance ...

Under the microscope, MSK scientists studied how cells in a mouse embryo (green) move out and break away from their original tissue by contracting their surfaces (red). Studying this process, known as ...

Researchers have gained new insights into the mechanism behind the spatial organization of DNA within the cells of early embryos. When an embryo is first formed after fertilization, each cell has the ...