In essence, athletes who repeatedly train and compete in pressure-filled environments are rewiring their brain to respond more effectively to those demands. This rewiring, from repeated exposures, ...

More than one-sixth of adults around the world experience infertility in their lifetime. There is a high unmet need not only ...

Scientists at UC San Diego have discovered a small but powerful section of DNA, called HAR123, that could help explain what ...

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The study provides valuable technical advances to generate and isolate neural rosettes. The technique is robust, as indicated by both reviewers. The evidence is solid, as shown in orthogonal ...

Biocomputers have been an alternative to conventional methods of testing potential drug therapies. Computers that combine living human brain cells with silicon chips to form a neural network can now ...

During the tightly regulated gastrulation, embryonic cells differentiate into the three germ layers – endoderm, mesoderm, and ectoderm – which eventually give rise to all tissues and organs.

A research team led by Professor Takuya Yamamoto and Assistant Professor Ryusaku Matsumoto (Department of Life Science ...

Stem cells differentiated into brain and neural organoids may help scientists understand both brain development and ...

Novel allogeneic stem cells and differentiated iPSCs are providing more physiologically relevant disease models.

To do this, researchers first grew neural cells from separate brain regions along with basic blood vessels in an array of lab dishes.

Johns Hopkins University researchers have grown a novel whole-brain organoid, complete with neural tissues and rudimentary blood vessels—an advance that could usher in a new era of research into ...