Scientists are exploring how gene expression patterns and their timing regulate cell differentiation. Today, researchers understand that the specialized, differentiated cell types of the adult ...

The sugar glucose, which is the main source of energy in almost every living cell, has been revealed in a Stanford Medicine study to also be a master regulator of tissue differentiation - the process ...

Genetic engineering in non-human primates has long been limited by the need for virus-based gene delivery methods. Recently, ...

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

7 Proper regulation of splicing factors ensures accurate tissue-specific gene expression and cell differentiation. Alternative splicing is conserved throughout the phylogenetic tree with the same ...

Every second, an adult generates around five million new blood cells to replace aging or dying ones, making the blood system a highly regenerative organ.

The authors have generated important resources such as a reference dataset of early primate development by utilizing single-cell transcriptomic technology together with induced pluripotent stem cells ...

Genetic engineering in non-human primates has long been limited by the need for virus-based gene delivery methods. Recently, ...

In particular, we are interested in understanding how changes in metabolite availability shape the chromatin landscape to influence gene expression programs that control cell survival, growth and ...

Researchers at the Kennedy Institute have developed a new computational framework that allows simultaneous analysis of gene expression and mechanical forces within cells and tissues, uncovering ...

A new treatment possibility has been confirmed for ischemic cardiovascular disease, which does not have a suitable treatment ...