The morphogenesis of brain folding patterns across species is studied by physical gel models, simulations, and a quantitative morphometric analysis.

A long-term aim of the life sciences is to understand how organismal shape is encoded by the genome. An important challenge is to identify mechanistic links between the genes that control cell-fate ...

Our understanding of the mechanisms by which ducts and lobules develop is derived from model organisms and three-dimensional (3D) cell culture models wherein mammalian epithelial cells undergo ...

Sixty years after Alan Turing's death, researchers have provided the first experimental evidence that validates Turing's theory of chemical morphogenesis in cell-like structures. This research could ...

Alan Turing’s accomplishments in computer science are well known, but lesser known is his impact on biology and chemistry. In his only published paper on biology, Turing proposed a theory of ...

In the quest to understand how complex life forms develop from a single cell, scientists have long studied the intricate processes of morphogenesis. However, the ability to direct and manipulate these ...

In the last several decades work on model organisms has revealed that small numbers of highly conserved signaling molecules are repeatedly utilized in various stages of development across species.

A recent report by the United Nations’ Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services (IPBES) report reveals that the health of our ecosystems on which we and all ...