Representative fluorescent image of a stochastic Turing pattern of signalling molecules in a biofilm of forward-engineered E. coli cells. The field of view is about 300 microns across. Right: Computer ...

A mixture of two types of pigment-producing cells undergoes diffusiophoretic transport to self-assemble into a hexagonal pattern. Credit: Siamak Mirfendereski and Ankur Gupta/CU Boulder A zebra’s ...

Scientists may have finally solved the mystery of how some animals get their stripes and spots. There are many animals that have these patterns on their skin or fur—including tigers, zebras and the ...

Extending Turing's theory to help understand how biological patterns are created. (Image: Xavier Diego, EMBL) Alan Turing sought to explain how patterns in nature arise with his 1952 theory on ...

New research helps explain how sharp patterns form on zebras, leopards, tropical fish and other creatures. Their findings could inform the development of new high-tech materials and drugs. Nature has ...

Shortly before his death, Alan Turing published a provocative paper outlining his theory for how complex, irregular patterns emerge in nature—his version of how the leopard got its spots. These ...

Using a new computer model, scientists simulated the stripes, spots and hexagons on a species of boxfish, imperfections and all. A male ornate boxfish with distinctive, complex patterns of stripes and ...

In his only paper on biology Alan Turing the computing science pioneer and renowned mathematician, proposed a theory of morphogenesis, in which he hypothesized how chemical reactions might produce ...