A team of researchers have expanded Alan Turing's seminal theory on how patterns are created in biological systems. This work may answer whether nature's patterns are governed by Turing's mathematical ...

Chris Konow researches the impact of growth on Turing patterns in the Epstein Lab. Turing patterns are named after the British mathematician Alan Turing, who proposed a mechanism for how ...

A primordial developmental toolkit shared by all vertebrates, and described by a theory of the mathematician Alan Turing, sets the growth pattern for all types of skin structures. In 1952, well before ...

One of the things the human brain naturally excels at is recognizing all sorts of patterns, such as stripes on zebras, shells of turtles, and even the structure of crystals. Thanks to our progress in ...

Learn how different animals get their stripes. Would you believe the answer is… math? This is the story of a WWII wartime codebreaker and his quest to decode nature’s most beautiful patterns. Alan ...

Nature is full of many patterned animals, from the stripes on zebras, spots on leopards, to the intricate details on sea creatures. Researchers have studied for a long time the biological explanation ...

Many have heard of Alan Turing, the mathematician and logician who invented modern computing in 1935. They know that Turing, the cryptologist who cracked the Nazi Enigma code, helped win World War II.

A team of researchers at EMBL have expanded Alan Turing's seminal theory on how patterns are created in biological systems. This work, which was partly done at the Centre for Genomic Regulation (CRG), ...

Chris Konow researches the impact of growth on Turing patterns in the Epstein Lab. Turing patterns are named after the British mathematician Alan Turing, who proposed a mechanism for how ...