Nature has no shortage of patterns, from spots on leopards to stripes on zebras and hexagons on boxfish. But a full explanation for how these patterns form has remained elusive. Now engineers at CU ...

Biophysicists figure out how bacteria form robust patterns despite changing environmental conditions and fluctuating protein concentrations. Biological patterns are essential for many processes of ...

A new theory enables the simulation of complex pattern formation in biological systems across different spatial and temporal scales. For many processes important for life such as cell division, cell ...

Add Yahoo as a preferred source to see more of our stories on Google. Color patterns seen in fish and other animals evolved to serve various purposes. Lagunatic Photo/iStock via Getty Images Plus A ...

Efficient Methods for Solving Diffusion-Reaction Systems of Fractional Order Type Nonlocality and spatial heterogeneity of many practical systems have made fractional differential equations very ...

Biological patterns often develop in a mathematically predictable way. Fifty years ago Alan Turing invoked differential equations describing the interaction of an activator molecule and its inhibitor, ...

Physicists have shown how fluid flows influence the formation of complex patterns. The formation of patterns is a universal phenomenon that underlies fundamental processes in biology. An example are ...

This article was originally featured on The Conversation. Patterns on animal skin, such as zebra stripes and poison frog color patches, serve various biological functions, including temperature ...

New method reveals chemical signs of early microbial life in ancient Earth rocks, showing photosynthesis evolved much earlier than believed.

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 ...