MIT chemists explain why dinosaur collagen may have survived for millions of years
The researchers identified an atomic-level interaction that prevents peptide bonds from being broken down by water.
Study explains how part of the nucleolus evolved
A single protein can self-assemble to build the scaffold for a biomolecular condensate that makes up a key nucleolar compartment.
Focus on function helps identify the changes that made us human
A new approach for identifying significant differences in gene use between closely-related species provides insights into human evolution.
Studying phages far from home
Biology graduate student Tong Zhang has spent the last two years learning the intricacies of how bacteria protect themselves.
River erosion can shape fish evolution, study suggests
The new findings could explain biodiversity hotspots in tectonically quiet regions.
3 Questions: A new model of nervous system form, function, and evolution
Developing a new neuroscience model is no small feat. New faculty member Brady Weissbourd has risen to the challenge in order to study nervous system evolution, development, regeneration, and function.
Like ancient mariners, ancestors of Prochlorococcus microbes rode out to sea on exoskeleton particles
A new study shows the carbon-capturing phytoplankton colonized the ocean by rafting on particles of chitin.
Scientists track evolution of microbes on the skin’s surface
A new analysis reveals how Staphylococcus aureus gains mutations that allow it to colonize eczema patches.
Scientists uncover the amazing way sandgrouse hold water in their feathers
The structure of the desert birds’ belly feathers enables males to carry water over long distances to their chicks.
Brandon Ogbunu is a radical collaborator
MLK Visiting Professor tries to “maximize connection time” while studying protein evolution.
Scientists discover a new way of sharing genetic information in a common ocean microbe
Prochlorococcus, the world’s most abundant photosynthetic organism, reveals a gene-transfer mechanism that may be key to its abundance and diversity.
In search of the principles of life
Associate Professor Otto Cordero is looking for the fundamental constraints that shape microbial ecosystems.
A “door” into the mitochondrial membrane
Study finds the protein MTCH2 is responsible for shuttling various other proteins into the membrane of mitochondria. The finding could have implications for cancer treatments and MTCH2-linked conditions.
Microbes and minerals may have set off Earth’s oxygenation
Scientists propose a new mechanism by which oxygen may have first built up in the atmosphere
An “oracle” for predicting the evolution of gene regulation
Researchers create a mathematical framework to examine the genome and detect signatures of natural selection, deciphering the evolutionary past and future of non-coding DNA.