Paternity, Musical Proteins, Microbiome In Runners. June 28, 2019, Part 2

These days, a scientific paternity test is easily acquired, and its results are seen as almost indisputable. But what about the days before so-called foolproof DNA analysis? For most of human history, people considered the identity of a child’s father to be more or less “unknowable.” Then in the 20th century, when a flurry of events sparked the idea that science could help clarify the question of fatherhood, and an era of “modern paternity” was born. The new science of paternity, which includes blood typing and fingerprinting, has helped establish family relationships and made inheritance and custody disputes easier for the courts. But it’s also made the definition of fatherhood a lot more murky in the process.

Proteins are the building blocks of life. They make up everything from cells and enzymes to skin, bones, and hair, to spider silk and conch shells. But it’s notoriously difficult to understand the complex shapes and structures that give proteins their unique identities. So at MIT, researchers are unraveling the mysteries of proteins using a more intuitive language—music. They’re translating proteins into music, composing orchestras of amino acids and concerts of enzymes, in hopes of better understanding proteins—and making new ones.

Though the ads tell you it’s gotta be the shoes, a new study suggests that elite runners might get an extra performance boost from the microbiome. Researchers looking at the collection of microbes found in the digestive tracts of marathon runners and other elite athletes say they’ve found a group of microbes that may aid in promoting athletic endurance. The group of microbes, Veillonella, consume lactate generated during exercise and produce proprionate, which appears to enhance performance. Adding the species Veillonella atypica to the guts of mice allowed the mice to perform better on a treadmill test. And infusing the proprionate metabolite back into a mouse’s intestines seemed to create some of the same effects as the bacteria themselves.