The scientific community bid farewell to researchers who furthered the fields of molecular biology, virology, sleep science, and immunology, among others.
SIDEBAR : Sleep Research Resources Some consider sleep an unavoidable nuisance; others, a sweet indulgence. For the most part, though, we take our slumber for granted, rarely considering why we spend a hefty chunk of our lives unconscious. But for sleep researchers, that question represents a supreme mystery. Exactly what purpose sleep serves, as well as how the body regulates sleeping and waking, remain largely unknown. Behavioral scientists and physiologists have pursued these questions for
The Scientist and Jerome Siegel | Mar 1, 2016 | 10+ min read
Once believed to be unique to birds and mammals, sleep is found across the metazoan kingdom. Some animals, it seems, can’t live without it, though no one knows exactly why.
Just 20 years ago, scientists didn’t even realize muscles had their own circadian clocks. Now they are beginning to appreciate their importance in health.
Regularly taking breaks from eating—for hours or days—can trigger changes both expected, such as in metabolic dynamics and inflammation, and surprising, as in immune system function and cancer progression.
Bats harbor diverse pathogens, including Ebola, Marburg, SARS, and MERS viruses. Understanding why could help researchers stymie deadly emerging diseases.
The Penrose-Hameroff Orch OR model places the essential aspect of consciousness at the level of quantum computation in microtubules within the brain's neurons. "Tubulin" proteins comprising microtubules can switch between states ("bits") and also be in quantum superposition of both states simultaneously ("protein qubits"). In the last several years, books, papers, and conferences have, with varying degrees of success, attempted to link the once-strange bedfellows of science and conscio
The Penrose-Hameroff Orch OR model places the essential aspect of consciousness at the level of quantum computation in microtubules within the brain's neurons. "Tubulin" proteins comprising microtubules can switch between states ("bits") and also be in quantum superposition of both states simultaneously ("protein qubits"). In the last several years, books, papers, and conferences have, with varying degrees of success, attempted to link the once-strange bedfellows of science and consciou