Symbiosis is so much part of life on Earth that it has shaped the evolution and structure of cells. It’s happening almost everywhere we look, including inside our gut.
Saturn’s moon Enceladus has geysers shooting tiny grains of ice into space. These grains could hold traces of life − but researchers need the right tools to tell.
Sarah Diepstraten, WEHI (Walter and Eliza Hall Institute of Medical Research) and John (Eddie) La Marca, WEHI (Walter and Eliza Hall Institute of Medical Research)
A cancer that spreads is much more dangerous. Here’s why – and how it happens.
Over two billion years from now, Earth will no longer be able to sustain life. A new study looks at how much life has ever existed and what this means for the discovery of new life-supporting planets.
Superresolution microscopy allowed researchers to view cells at the molecular level. Improvements on the technique can help study the building blocks of complex cell processes over time.
Aging is a culmination of factors spanning from your cells to your environment. A number of interconnected processes determine how quickly your body is able to repair and recover from damage.
Cell cultures are common tools in biology and drug development. Bringing them up to scale to meet the meat needs of societies will require further development.
Multidrug-resistant fungal infections are an emerging global health threat. Figuring out how fungi evade treatments offers new avenues to counter resistance.
Making sure RNA molecules are in the right place at the right time in a cell is critical to development and normal function. Researchers are figuring out exactly how they get to where they need to go.
Fossil evidence of how the earliest life on Earth came to be is hard to come by. But scientists have come up with a few theories based on the microbes, viruses and prions existing today.
Cancer cells are ‘cheaters’ that do not cooperate with the rest of the body. Certain microbes in your diet can either protect against or promote tumor formation by influencing cell cooperation.
Yizeng Li, Binghamton University, State University of New York
Counterintuitively, cells move faster in thicker fluids. New research on breast cancer cells explains why, and reveals the role that fluid viscosity plays in metastasis.
Many microscopy techniques have won Nobel Prizes over the years. Advancements like cryo-ET that allow scientists to see the individual atoms of cells can reveal their biological functions.