Scientists recreated the origins of one of life's most important partnerships, uncovering how symbiotic relationships can ...

Foraminifera, though eukaryotic, have adapted to use chemoautotrophy to enable them to survive where oxygen and sunlight are ...

The work highlights PUP-IT as a powerful tool to identify plant cell PPIs. Multidisciplinary study reveals a zipper model for pectin ... shortened chloroplast variant of the ribosome-associated ...

A function of these two genes is to metabolize the toxic glycolate byproduct right there in the leaf’s chloroplast where ... spreading into the rest of the cell where it triggers the energy ...

A function of these two genes is to metabolize the toxic glycolate byproduct right there in the leaf’s chloroplast ... cell where it triggers the energy-intensive metabolizing cascade. The former ...

Hungarian researchers at ELTE Eötvös Loránd University and the HUN-REN Center for Energy Research have shown that the leaves ...

Scientists had previously tried transferring plant chloroplasts into fungi cells, but the cells’ cleanup squad destroyed foreign organelles within hours. For their attempt, Matsunaga’s group ...

A team of investigators from Dana-Farber Cancer Institute, The Broad Institute of MIT and Harvard, Google, and Columbia ...

Columbia researchers created an AI model that predicts gene activity in any human cell, advancing disease research and ...

Researchers are testing how well the open model can perform scientific tasks — in topics from mathematics to cognitive ...

Studying the cell is a difficult and time-consuming process, but scientists have pinpointed generative AI as a potential way to make it easier. The idea is to develop an AI virtual cell that would ...