Biological systems can offer innovative solutions to store and retrieve energy sustainably. These systems utilize engineered microorganisms and biological processes to convert and store energy in ...

Biological engineers developed a computational approach to extracting useful information from large biological datasets. They showed they could unravel interactions that determine how the immune ...

The formal foundations of systems biology were articulated in the early 2000s, when Leroy Hood and colleagues at the Institute for Systems Biology in Seattle proposed a framework combining systematic ...

Ever better experimental techniques allow us to perform experiments under tightly controlled conditions and can deliver gigantic amounts of data reflecting the complexity of biology. This has vastly ...

Biological neurons are significantly more stable and efficient than traditional reinforcement learning systems. Ethical concerns arise from creating conscious systems due to the potential for ...

Since the advent of the Human Genome Project, scientists have expanded efforts to map complete biological datasets that encompass entire molecular families, such as DNA, RNA, proteins, and metabolites ...

Systems biology is an integrative approach that examines biological systems as interconnected networks of genes, proteins, and metabolites, aiming to understand their dynamic behavior rather than ...

Under the right conditions, liquid crystals condense into astonishing structures, spontaneously generating filaments and flattened discs that can transport material from one place to another, much ...

In 2020, researchers engineered living, programmable organisms from Xenopus laevis, calling them xenobots, which could self-assemble and even reproduce. Building on this work, scientists later ...