Researchers are studying why the energy factories are moving between cells and whether the process can be harnessed to treat ...

Bioprocessing has always been a bit late in adopting the latest engineering techniques, e.g., computational fluid dynamics to ...

Research by Rutgers University-New Brunswick scientists centers on RNA, a nucleic acid that plays a crucial role in most ...

Scientists are looking for answers about how these confounding trips, known as metastases, occur throughout the human body ...

Philip Kurian’s research reveals how biological systems process quantum information—billions of times faster than traditional ...

The research indicates that the limitations on the size of proteins has been a crucial trigger in the development of life ...

He suggested that these quantum effects might be playing a role in maintaining the genetic stability in living organisms.

Asgard archaea may have led to the evolution of eukaryotic life ETH Zurich researchers identify actin and microtubule ...

Cell-free systems, which can express an easily detectable protein with a DNA or mRNA template without constraints of living ...

We created novel artificial cells by encapsulating a riboswitch-gene fusion with wheat germ extract in liposomes. These non-living cells promoted the expression of a glowing protein encoded in the ...

New research sheds light on one of the biggest questions in biology: where did complex life come from? The answer may lie with Asgard archaea, a group of ancient single-celled microbes that share ...

A typical eukaryotic cell has one nucleus ... new approaches that combine physics, engineering and biology will be needed to understand the systems that build a cell. Table 1 outlines some ...