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

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

Eukaryotic cells contain a large number of ... The working group headed by Professor Nowack at the Institute of Microbial Cell Biology is researching how cells and their endosymbionts have adapted ...

Eukaryotic cells -- i.e. cells with a nucleus ... The working group headed by Professor Nowack at the Institute of Microbial Cell Biology is researching how cells and their endosymbionts ...

Artificial cells using riboswitch-gene fusion in liposomes produce fluorescent proteins when detecting specific targets.

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 ...

Scientists reveal the role of hidden microbes called Asgard archaea in the origins of complex life, challenging long-held views of evolution.

In 2015, researchers examining deep-sea sediments near the underwater volcano Loki discovered gene fragments indicating a new ...

Asgard archaea emerged as a key piece in the puzzle of how complex life evolved, acting as a potential link between simple archaea and eukaryotes—organisms like plants and animals whose cells contain ...

Biology (Botany+Zoology ... Structure of prokaryotic and eukaryotic cell; Plant cell and animal cell; Cell envelope, cell membrane, cell wall; Cell organelles structure and function; Endomembrane ...

Chromatin remodeling plays a vital role in gene regulation, affecting how DNA is accessed. Disruptions in this process can ...