Neurons, the specialized cells of the nervous system, are possibly the most complicated cell type ever to have evolved. In humans, these cells are capable of processing and transmitting vast sums of information. But how such ...
Evolution
Aug 8, 2022
0
96
A new artificial enzyme has shown it can chew through lignin, the tough polymer that helps woody plants hold their shape. Lignin also stores tremendous potential for renewable energy and materials.
Materials Science
May 31, 2022
3
903
An enzyme variant created by engineers and scientists at The University of Texas at Austin can break down environment-throttling plastics that typically take centuries to degrade in just a matter of hours to days.
Polymers
Apr 27, 2022
19
1100
A group of researchers at the University of Ottawa has been looking for ways to improve enzyme design methodologies and recently published their findings in Nature Communications.
Biochemistry
Oct 1, 2020
0
9
Biomacromolecules incorporated into tailored metal–organic frameworks using peptide modulators are well shielded but highly active thanks to carefully tuned nanoarchitecture. As scientists report in the journal Angewandte ...
Materials Science
Jul 1, 2020
0
30
Enzymes are nature's powerhouses. Found in the cells of all animals, plants, and every other living organism, they accelerate the chemical reactions that trigger thousands of biological functions—from forming neurons to ...
Biochemistry
Mar 10, 2020
3
702
Scientists at the University of Groningen turned a non-enzymatic protein into a new, artificial enzyme by adding two abiological catalytic components: an unnatural amino acid and a catalytic copper complex. This is the first ...
Biotechnology
Feb 10, 2020
0
898
Protocells—artificial cells—that are active and mimic living cells by moving independently and that are biocompatible and enzymatically active are now possible using an improved method developed by Penn State researchers.
Bio & Medicine
Dec 5, 2019
0
475
All living organisms depend on enzymes—molecules that speed up biochemical reactions that are essential for life.
Materials Science
Aug 5, 2019
0
316
Artificial muscles made from polymers can now be powered by energy from glucose and oxygen, just like biological muscles. This advance may be a step on the way to implantable artificial muscles or autonomous microrobots powered ...
Materials Science
Jun 19, 2019
0
43
