Friedrich Simmel and Aurore Dupin, researchers at the Technical University of Munich (TUM), have for the first time created artificial cell assemblies that can communicate with each other. The cells, separated by fatty membranes, ...
Biochemistry
Jan 18, 2019
1
640
Technology has a massive impact on our day-to-day lives, right down to the cellular level within our own bodies. Texas A&M University chemists are using it to determine how lipids talk to each other when they interact with ...
Biochemistry
Mar 6, 2018
0
33
For the first time, scientists have observed a phosphorus-containing lipid molecule that assembles by itself to form cubes. Research carried out at facilities including DESY has shown that the unusual shape is due to special ...
Materials Science
Jun 5, 2017
0
33
Harvard Medical School researchers have improved the design of tiny nanodiscs—synthetic models of cell membranes used to study proteins that control what enters and leaves a cell. The enhancements provide an unprecedented ...
Bio & Medicine
Nov 22, 2016
0
29
In the future, our health may be monitored and maintained by tiny sensors and drug dispensers, deployed within the body and made from graphene—one of the strongest, lightest materials in the world. Graphene is composed ...
Nanomaterials
Sep 23, 2016
0
890
To study certain aspects of cells, researchers need the ability to take the innards out, manipulate them, and put them back. Options for this kind of work are limited, but researchers reporting May 10 in Cell Metabolism describe ...
Bio & Medicine
May 10, 2016
0
760
Life is flexible. All living cells are basically squishy balloons full of water, proteins and DNA, surrounded by oily membranes. Those membranes stand up to significant amounts of stretching and bending, but only recently ...
Biochemistry
May 4, 2016
0
43
The ability to control the transfer of molecules through cellular membranes is an important function in synthetic biology; a new study from researchers at Harvard's Wyss Institute for Biologically Inspired Engineering and ...
Biochemistry
Feb 11, 2016
0
13
Precise control of thedistribution of specific proteins is essential for many biological processes. An LMU team has now described a new model for intracellular pattern formation. Here, the shape of the cell itself plays a ...
Cell & Microbiology
Jan 21, 2016
0
602
Viscous nanopores, tiny holes punctured in fluid membranes, collapse according to a universal law, a Purdue University study shows. The finding could improve the design of nanopores for fast, inexpensive DNA analysis and ...
Nanomaterials
Dec 2, 2015
0
281
