Researchers leverage deep learning to predict physical interactions of protein complexes
From the muscle fibers that move us to the enzymes that replicate our DNA, proteins are the molecular machinery that makes life possible.
From the muscle fibers that move us to the enzymes that replicate our DNA, proteins are the molecular machinery that makes life possible.
Biotechnology
Apr 18, 2022
0
103
A team at the Max Planck Institute of Colloids and Interfaces (MPICI) has discovered new properties of collagen: During the intercalation of minerals in collagen fibers, a contraction tension is generated that is hundreds ...
Biotechnology
Apr 8, 2022
0
146
Can't resist your pup's adoring expression when he begs for a treat? A new study reveals key anatomical features that could explain what makes dogs' faces so appealing. The findings also suggest that humans contributed to ...
Plants & Animals
Apr 5, 2022
0
100
New mutations occur at increasing rates in the mitochondrial genomes of developing egg cells in aging rhesus monkeys, but the increases appear to plateau at a certain age and are not as large as those seen in non-reproductive ...
Molecular & Computational biology
Apr 4, 2022
0
252
In a post-pandemic world, we are used to sending and receiving parcels, getting groceries and items delivered to our door, sending messages and items to loved ones we cannot see. We've become accustomed to sending and receiving ...
Cell & Microbiology
Apr 4, 2022
0
13
How is the activity of genes regulated by the packaging of DNA? To answer this question, a technique to measure both gene expression and DNA packaging at the same time was developed by Franka Rang and Kim de Luca, researchers ...
Cell & Microbiology
Apr 1, 2022
0
134
Piezoelectric materials convert mechanical stress into electricity, or vice versa, and can be useful in sensors, actuators and many other applications. But implementing piezoelectrics in polymers—materials composed of molecular ...
Polymers
Mar 24, 2022
0
22
The Lieberam Lab, in collaboration with the Song Group at UCL and led by Ph.D. student Aimee Cheesbrough, have developed a new synthetic scaffold to grow muscle cells from human stem cells, allowing scientists to effectively ...
Cell & Microbiology
Mar 24, 2022
0
65
A living cell is exposed to a variety of stimuli. Countless messengers dock on its surface, where receptors in the cell membrane receive the incoming "orders." Signaling cascades are then triggered inside the cell, which ...
Cell & Microbiology
Mar 15, 2022
0
49
Mutations that lead to muscle atrophy can be repaired with the gene editor CRISPR-Cas9. A team led by ECRC researcher Helena Escobar has now introduced the tool into human muscle stem cells for the first time using mRNA, ...
Molecular & Computational biology
Mar 14, 2022
0
288