German scientists from the Dynamic Institute and Max Planck’s self -organization made a breakthrough in understanding the molecular foundations of life and showed the key role of asymmetric interaction between molecules in the construction of biological structures. The study was published scientifically magazine Physical Review Letters (PRL).
The team found that when one molecule pulled another, but at the same time pushing it, the so -called “non -core” interactions constitute a different dynamic environment from classical symmetrical systems. These unusual interactions serve as a regulatory mechanism that allows the system to transition between different situations of the organization.
Laia Parkavushi’s leading writer, “a non -deposit, one person reaches the other, but does not respond to the social relationships can be compared. Such asymmetry, homogenizing the system or creates complex schemes,” he said.
Discovery is particularly important for understanding the processes in cells. Honest interactions may explain the formation of molecular condensats – special protein clusters that have not been separated by a membrane but perform significant functions. This mechanism also sheds light on cell alarm principles when activity waves spread from living tissues.
The discovery of German physicists opens expectations of developing new approaches to the creation of artificial self -organizing systems, the treatment of neurodegenerative diseases associated with impaired protein units and the application of biogengin practices in the field of medication.
Previously, scientists First It created a detailed map of human cells.
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Source: Gazeta
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