According to Mehr news agency, quoted from PhysEvery second, billions of tiny packets move through the human bloodstream, carrying vital information between body cells. Now the researchers of the Heart and Diabetes Institute baker He opened this molecular letter for the first time are And the coe inside it is specified.
Professor David Greening and Arlene Voters have mapped the complete molecular bluepri of extracellular vesicles (EVs), or nanoscale particles in the blood that act as the body’s secret messengers.
For decades, researchers have known about the existence of extracellular vesicles that coain proteins, lipids, and genetic material that indicate the health of the cells of origin. move they fit But since the blood is a complex compound coaining cholesterol, Ai is air and millions of other particles, the isolation of extracellular vesicles has been one of the main challenges of science.
Vote in this load says: these vesicles are like small envelopes that are se between cells and updateHi They transmit a molecule about what is happening in the body. Uil now, we have not been able to read the messages inside them carefully.
They are in collaboration with the University of Melbourne and the University Latrobe and Bahuse From ultrapure separation methods and Profiling Multi Emix Advanced, ideified 182 proteins and 52 lipids as the main structure of EV Hi They form human plasma. Emix It is a new term that refers to the field of extensive studies in biological sciences.
They also ideified another set of molecules that EV I see distinguish them from other particles in the bloodstream, they ideified, effectively deciphering the body’s molecular communication system. To access this discovery, the researchers developed EVMap, a free and ieractive online resource that allows scieists around the world to explore the molecular makeup of BL.
Greening in this load He says: By decoding this molecular language, we can read the reports of our body’s health. We have ideified an EV signature that is associated with the emergence of heart disease Am. This will likely pave the way for a simple blood test that reveals risk for disease long before symptoms appear.
