Technology has always been advancing rapidly, and we can find new scientific discoveries that were never possible before during every decade of the scientific world.
But these scientific breakthroughs usually don’t last for a long time if applied to different fields such as business or research because they are very expensive and time-consuming to use in real life. DNA-of-Things technology breaks this norm.
DNA-of-things is a scientific breakthrough that enables users to store data within the long strands of dna code which are found in every living cell on earth. This scientific discovery was first introduced by Professor George Church, an American geneticist, molecular engineer, and chemist at Harvard University.
DNA has a stable chemical structure, and it is an ideal storage medium for scientific data because it can last up to several thousand years without degrading unlike other storage media such as tapes or hard disks that only last for a few months. This makes DNA a very valuable tool that can be used by businessmen who need a reliable method of storing scientific data.
DNA-of-things scientific discovery can also be used in scientific research . Scientists can use this scientific breakthrough to share their scientific results with other scientists all around the world because they won’t have to print data on papers or send individual emails that might never get opened.
Even though DNA storage is more expensive than current techniques, companies are using new technology such as blockchain technology to reduce the cost of data storage .
Researchers from Microsoft and the University of Washington have managed to store 200 MB ( megabytes ) of scientific information on a single gramme of dna code.
A major scientific breakthrough like this has the potential to unlock scientific discoveries that were never possible before, and this scientific discovery has the potential to revolutionize scientific research and data storage.
