{"id":459,"date":"2022-03-14T19:58:12","date_gmt":"2022-03-14T19:58:12","guid":{"rendered":"https:\/\/www.followmystep.com\/?p=459"},"modified":"2022-03-14T19:58:14","modified_gmt":"2022-03-14T19:58:14","slug":"introduction-to-dna-computing-and-its-applications","status":"publish","type":"post","link":"https:\/\/www.followmystep.com\/en-us\/technology\/introduction-to-dna-computing-and-its-applications\/","title":{"rendered":"Introduction to DNA Computing and its Applications"},"content":{"rendered":"
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DNA Logic is a emerging computer technology for DNA today, but there are great prospects for them in the future. Organic nanocomputers, embedded in living organisms, we still see as something fun, irrational. But the absurdity today may be so tomorrow that it becomes so commonplace and so natural that it would be hard to imagine how anyone could have done it without it in the past.<\/p>\n
Thus, DNA computing is a branch of the field of molecular computer in the field of molecular biology and computer science. The basic concept of computer DNA is the creation of a new paradigm, the development of new computer algorithms based on the knowledge of the structure and functions of the DNA molecule and the performance of living cells in DNA molecules using various enzymes. The computer’s DNA prototype includes the development of a biological nanocomputer that will be able to store terabytes of information at a volume of a few micrometers. Such a computer can be installed in the cell of a living creature, and its performance will be calculated at millions of seconds per second with a power consumption not exceeding one million watts.<\/p>\n