DNA stands for digital data storage; with the help of DNA, a scientist can encode and decode binary data to synthesized strands of DNA. DNA consists of genetic outlines for living cells and organisms. The binary digital is represented as DNA, through DNA as a storage medium, has massive potential because it has high storage density; on the other hand, DNA’s practical use is limited right now because of its high price, and it took a long time for reading and writing times. DNA made up of molecule
DNA stands for digital data storage; with the help of DNA, a scientist can encode and decode binary data to synthesized strands of DNA. DNA consists of genetic outlines for living cells and organisms. The binary digital is represented as DNA, through DNA as a storage medium, has massive potential because it has high storage density; on the other hand, DNA’s practical use is limited right now because of its high price, and it took a long time for reading and writing times. DNA made up of molecules known as nucleotides. Every nucleotide holds a phosphate group, a nitrogen base, and a sugar group. The four types of nitrogen are adenine, thymine, guanine, and cytosine; each binary bit converted into A, T, G, and C letters from 1 to 0 numbers.
DNA technology is an exciting field from last some years. DNA technology and gene cloning used in the medicine and pharmaceutical industries. DNA technology used to help diagnose genetic diseases, like Huntington’s disease and sickle-cell disease. DNA technology is the sequencing, analysis, and cutting and pasting of DNA. DNA technology includes DNA sequencing, DNA cloning, polymerase chain reaction, and gel electrophoresis. With the help of DNA technology, scientists can study and can manipulate genetic material, and DNA technologies are using scientists for a wide variety of products and purposes. The main element of DNA technology is cloning; cloning is the process of creating multiple, identical copies of a gene. In forensics, bioinformatics, pharmacology, and nanotechnology, archaeology, and anthropometry DNA technologies used. DNA technology in forensics- DNA is unique because it is useful for a forensic tool to examine DNA, which found in a crime scene. The standard methods used to identify and define the DNA profile include – (RFLP) Restriction fragment length polymorphism and (STR) Short tandem repeat profiling. DNA in pharmacology and nanotechnology- Three-dimensional nanostructures can hold and release drugs. These have potential in gene treatment, and Gene therapy involves using small molecules that carry the medication or corrective enzyme or to the specific faulty gene and identify and accurate it. DNA Nanotubes can use in gene therapy. Viral DNA typically uses as the mechanism that goes into a foreign gene and inserts it into it. This is known as transfection.
Cloud Services Penetration in Organizations–Cloud Computing is no longer a new tool, and many organizations have already signed up for cloud services. Today, according to BSA’s Global Cloud Computing Scorecard, The Web Alliance, cloud computing has reached 24 countries, and 80% of the IT market share. These cloud services now need data storage. The Demand for Data Storage in Bank- Over the past two decades, the way banks operate has changed significantly. Banks around the globe are raising international paperwork and digitizing every transaction to streamline transactions. This digital banking inception has created tremendous opportunities in the data storage market. Right now, DNA storage is exploratory. Before it becomes ordinary, DNA storage needs to be automated completely, and the processes of building DNA and DNA reading must be enhanced. They are both relatively slow and prone to error. These are significant challenges, but experts are optimistic because all the technologies relevant are improving rapidly. The first use of DNA data storage will be for cold archival data storage that rarely used or large volumes of data that need to transport across distant places physically. Further, this field offers an exciting opportunity to innovate in the broader field of computer science. New technologies will have developed to support DNA data storage.
Key Players: Illumina Inc, Siemens AG, Thermo Fisher Scientific Inc, Agilent Technologies, Beckman Coulter, SOSV LLC, Gatc Biotech AG and Eurofins Scientific.
Source: market.us/