Global Southern Blotting Market was valued $xx Mn in 2019 and is expected to reach $xx Mn by 2026, at a CAGR of xx%.
Global Southern Blotting Market Introduction Southern blotting is one of the central techniques in molecular biology. Southern blotting res ults in transfer of DNA molecules, usually restriction fragments, from an electrophoresis gel t o a nitrocellulose or nylon sheet (referred to as a ‘membrane’), in such a way that the DNA b anding pattern present in the gel is reproduced on the membrane
Global Southern Blotting Market Dynamics Growing incidence of many rare genetic disease worldwide is expected to drive growth of th e global Southern blotting market during the forecast period. As per the estimates, there are over seven thousand rare genetic diseases prevalent globally with over 11% of U.S. populat ion living with these diseases. Over 80% of these diseases are genetic in nature. As a result , pharmaceutical companies are spending heavily on R&D to develop effective drugs. Increa sed R&D spending coupled with increasing diagnostic cases is expected to create substanti al opportunity for players engaged in southern blotting industry. Moreover, growing use of Southern blotting in forensic science is expected to fuel the global Southern blotting market over the forecast period. Key players in the market are expected to create substantial opportunity over the forecast p eriod. It will be challenging for market players in capitalizing emerging regions wherein lower government funding along with high product pricing is a major cause of concerns for the play ers. With rising incidence of diseases, rapid technological advancements in medical field, and inc reased spending in research and development, the global southern blotting market is expect ed to have a robust growth during the forecast period.
Global Southern Blotting Market Segment Analysis By applications, the DNA Fingerprinting segment is expected to grow at a significant CAGR of xx% in the forecast period. DNA fingerprinting, also called DNA typing, DNA profiling, gen etic fingerprinting in genetics is a method of isolating and identifying variable elements within the base-pair sequence of DNA. Automated equipment has greatly increased the speed of D NA sequencing and has made available many new practical applications, including pinpointi ng segments of genes that cause genetic diseases, mapping the human genome, engineeri ng drought-resistant plants, and producing biological drugs from genetically altered bacteria. The advancements in genome engineering is expanding the segment growth.