APPLICATION OF THE NEXT GENERATION SEQUENCING IN BIOLOGY AND MEDICINE

Abstract

Next-Generation Sequencing (NGS), also known as high-throughput sequencing, refers to a set of modern DNA sequencing technologies that have revolutionized the field of genomics. Advantages of NGS techniques involving high speed (parallel sequencing is faster than traditional methods, allowing researchers to obtain results more quickly), cost-effectiveness (ability to sequence multiple fragments simultaneously reduces the cost per base compared to traditional sequencing), and scalability (platforms can be scaled to accommodate varying levels of throughput depending on experimental needs). NGS has significantly accelerated genomics research, enabling breakthroughs in fields such as personalized medicine, cancer genomics, and evolutionary biology. However, challenges such as data analysis complexity, error rates, and cost still exist and are areas of ongoing research and improvement within the field of sequencing technologies. Paper contains the brief explanation of the current NGS platforms and their features. NGS biomedical application is described with the main advantages and abilities of the analysed tools.