Genomics As One of the Top Tech Trends in 2023

Due to the rapid development of technology over the last few decades, tech trends have been subject to change every couple of years. For instance, in the 1990s, the top technology trends were beepers, Furbies, Tamagotchi, and headphones. A decade later, in the 2000s, tech trends included iPods, Bluetooth headsets, iPhones, and USB flash drives.

These devices have become a part of our daily lives and we are no longer impressed by iPhone or Bluetooth headphones.

Hence, we have our own tech trends representing the most promising technologies and their uses within a variety of industries, such as healthcare, entertainment, construction, and more. In this article, we explain the concept of genomics, how it relates to tech, its applications in some industries, and the future of this tech trend. 

If you are looking for more top tech trends articles, check out these relevant resources: The Latest Trends in Data Infrastructure and 3D Printing as One of the Leading Tech Trends.

What Is Genomics? 

Genomics is the study of a person’s genes (the genome) and their interactions with each other and with the environment of this person. To better explain the concept of genomics, we should look into such terms as DNA and a genome.

Deoxyribonucleic acid (DNA) is a specific chemical compound that contains a cell’s genetic material that helps develop and manage numerous activities within a living organism. DNA molecules consist of two twisting and paired strands made of specific chemical units: adenine, guanine, cytosine, and thymine. A genome defines an organism’s complete set of DNA; therefore, genomics as a study field aims to understand the structure of every protein created by the genome and describe gene expression.

Genomics is one of the top trends of this year because the advancements in this field can improve people’s lives in many ways, such as modifying crops, developing effective vaccines (for instance, against COVID-19), eradicating many diseases, and significantly improving our knowledge in biology and medicine

Genomics and Tech

Technology transforms genomics research in many ways. One of the most well-known technological advancements in genomics is CRISPR-Cas9, which helps researchers add, remove, or alter sections of the genome. This technology consists of two key elements, an enzyme that cuts into the DNA at a chosen location and a piece of RNA that directs this enzyme.

Various technological advancements also help streamline and facilitate many data-related operations. In genomics, data storage, analysis, and manipulation are crucial to facilitate research and advancements within the field. For instance, cloud technology and leverage composable infrastructure are often implemented in genomics research. The latter combines storage, computing, and network fabric into one tool, which significantly improves the interactions with data.

Speed is crucial in genomics research as faster research results allow scientists to speed up the development of new therapeutic decisions. Therefore, the utilization of the aforementioned tools is of great importance for genomics.

Nanotechnology is another tech advancement crucial to genomics. This tech helps in the development of genetically modified organisms (GMOs) and creates opportunities for overcoming existing limitations. For example, nanotechnology is hoped to improve biotransformation and help produce genetically engineered plants. Furthermore, this technological advancement reduces uncertainty and coordinates management strategies for many possible genomics applications, such as agriculture. 

Learn more here if you want to know more about the future of nanotechnology.

The Future of Genomics 

The future of genomics is clearly bright and its applications are currently making the lives of many people better. It is common knowledge that specific pills help some people but don’t get accepted by the bodies of others. Therefore, the concept of drugs for personalized therapy has been tested in pharmacogenomics for some time. It will help cure many diseases over a period of time with the help of a personalized approach. Genomics prioritizes the individual rather than the illness, which allows scientists to develop the most effective solutions.

Genomics is expected not only to improve healthcare and medicine but also to bring many advantages to such industries as education. For instance, scientists identified over a thousand genes that relate to people’s educational and cognitive results. Therefore, this knowledge can help improve the lives of people with learning disabilities.

However, genomics can sometimes have rather negative outcomes for people. For instance, scientists associate specific genes with exceptional athletic performance. In this case, gene-editing techniques represent another illegal way of enhancing performance. Hence, such threats should be discovered, and key mechanisms for their prevention should be developed.

Hanna is a first-year student at the University of Nicolaus Copernicus, Torun. After leaving her previous university in Belarus, she moved to Poland to study Cognitive Science and its application in Marketing. She is deeply interested in modern technologies, specifically AI and Metaverse, and their influence on society.

About Hanna Hryshkevich

Hanna is a first-year student at the University of Nicolaus Copernicus, Torun. After leaving her previous university in Belarus, she moved to Poland to study Cognitive Science and its application in Marketing. She is deeply interested in modern technologies, specifically AI and Metaverse, and their influence on society.

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