Recent advances in biotechnology have addressed some of the world's greatest challenges
In the past few years, the pace of technological progression in the biotechnology industry has reached a staggering milestone. From biosensors to 3D Bioprinting and gene editing to VR and AR, rapid innovations in this field are tirelessly improving humans' quality of life. Biotechnology can significantly be classified based on the broad spectrum of deliverables it caters to the society. In this field of knowledge about life, patents are imperative to secure efforts in improving and showing a significant return on investment.
The modern biotech inventions befall at the microscopic level within the membranes of cells. After decades of basic research into decoding the chemical and genetic makeup of cells, biologists in the mid-20th century introduced a multi-decade flurry of research and breakthroughs. Their work has brought humans the powerful cellular tools at biotechnologists' disposal today.
Researchers and biologists in today's biotechnology ecosystem modify DNA and proteins to shape the capabilities of living cells, plants, and animals into something useful for humans. They do so by sequencing or reading the DNA found in nature, and then manipulating it in a test tube or inside of living cells that have become a new trend more recently.
With the rapid pace of progress such as low-cost DNA sequencing and quick gene synthesis, biotechnology is making up its way into a new realm of maturity concerning both beneficial applications and more worrisome risks.
How Biotechnology Provides Solutions to Help Humans?
Biotechnology improves humans lives in plenty of ways. It helps keep people healthy in their daily lives through advanced biotech products. For instance, it eases pets' internal parasites; antibiotics are used to treat bacterial infections and sedatives are used to calm animals during the administration of anesthesia.
The majority of the food today we consume comes from engineered plants, which are modified by modern technology. Most manufacturers have substituted petroleum-based ingredients with biomaterials in many consumer goods, such as plastics, cosmetics, and fuels. Indeed, over 70 percent of the processed foods purchased in the supermarket contain ingredients improved through biotechnology. Biotech crops improve yields, cut costs and minimize pesticide applications. It not only improves farmers' bottom lines, but also saves time, improving farmers' quality of life.
Biotechnology innovations are poised to contribute to mitigating the ever-increasing risk of growing CO2 levels. Recent researches in this field have explored how living organisms consume and use CO2. By harnessing the power of natural biological systems, scientists engineered a new wave of approaches to convert waste CO2 and C1 molecules into energy, fuels, chemicals, and new materials.
Biotechnology can also help identify biological threats, and thus develop and manufacture potential cures. Leading-edge biotechnology solutions such as messenger therapeutics, targeted immunotherapies, conjugated nanoparticles, and structure-based engineering already produced candidates with substantial potential to improve human health globally.
The future for biotechnology and biotech innovation will be relying heavily on advanced technology and big data events, potentially intending to improve human health.