Biotechnology is a multidisciplinary field that combines biological sciences with engineering technologies to manipulate living organisms and biological systems to create products and processes beneficial to human life. It involves the use of cellular and biomolecular processes to develop technologies and products that help improve our lives and the health of our planet. Biotechnology has a wide range of applications, including the development of new medicines and therapies, the production of genetically modified crops, the creation of biofuels and other sustainable energy sources, and the remediation of environmental pollutants. The field encompasses various techniques such as genetic engineering, tissue culture, and fermentation, which are used to modify and enhance the characteristics of living organisms. Biotechnology has revolutionized many aspects of modern life, from healthcare and agriculture to industrial processes and environmental conservation. It has led to the development of life-saving drugs, diagnostic tools, and medical treatments, as well as more resilient and nutritious crops that can feed a growing global population. However, the rapid advancements in biotechnology have also raised ethical and safety concerns, such as the potential risks associated with genetically modified organisms and the need for responsible regulation and oversight of biotechnology research and applications.
genetic engineering, biopharmaceuticals, agricultural biotechnology, industrial biotechnology, bioremediation, synthetic biology, bioethics
Biotechnology is a field of science that combines biology and technology to create innovative products and processes that benefit humanity. It involves the use of living organisms or their components to develop new technologies, medicines, and treatments. Biotechnology has applications in a wide range of industries, including agriculture, healthcare, energy, and the environment. It is a rapidly growing field with the potential to revolutionize many aspects of our lives. One area of biotechnology that has seen significant growth in recent years is synthetic biology. This field involves the design and construction of new biological parts, devices, and systems that do not exist in nature. It combines principles from biology, engineering, and computer science to create new biological systems with specific functions. Synthetic biology has the potential to create new materials, develop new medical treatments, and even create new forms of life. Another area of biotechnology that is gaining attention is the use of gene editing technologies such as CRISPR-Cas9. These tools allow scientists to make precise changes to the DNA of living organisms, including humans. This technology has the potential to cure genetic diseases, create new therapies for cancer, and even help us understand the genetic basis of complex traits such as intelligence and personality. Biotechnology also has important applications in agriculture. For example, genetically modified crops can be engineered to resist pests and diseases, tolerate extreme weather conditions, and even produce higher yields. This technology has the potential to help feed a growing global population while reducing the environmental impact of agriculture. Overall, biotechnology is a rapidly evolving field with the potential to transform many aspects of our lives. From developing new medical treatments to creating more sustainable sources of energy, biotechnology has the potential to address some of the world's most pressing challenges.
biology, technology, living organisms, synthetic biology, gene editing, agriculture
Biotechnology refers to the use of technology to manipulate living organisms, tissues or cells for the betterment of human health and the environment. It is a multi-disciplinary field at the intersection of biology, engineering, and multiple other scientific fields. It has been used to create vaccines against diseases, produce food more efficiently, and create new molecules with different properties. Biotechnology has also been used to create new medical treatments, clean up polluted environments, and create biofuels.
In other languages, equivalent words of “Biotechnology” include technobio, biotecnoloxía, biotechnologie, biotecnologia, biotecnologia, biotecnoloxía, biotechnologia, technobiology, biogenetic, biotechno, biotecnologie, biogenetik, biogenetische, biotechn
Biotechnology is a noun that refers to any technological applications that utilise biological systems, living organisms, or derivatives thereof, to make or modify products or processes for specific use. Synonyms of biotechnology can include, genetic engineering, gene splicing, biomanufacturing, and bioengineering. Antonyms of biotechnology are traditional or natural science techniques or processes. Cognates of biotechnology include biotechnical and biotechnological, as well as biotechnoscience and biotechnologist. Variants of the word biotechnology can include bio-technology, bio technology, or bio-tech.
Morphology, syntax, etymology, semantics, applied linguistics, linguistics, corpus linguistics, syntagmatics, paradigmatically, morphology-syntax interface, cognitive linguistics.
CITATION : "George Adrian Postea. 'Biotechnology.' Design+Encyclopedia. https://design-encyclopedia.com/?E=215251 (Accessed on April 21, 2025)"
Biotechnology is a term that has been used for centuries by scholars across many disciplines, ranging from philosophy to biology. It refers to the use of biological processes for innovative applications in industry, agriculture, medicine, and other areas. Its linguistic evolution is closely linked to its changing definition. Initially, the term was primarily used to describe the crossbreeding of plants and animals to produce desired characteristics, but as the advances in science and technology have increased, it has come to encompass a range of activities that utilize organisms or their components to produce commercial products. Morphologically, biotechnology involves several different subdisciplines, including biochemistry, genetics, molecular biology and microbiology. Additionally, biotechnology involves an array of processes and techniques that have seen remarkable developments over the years, including recombinant DNA technology, genetic engineering, and tissue culture. From a pragmatic perspective, biotechnology is an applied science, as it is used to develop solutions that can be applied directly to address problems in industry or society.
Etymology, Morphology, Biochemistry, Genetics, Recombinant DNA.
Biotechnology is a field of engineering and science that is used to design and develop products, processes, and systems. It integrates the principles of engineering, biology, and other disciplines to create innovative solutions to problems. It applies to a wide range of areas, such as food and agriculture, medicine, energy and environment, and industrial processes. Biotechnology can be used to create new materials, develop biosensors and medical devices, and develop new therapeutic approaches for diseases. It also has potential applications in nano- and micro-fabrication, tissue engineering, and the production of renewable energy.
Biotech, Design, Engineering, Biology, Solutions.
Biotechnology is the application of scientific and engineering principles to the processing of materials by biological agents to produce goods and services. It encompasses a range of procedures for modifying living organisms according to human purposes, going back to domestication of animals, cultivation of plants, and “improvement” of crops for traits such as size, taste, and color. In the late 20th century, biotechnology has expanded to include new and diverse sciences such as genomics, recombinant gene technologies, applied immunology, and development of pharmaceutical therapies and diagnostic tests. Biotechnology can be used to address a wide range of issues from improving crop yields to developing new drugs to treating and preventing disease.
Genetics, molecular biology, medicine, agriculture, food science, engineering, bioinformatics, bioprocessing, biomanufacturing, bioengineering, biochemistry, nanotechnology, environmental science, synthetic biology, immunology, biophysics, computational b
Biotechnology is increasingly being used in the design, arts, and creative industries to create innovative and groundbreaking solutions. By leveraging the latest advances in biotechnology, designers can create objects, products, and experiences that are truly unique. For instance, biotechnology can be used to engineer living organisms and materials to create unique forms, colors, and textures that can be used in design projects. Additionally, biotechnology can be used to create adaptive, responsive, and interactive materials that can respond to their environment and be used to create dynamic experiences. By combining biotechnology with traditional design practices, designers can create new and innovative solutions to existing challenges.
biotechnology, design, engineering, living organisms, materials, creativity.
Biotechnology is quickly becoming a powerful tool in the realm of design, arts, and creativity. By utilizing biotechnology, designers can create objects, products, and experiences that explore the boundaries of modern creativity. For example, biotechnology can be used to engineer living organisms and materials to create unique forms, colors, and textures that can be used in design projects. Additionally, biotechnology can be used to create adaptive, responsive, and interactive materials that can respond to their environment and be used to create dynamic experiences. By combining biotechnology with traditional design practices, designers can create new and innovative solutions to existing challenges.
Biotechnology, Design, Art, Creativity, Genetics, Engineering, Synthetic Biology, Molecular Biology, Biochemistry, Nanotechnology.
Biotechnology is a field of science that uses living organisms or their components to create products and services to improve the quality of life. It is based on the principles of biology and engineering and involves the use of genetic engineering, cell and tissue cultures, molecular biology, and biochemistry. Biotechnology also has applications in medicine, energy, agriculture, and the environment, among others. It is a rapidly growing field with potential to revolutionize many aspects of our lives.
Biotechnology, genetics, genetic engineering, bioengineering, bioprocessing, bioremediation.
Biotechnology is an ever-evolving field of science that focuses on combining scientific processes with creative applications to create innovative solutions and products. Within the scope of design, biotechnology has the potential to open up new pathways for designing with living organisms and materials, allowing for the exploration of what is possible with reconfigurable bio-based systems. By utilizing a combination of traditional design practices, synthetic biology and the latest technological advances, designers can create objects, products and experiences that revolutionize the boundaries of modern creativity.
Biotechnology, Synthetic Biology, Genetic Engineering, Proteins, Microbes.
Biotechnology is the combination of technology and biology in order to create innovative solutions. It has been used to develop new medical treatments, create food sources with improved nutritional value, and even develop new materials. It has been used to develop new types of crops, engineer livestock and even create designer organisms. It has applications in many industries, including agriculture, pharmaceuticals, energy, and manufacturing.
Biotechnology, biotech, genetic engineering, genetic modification, synthetic biology.
Biotechnology is a field of science that uses living organisms to create products and processes that benefit humanity. It combines the principles of biology and chemistry to develop new technologies, medicines, and treatments. Biotechnology has applications in a wide range of industries, from agriculture to healthcare.
Biotech, genetic engineering, gene therapy, bioinformatics, bioprocessing
Biotechnology is the use of living organisms or their products to modify human health and the environment. It is applied in a wide range of areas, such as the production of food and medicines, the development of renewable energy sources, and the manufacturing of medical products. Biotechnology uses a range of techniques, ranging from genetic engineering and fermentation to tissue culture and nanotechnology.
Biotech, genetic engineering, fermentation, tissue culture, nanotechnology
Biotechnology is the combining of scientific and technology knowledge to design and create new products or processes. It utilizes a range of concepts and principles from diverse fields such as biology, chemistry, engineering and information technology. Examples of biotechnology applications include DNA sequencing, medical treatments utilizing gene therapy, and protein engineering. It is a rapidly growing field, with potential applications in areas such as agriculture, health, and environmental protection.
Biotech, genetic engineering, molecular genetics, biosensors, genomics, recombinant DNA.
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