Nanotechnology occurs when there is a manipulation with molecular, atomic, or supramolecular matter. Examples of nanotechnology include paint that can repel dirt, modern airbag sensors, and high tech CD or DVD players.
Paul Berg is often referred to as the father of modern biotechnology. He pioneered the development of recombinant DNA technology in the 1970s, which allowed researchers to manipulate and recombine DNA from different sources, leading to significant advancements in the field of biotechnology.
Examples of Modern biotechnology are tissue culture, genetic engineering, recombinant DNA techniques, mutagenesis, drugs, antibiotics, monoclonol antibodies, antipyretics, analgesics, breeding, cloning etc. Examples of Traditional biotechnology are vinegar, wine, turmeric, spices, food preservation, quarantines, selective plant breeding, hybridization, etc.
Slogans are best made up to involve a part of the company or action. They tend to rhyme and be short. Biotechnology, because you can't kill what's not alive, by all means. You can't spell environmental with out mental. Those are two examples of a slogan.
ahm.. baho mu ug KIKI tanan. hahahhahahahhahahahahhahhaa wla ko kabalo sa answer! nganu mangutana man mu? mga ANIMAL!!!! hahahah monggol ang kryptonatikz.. :))))) SAVE <3
Any food that has been modified by biotechnology. For example, many foods are treated for powdery mildew with a product called "Serenade" which contains a living culture of bacteria subtilis....these bacteria make it impossible for the powdery mildew to survive on the host plant.
Advantage: Modern biotechnology allows for the development of advanced medical treatments, improved crop yields, and more efficient production processes. Disadvantage: Concerns about the ethical implications of genetic modification, potential environmental risks, and unequal access to the benefits of biotechnology are some of the disadvantages associated with modern biotechnology.
biotechnology,GMO (Genetically Modified Organisms) Bioremediation,
Genetically engineered crops, like corn and soybeans, are examples of biotechnology.
Traditional biotechnology involves using living organisms or their products to make products, while modern biotechnology involves using genetic engineering and advanced technologies to manipulate the genetic makeup of organisms for specific purposes. Traditional biotechnology has been used for centuries, while modern biotechnology is a more recent development. Traditional biotechnology often relies on natural selection and breeding, while modern biotechnology allows for more precise and targeted genetic modifications.
Old biotechnology examples include selective breeding of plants and animals, fermentation for food production, and traditional plant breeding techniques. New biotechnology examples include gene editing technologies like CRISPR, genetically modified organisms (GMOs), and synthetic biology for creating new biological systems.
Baking and brewing
Modern biotechnology is the term used to describe a range of processes and techniques especially at the molecular level. Examples of biotechnology applicationsof particular interest to the Department include cell culture, genomics, molecular marker-assisted breeding, cloning, bioprocessing and diagnostic testing as well as gene technology (genetic modification).
Biotechnology can be classified as traditional and modern. Traditional biotechnology involves using living organisms to produce useful products like bread and cheese. Modern biotechnology involves techniques like genetic engineering to modify organisms for applications such as medicine and crop improvement.
marine biotechnology, animal biotechnology, post-harvest biotechnology, plant biotechnology, fungal biotechnology, algae biotechnology, bioprocess technology,... while you study physiology and molecular techniques with them (if you choose it as a major).
Classical biotechnology dates back thousands of years ago, with examples such as fermentation processes for food and beverage production. This early form of biotechnology involved the use of microorganisms for practical applications like brewing and baking. These ancient practices laid the groundwork for the development of modern biotechnological techniques.
By improving antibiotics for treating plant diseases.
Paul Berg is often credited as the father of modern biotechnology for his pioneering work in recombinant DNA technology. His research laid the foundation for modern genetic engineering techniques and the development of biotechnological applications.