Biotechnology could combine both subject matter from medicine and from engineering. Biotechnology is based in Biology. But it is often used to refere to genetic engineering. Biochemistry, organic chemistry or chemical engineering can play a part in biotechnology. A link is provided to the Wikipedia article on biotechnology. Surf on over and just read the first paragraph and see what kind of picture you come away with.
Nanotechnology is better than biotechnology as nanotechnology can be applied to different career fields like electronics, medical, robotics, engineering and agriculture. So students from diverse fields can enter it. Biotechnology is limited to agriculture and pharmaceuticals. Salary, employment benefits and future growth prospects are very high as compared to Biotechnology.
The branches of biotechnology are: Red biotechnology-that is used for medical processes, like finding genetic cures by going through genomic manipulations and creating organisms to produce antibiotics.Green biotechnology- that is used in reference to agricultural processes that use biotechnology. Eg. The development of transgenic plants, need for pesticides remove etc.White biotechnology- This kind of biotechnology is used to reduce the costs for producing industrial goods that occur when traditional processes are used.Blue biotechnology- that deals with marine and aquatic usages of biotechnology,
synthesize hormones such as insulin and human growth harmones
Master degree in any branch of life sciences will be preferred
A synonym for genetic engineering is "genetic modification." This term refers to the process of altering the genetic material of an organism to achieve desired traits or characteristics. Other related terms include "gene editing" and "biotechnology."
Venetia A. Saunders has written: 'Microbial genetics applied to biotechnology' -- subject(s): Biotechnology, Genetic engineering, Microbial genetic engineering, Microbial genetics
Lara Wiggert has written: 'Biotechnology, genetic engineering for crop plant improvement' -- subject(s): Bibliography, Crops, Genetic engineering, Plant biotechnology
Steven C. Witt has written: 'BriefBook' -- subject(s): Biotechnology, Microbial biotechnology, Microorganisms 'Genetic engineering of plants' -- subject(s): Plant breeding, Plant genetic engineering
Carl-Fredrik Mandenius has written: 'Biomechatronic design in biotechnology' -- subject(s): Analytical Chemistry Techniques, Biomedical Engineering, Methods, Biotechnology, Biomechanics, Biomedical engineering
Albert Sasson has written: 'Biotechnologies' -- subject(s): Biochemical engineering, Biotechnology
Genetic engineering, where genes are manipulated to create new traits in organisms, is a common example of biotechnology. This can be seen in the development of genetically modified crops or bacteria that produce insulin for medical use.
M. P. Singh has written: 'Recent trends in biotechnology' -- subject(s): Genetic engineering, Methods, Genetic Engineering, Biosensing Techniques, Trends, Stem Cells, Biotechnology, Biomedical Research, DNA Fingerprinting
Doug Gurian-Sherman has written: 'Failure to yield' -- subject(s): Plant genetic engineering, Agricultural biotechnology, Crops, Genetic engineering, Plant biotechnology, Transgenic plants, Transgenic organisms, Crop yields
Luke Anderson has written: 'Genetic engineering, food, and our environment' -- subject(s): Biotechnology, Environmental aspects, Environmental aspects of Genetic engineering, Food, Genetic engineering
Lovely Professional University (LPU) offers a comprehensive Biotechnology program with four branches: Medical Biotechnology Focuses on the application of biotechnology in medical sciences, including gene therapy, vaccine development, and regenerative medicine. Students learn about the latest techniques and technologies used in medical biotechnology. Agricultural Biotechnology Emphasizes the use of biotechnology in agriculture, including genetic engineering, plant breeding, and livestock improvement. Students explore the applications of biotechnology in crop improvement, animal health, and agricultural sustainability. Industrial Biotechnology Concentrates on the industrial applications of biotechnology, including bioproducts, biocatalysis, and bioremediation. Students learn about the development and production of bio-based products, such as biofuels, bioplastics, and enzymes. Environmental Biotechnology Focuses on the application of biotechnology to address environmental issues, including biodegradation, bioremediation, and conservation biology. Students examine the role of biotechnology in environmental sustainability, pollution control, and ecosystem conservation. These four branches of biotechnology at LPU provide students with a comprehensive understanding of the field and its applications in various industries.
genetic engineering
biotechnology