What is Biotechnology Engineering?
Biology and technology come together in biotechnology engineering, which focuses on investigating and producing novel goods by combining the two.
It is a subfield of chemical engineering and applied biology that falls under the engineering umbrella, focusing on the construction of living organisms.
Microorganisms, bioorganisms, and the functions of cells in living things are the focus of this field of study. It has been used for the production of industrial bioproducts as well as therapeutic biologics. Biotechnology engineering is a growing field, and it is considered by many to be a high-risk career.
The most common biotechnology engineering careers are protein and biofertilizer engineers, which involve research and development in the cell or microorganism. Biotechnology engineers applying medicinal chemistry principles may also work in the pharmaceutical industry.
Career opportunities after biotechnology engineering
Biotechnology researcher:
These professionals engage in the development and implementation of techniques to increase the amount of product produced. They conduct experiments and collect data to develop processes; their findings are then used to construct larger-scale production apparatus.
Biotechnology engineer:
The main role of a biotechnology engineer is to develop the equipment that can be used for the mass production of bioproducts. One example is a protein engineer that works on improving the production process of antibodies through molecular and synthetic engineering.
Quality controller:
Quality controllers test the bioproducts produced by engineers to ensure that they meet international standards. Technology development is key to having a well-rounded product that does not harm humans or animals. The main objective of quality control is to secure a product market and ensure consumer safety.
Research biochemist:
Research biochemists work to develop and improve bioproducts. They conduct experiments to determine which biological structures are best for a particular product. The study area is centered around the cell, protein, and gene expression to understand better the cellular processes that produce certain materials.
Associate engineer:
Associate engineers have a strong background in chemical engineering or biological engineering and specialize in the area of biotechnology. These professionals are usually promoted after having at least two years of experience, and they may also hold a master's degree in biotechnology.
To obtain an academic degree, one would need to go through either a bachelor's or master's degree program before being promoted to associate engineer.
Lab technician:
These workers test the products of biotechnology engineers to ensure that they meet international standards. Research technicians also work with cell biologists to produce a derivative of biological material to innovate industry techniques.
In addition, the supervisory position of bioengineering could be incorporated into the work of the biotechnology specialist or bioengineering crew leader. The BLE technicians would focus on state and federal regulations and specific regulations that relate to their job functions.
Professor:
These professionals are found both in academia and industry. They teach graduate students in their departments and conduct research as well. They judge the importance of the data and produce new techniques for bioproducts.
The next step for an engineer would be to work as a scientific manager or engineer researcher; these professionals put their credentials to work with a lab team leader, who is responsible for the daily operations of a laboratory.
Research Associate:
These professionals work with the development of drugs and vaccines for clinical trials. They also assist with designing and implementing bioproducts to improve living conditions on both local and global scales.
Biotechnologist:
They are involved in the development of medicinal chemicals and biological engineering. They collaborate with biological engineers to integrate their findings into the construction of biomaterials. They also help physicians, pharmacologists, and toxicologists develop better patient treatments.
Clinical researcher:
Clinical researchers help physicians create better treatments to cure illnesses. They test their findings in clinical trials that are performed at laboratories. These professionals would also help develop pharmaceuticals and drugs on a global scale.
Furthermore, bioinformatics engineers design and develop computer databases to store, analyze and retrieve information on genetic information.
Medical writer:
They write descriptions of research findings to aid in understanding the research community. They also assist in writing journal articles and news releases published in different media channels. Professional medical writers must have a bachelor's degree and a degree in medicine or biology.
Microbiologist:
These professionals work in the development of microorganisms to produce food and other industrial bioproducts. They also test microorganisms and determine whether they are safe for consumption. In addition, they work on identifying new drug targets that are affected by microorganisms.
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