For better or worse, we've been eating the fruits of bioengineering for decades.
From the theepochtimes.com
Joel Moake, a hematologist and senior research scientist in bioengineering at Rice.
From the sciencedaily.com
Dieffenbach is considering a career in bioengineering or molecular research.
From the dailyherald.com
History shows that bioengineering projects can have unintended consequences.
From the stltoday.com
The school's other two initiatives are in bioengineering, and environment and energy.
From the sciencedaily.com
It all began in a Berkeley bioengineering class taught by Daniel Fletcher.
From the newsweek.com
She later got a master's in bioengineering from the University of Michigan.
From the freep.com
Russ B. Altman, a physician and professor of bioengineering and genetics at Stanford.
From the nytimes.com
The implications of such bioengineering projects are complicated and still unfolding.
From the npr.org
More examples
Biotechnology: the branch of engineering science in which biological science is used to study the relation between workers and their environments
Biological engineering, biotechnological engineering or bioengineering (including biological systems engineering) is the application of engineering principles to address challenges in the life sciences which includes fields of biology, ecology, and medicine. ...
(Bioengineers) Organisms that affect their habitats either by providing structure for other organisms (autogenic bioengineers) or by converting resources from one form to another (allogenic bioengineers). (Bertness, Mark D. 1999).
Use of engineering principles to solve biomedical problems, such as creating chemicals or drugs that do not naturally occur. Also known as "genetic engineering."
Design, manufacture, and maintenance of engineering equipment used in biosynthetic processes i.e. the formation of complex compounds from simple substances by living organisms
The study of the relationship between living organisms and machinery; for example, the industrial application of the results of biologic research in the field of recombinant DNA technology which permits the production of synthetic hormones, enzymes, therapeutics etc. ...
Restoration and stabilization techniques that use plants, often native species, to mimic natural functions and benefits.
Using engineering techniques to solve medical problems. An example would be the design and production of artificial limbs.
The use of artificial tissues, organs, or organ components to replace parts of the body that are damaged, lost or malfunctioning (Martin et al, 2000).