Presented by
Biotechnology
Molecular Biology
Agricultural Science
Biochemistry
Biology
Genetic Engineering
Biotechnology
(A) DNA is specially engineered, extracted, and purified.
(B) This DNA is inserted into E. coli bacteria, which then produces human insulin as a metabolic byproduct.
(C) After the insulin is extracted from the culturing colonies and purified, it is available as a therapy for patients with type 1 diabetes.
Fun fact: It may sound strange, but some of our favorite foods, such as cheese and yogurt, are also produced by utilizing bacterial activity!
E. coli bacterium cell
E. coli bacteria colony
Bioengineered E. coli
Human insulin
Biomaterials
The smallest biological molecules and biomaterials (e.g., DNA, proteins) are comparable in size to nanomaterials.
However, nanomaterials are manmade, so these are not considered nanomaterials!
Other biological structures
(e.g., cells, viruses) are much larger than nanomaterials.
water
tennis ball
caffeine
virus
DNA
antibody
bacterium
cancer cell
period
penny
Nanomaterials
largest nanomaterials
human eye resolution limit
visible under the naked eye
invisible under the naked eye
fullerenes
nanoparticles; nanoshells
nanoliposomes
⇦ Materials of biotechnology
Materials of nanotechnology ⇨
Applications of biotech
⇦
Applications of nanotech ⇨
(Left) Nanostructures can be integrated into biological systems, such as in the brain.
(Right) Nanostructures can be created using biological molecules,
such as antibodies or DNA, as building blocks.
(A) A gold nanoparticle coated with antibodies.
(B) A gold nanoparticle coated with DNA.
(C) A carbon nanotube covered with biological molecules.
Example: Creating a spherical nucleic acid
DNA strands that are generally very difficult to be delivered to the cell’s nucleus for gene therapy can now be mounted on a nanoparticle, which helps them easily enter the cell.
Nanoparticles with DNA attached are used to deliver DNA into cells.
In bio-nanotechnology, DNA can be used as a construction material.
For example, DNA can been built into a cube (left) or a truncated octahedron (right).
In bio-nanotechnology, basic biological materials (such as DNA) are used to produce functional nanostructures.
...puts nano in biotechnology !
...puts bio in nanotechnology !
Nano- biotechnology
Bio- nanotechnology
Nanomaterials are utilized to further the studies of biology, medicine, and biotechnology.
Biological materials (e.g. nucleic acids, proteins) are utilized to make nanostructures.
Bio-nanotechnology uses biomaterials to make nanostructures.
Nano-biotechnology uses nanomaterials to further study biomaterials and organisms.
Want to test your knowledge? Take the quiz!
To learn more about nanotechnology, visit omninano.org