Biotechnology is the application of living organisms or their components to industrial processes. It involves techniques like genetic engineering, cell culture, and monoclonal antibody production. Biotechnology has applications in medicine like producing insulin, agriculture like genetically modified crops, and forensics like DNA fingerprinting. While it offers benefits, biotechnology also raises societal issues around ethics, safety, and public awareness that are actively debated.
1. Overview
1. What is Biotechnology?
â˘Definitions of Biotechnology
â˘Timeline of Biotechnology
â˘Techniques used in Biotechnology
â˘Who's Who in Biotechnology
2. How is Biotechnology being used?
â˘Applications of Biotechnology
â˘Medicines on the market today
â˘Agriculture - GM Foods and Animals
â˘DNA fingerprinting and forensic science
â˘Gene Therapy and Transgenic Animals
â˘Human Embryonic Stem Cells and Cloning
3. What are some of the societal issues Biotechnology
raises?
â˘Bioethics / "Genethics"
â˘Public attitudes to biotechnology - safety, awareness
â˘Therapeutic uses of human genes and tissues
2. What is biotechnology?
⢠Biotechnology = bios (life) + logos (study of or
essence)
â Literally âthe study of tools from living thingsâ
⢠CLASSIC: The word "biotechnology" was first used in
1917 to describe processes using living organisms to
make a product or run a process, such as industrial
fermentations. (Robert Bud, The Uses of Life: A
History of Biotechnology)
⢠LAYMAN: Biotechnology began when humans began
to plant their own crops, domesticate animals,
ferment juice into wine, make cheese, and leaven
bread (AccesExcellence)
3. What is biotechnology?
⢠GENENTECH: Biotechnology is the process of
harnessing 'nature's own' biochemical tools to make
possible new products and processes and provide
solutions to society's ills (G. Kirk Raab, Former
President and CEO of Genentech)
⢠WEBSTERâS: The aspect of technology concerned
with the application of living organisms to meet the
needs and ends of man.
⢠WALL STREET: Biotechnology is the application of
genetic engineering and DNA technology to produce
therapeutic and medical diagnostic products and
processes. Biotech companies have one thing in
common - the use of genetic engineering and
manipulation of organisms at a molecular level.
4. What is biotechnology?
⢠Using scientific methods with organisms to produce
new products or new forms of organisms
⢠Any technique that uses living organisms or
substances from those organisms or substances from
those organisms to make or modify a product, to
improve plants or animals, or to develop
microorganisms for specific uses
5. What is biotechnology?
⢠Biotechnology is a multidisciplinarian in nature,
involving input from
⢠Engineering
⢠Computer Science
⢠Cell and Molecular Biology
⢠Microbiology
⢠Genetics
⢠Physiology
⢠Biochemistry
⢠Immunology
⢠Virology
⢠Recombinant DNA Technology ď Genetic manipulation
of bacteria, viruses, fungi, plants and animals, often for
the development of specific products
6. What are the stages of biotechnology?
⢠Ancient Biotechnology
⢠early history as related to food and shelter,
including domestication
⢠Classical Biotechnology
⢠built on ancient biotechnology
⢠fermentation promoted food production
⢠medicine
⢠Modern Biotechnology
⢠manipulates genetic information in organism
⢠genetic engineering
7. Ancient biotechnology
History of domestication and agriculture
⢠Paleolithic society â Hunter-gatherers ď Nomadic
lifestyle due to migratory animals and edible plant
distribution (wild wheat and barley) (~2 x 106 yrs.)
⢠Followed by domestication of plants and animals
(artificial selection) ď People settled, sedentary
lifestyles evolved (~10,000 yrs. ago)
⢠Cultivation of wheat, barley and rye (seed
collections)
⢠Sheep and goats ď milk, cheese, button and
meat
⢠Grinding stones for food preparation
⢠New technology ď Origins of Biotechnology ď
Agrarian Societies
8. ⢠Long history of fermented foods since people
began to settle (9000 BC) (fervere âto boil)
⢠Often discovered by accident!
⢠Improved flavor and texture
⢠Deliberate contamination with bacteria or
fungi (molds)
⢠Examples:
â˘Bread
â˘Yogurt
â˘Sour cream
â˘Cheese
â˘Wine
â˘Beer
â˘Sauerkraut
Ancient biotechnology
Fermented foods and beverages
9. Ancient biotechnology
Fermented foods and beverages
⢠Dough not baked immediately would undergo
spontaneous fermentation ď would rise ď
Eureka!!
⢠Uncooked fermented dough could be used to
ferment a new batch ď no longer reliant on
âchance fermentationâ
⢠1866 â Louis Pasteur published his findings on
the direct link between yeast and sugars ď CO2 +
ethanol (anaerobic process)
⢠1915 â Production of bakerâs yeast â
Saccharomyces cerevisiae
10. Classical biotechnology
Industry today exploits early discoveries of the fermentation
process for production of huge numbers of products
â˘Different types of beer
â˘Vinegar
â˘Glycerol
â˘Acetone
â˘Butanol
â˘Lactic acid
â˘Citric acid
â˘Antibiotics â WWII (Bioreactor developed for large
scale production, e.g. penicilin made by fermentation
of penicillium)
â˘Today many different antibiotics are produced by
microorganisms
â˘Cephalosporins, bacitracin, neomycin,
tetracyclineâŚâŚ..)
11. Classical biotechnology
Chemical transformations to produce therapeutic
products
⢠Substrate ď + Microbial Enzyme ď Product
⢠Examples:
⢠Cholesterol ď Steroids (cortisone, estrogen,
progesterone) (hydroxylation reaction ď -OH
group added to cholesterol ring)
12. Classical biotechnology
Microbial synthesis of other commercially valuable
products
⢠Amino acids to improve food taste, quality or
preservation
⢠Enzymes (cellulase, collagenase, diastase,
glucose isomerase, invertase, lipase, pectinase,
protease)
⢠Vitamins
⢠Pigments
13. ⢠Cell biology
Modern biotechnology
⢠Structure, organization and reproduction
⢠Biochemistry
⢠Synthesis of organic compounds
⢠Cell extracts for fermentation (enzymes
versus whole cells)
⢠Genetics
⢠Resurrection of Gregor Mendelâs findings ď 1866 ď
1900s
⢠Theory of Inheritance (ratios dependent on traits of
parents)
⢠Theory of Transmission factors
⢠W.H. Sutton â 1902
⢠Chromosomes = inheritance factors
⢠T.H. Morgan â Drosophila melanogaster
14. Modern biotechnology
Molecular Biology
⢠Beadle and Tatum (Neurospora crassa)
⢠One gene, one enzyme hypothesis
⢠Charles Yanofsky ď colinearity
between mutations in genes and amino
acid sequence (E. coli)
⢠Genes determine structure of proteins
⢠Hershey and Chase â 1952
⢠T2 bacteriophage â 32P DNA, not 35S protein
is the material that encodes genetic
information
15. Modern biotechnology
⢠Watson, Crick, Franklin and Wilkins (1953)
⢠X-ray crystallography
⢠1962 â Nobel Prize awarded to three men
⢠Chargaff â DNA base ratios
⢠Structural model of DNA developed
⢠DNA Revolution â Promise and Controversy!!!
⢠Scientific foundation of modern biotechnology
⢠based on knowledge of DNA, its replication,
repair and use of enzymes to carry out in vitro
splicing DNA fragments
16. Modern biotechnology
⢠Breaking the Genetic Code â Finding the Central
Dogma
⢠An âRNA Clubâ organized by George Gamow (1954)
assembled to determine the role of RNA in protein
synthesis
⢠Vernon Ingramâs research on sickle cell anemia (1956)
tied together inheritable diseases with protein structure
⢠Link made between amino acids and DNA
⢠Radioactive tagging experiments demonstrate
intermediate between DNA and protein = RNA
⢠RNA movement tracked from nucleus to cytoplasm ď site of
protein synthesis
17. Modern biotechnology
⢠DNA ď RNA ď Protein
Transcription Translation
Genetic code determined for all 20 amino acids by
Marshal Nirenberg and Heinrich Matthaei and Gobind
Khorana â Nobel Prize â 1968
⢠3 base sequence = codon
18. What are the areas of biotechnology?
⢠Organismic biotechnology
⢠uses intact organisms and does not alter genetic
material
⢠Molecular Biotechnology
⢠alters genetic makeup to achieve specific goals
Transgenic organism: an organism with artificially
altered genetic material
19. What are the benefits of
biotechnology?
⢠Medicine
⢠human
⢠veterinary
⢠biopharming
⢠Environment
⢠Agriculture
⢠Food products
⢠Industry and manufacturing
20. What are the applications of biotechnology?
⢠Production of new and improved crops/foods,
industrial chemicals, pharmaceuticals and livestock
⢠Diagnostics for detecting genetic diseases
⢠Gene therapy (e.g. ADA, CF)
⢠Vaccine development (recombinant vaccines)
⢠Environmental restoration
⢠Protection of endangered species
⢠Conservation biology
⢠Bioremediation
⢠Forensic applications
⢠Food processing (cheese, beer)
21. Monoclonal
Antibodies
Cell
Culture
Molecular
Biology
Genetic
Engineering
Anti-cancer drugs
Diagnostics
Culture of plants
from single cells
Transfer of new
genes into animal
organisms
Tracers
Synthesis of
specific DNA
probes
Localisation of
genetic disorders
Cloning
Mass prodn. of
human proteins
Resource bank
for rare human
chemicals
Gene therapy
Synthesis
of new
proteins
New
antibiotics
New types of
plants and
animals
New types
of food
Crime solving
DNA
technology
Banks of
DNA, RNA
and proteins
Complete
map of the
human
genome
22. Biotechnology Timeline
1750 BC The Sumerians brew beer.
500 BC Chinese use moldy soybean
curds as an antibiotic to treat
boils
1590 Janssen invents the microscope
1675 Leeuwenhoek discovers cells
(bacteria, red blood cells)
1830 Proteins are discovered
1833 The first enzymes are isolated
1855 The Eschirium coli bacterium
is discovered
23. Biotechnology Timeline
1859 Charles Darwin publishes On
the Origin of Species
1864 Louis Pasteur shows all living
things are produced by other
living things
1865 The age of genetics begins
1902 Walter Sutton coins the term
âgeneâ - proposed that
chromosomes carry genes
24. Biotechnology Timeline
1910 Chromosomal theory of
inheritance proved
1928 Fleming discovers antibiotic
properties of certain molds
1941 George Beadle and Edward Tatum propose
that one gene makes one protein
1949 Sickle cell anaemia demonstrated to be
molecular disease
25. Biotechnology Timeline
1952 The âWaring Blenderâ
experiment
1953 The double helix is
unravelled
1967 The genetic code is cracked
1973 Recombinant DNA
technology begins
1975 First international conference
on recombinant DNA
technology
26. Biotechnology Timeline
1975 DNA sequencing discovered
1975 Monoclonal antibody
technology introduced
1978 Genentech Inc. established
1978 Genentech use genetic engineering to produce
human insulin in E.coli - 1980 IPO of $89
1978 Kary Mullis discovers PCR
27. Biotechnology Timeline
1989 The Human Genome Project begins
1990 First use of gene therapy
1990 First product of recombinant
DNA technology introduced
into US food chain
1993 FDA announces that
transgenic food is safe
1994 The FLAVRSAVR tomato -
first genetically engineered
whole food
28. Biotechnology Timeline
1996 First mammal cloned from adult
cells
1990s First conviction using genetic
fingerprinting
1996 Development of Affymetrix
GeneChip
1997 First artificial chromosome
29. History of Biotechnology
1998 Human embryonic stem cells
grown
1999 Celera announces completion
of Drosophilia genome
sequence
2000 90% of Human Genome
sequence published on web
2001 Human genome project
complete
30. Discussion
⢠What is the societal impression of biotechnology?
⢠What are the negative impacts that biotechnology may
have?
⢠What are the potential ethical issues associated with
biotechnology?
⢠Why are biotechnology companies targeted by anti-globalisation
protesters?
⢠How can the image of biotechnology to the public be
improved? Should it be improved?
⢠What are the potential dangers of biotechnology?