Title: Introduction to Biotechnology
1Introduction to Biotechnology
2What career opportunities are available?
- Graduates work in
- biotechnology,
- medical and
- agricultural industries,
- in beverage and food production, and
- in a range of public and private diagnostic,
therapeutic and research laboratories covering - microbiology, hematology, bioremediation,
- immunology, forensic science,
- crop development, pest control,
- animal production, veterinary services,
- molecular biology and protein engineering
3What career opportunities are available?
- The career options are expanding rapidly.
- Advances in
- genetic engineering,
- protein engineering,
- cell culture and
- molecular biology
- have generated a virtually unlimited potential
for altering the capabilities of living systems, - greatly expanding the scope of biotechnology,
generating new applications for biological
products and allowing a previously unprecedented
ability to control life processes
4What is Biotechnology?
- Biotechnology is essentially
- the use of living organisms (often minute
microorganisms) and their products - for health, social or economic purposes.
-
- Biotechnology is widely considered to be the
growth technology of the 21st Century and this
will lead to huge growth in the Biotechnology
industry and exciting opportunities for
graduates. -
- The development of molecular biology and related
techniques have resulted in huge advances in
understanding and using basic biological
processes for commercial benefit.
5.. What is Biotechnology?
- Applications of biotechnology are widespread,
including the following - diagnosis and treatment of human diseases.
- improved production of therapeutic agents.
- development of improved crop plant species.
- development of improved pest/pathogen control
processes.
6.. What is Biotechnology?
- development of biosensors for environmental
pollutants. - development of improved waste treatment processes
and methods for remediation contaminated sites. - production of transgenic organisms for production
of new drugs, improved transplantation success
and improved animal and plant
7.. What is Biotechnology?
- According to the Academic Standards for Science
and Technology, Biotechnology is the ways that
humans apply biological concepts to produce
products and provide services. - Biotechnology is broadly defined as using living
organisms, or products of living organisms for
human benefit to make a product or solve a
problem.
8.. What is Biotechnology?
- Long before the term "biotechnology" was coined
for the process of using living organisms to
produce improved commodities, people were
utilizing living micro-organisms to produce
valuable products. - History of Biotechnology (Refer pg 2 text bk.).
- Our ancestors used microorganisms and used
fermentation to make bread, cheeses, yogurt,
alcoholic beverages etc.
9.. What is Biotechnology?
- One of the most widespread and commonly
understood applications of Biotechnology is the
use of antibiotic Penicillin from the mold
Penicillium (A.Flemming, 1928). - In 1940, penicillin became widely a available,
scale-up and commercial production of antibiotics
such as penicillin occurred. - The techniques used were (a) isolation of an
organism producing the chemical of interest using
screening/selection procedures, and (b)
improvement of production yields via mutagenesis
of the organism or optimization of media and
fermentation conditions.
10.. What is Biotechnology?
- This type of "antique" biotechnology is limited
to chemicals produced in nature. - About two decades ago, biotechnology became much
more of a science (rather than an art). - Since 1960, rapid development of our
understanding of genetics and molecular biology
has led to exciting new innovations and
applications in Biotechnology.
11.. What is Biotechnology?
- The secrets of DNA structure and functions have
led to gene cloning and genetic engineering,
manipulating the DNA of an organism. - Regions of DNA (called genes) were found to
contain information that would lead to synthesis
of specific proteins
12.. What is Biotechnology?
- A natural gene in simple bacteria such as
Escherichia coli (E. coli), a bacterium living in
intestines that has become the model organism for
much of biotechnology, if found in this
bacterium, scientist can have this bacterium
make a lot of the protein coded for by the gene,
regardless its source.
13.. What is Biotechnology?
- The techniques used for this development include
(a) isolation of the gene coding for a protein of
interest, (b) cloning of this gene into an
appropriate production host, and (c) improving
expression by using better promoters, tighter
regulation, etc. together these techniques are
known as recombinant DNA techniques.
14.. What is Biotechnology?
- Through genetic engineering scientists can
combine DNA from different sources and this
process is called recombinant DNA technology
(Chapter 3). - About a decade ago, "protein engineering" became
possible as an offshoot of the recombinant DNA
technology.
15.. What is Biotechnology?
- Recombinant DNA technology has led to hundreds of
applications including development of disease
resistant crops with greater yield and nutrient
value or genetically engineered bacteria able to
degrade environmental pollutant (Discussed under
bioremediation).
16.. What is Biotechnology?
- Hence the mid-eighties and early-nineties, it
became possible to transform (genetically modify)
plants and animals that are important for food
production. "Transgenic" animals and plants,
including cows, sheep, tomatoes, tobacco, potato,
and cotton have now been obtained.
17.. What is Biotechnology?
- Genes introduced may make the organism more
resistant to disease, or may increase yield and
nutrient value. - Recombinant DNA technology and genetic
engineering led to release of genetically
altered organisms into the environment, this part
of biotechnology is quite strictly regulated at
government levels (Biotechnology regulation will
be discussed).
18.. What is Biotechnology?
- Completed in 2003, the Human Genome Project (HGP)
was a 13-year project coordinated by the U.S.
Department of Energy and the National Institutes
of Health. During the early years of the HGP, the
Wellcome Trust (U.K.) became a major partner
additional contributions came from Japan, France,
Germany, China, and others.
19HGP Project goals were to
- identify all the approximately 20,000-25,000
genes in human DNA, - determine the sequences of the 3 billion chemical
base pairs that make up human DNA, - store this information in databases,
- improve tools for data analysis,
- transfer related technologies to the private
sector, and - address the ethical, legal, and social issues
(ELSI) that may arise from the project
20HGP Project
- The Human genome project can tell us the
chromosomal location and code of every human
genes that control cellular processes and
determine characteristics such as hair, eye
color, height, weight and all the genes that
cause human genetic diseases. - Human body has 24 chromosomes and the primary
goal of Human genome project was to identify and
map the location of each gene is each of the 24
chromosomes.
21Fig 1.2 Gene Map of Chromosome 13 21 which
indicate those genes involved genetic diseases.
22What is the purpose of identifying and locating
these genes?
23BIOTECHNOLOGY A SCIENCE OF MANY DISCIPLINES
- Biotechnology can be broadly defined as the
application of biological systems or processes to
the manufacturing, agricultural, health and
service industries. - It combines knowledge and techniques from several
areas of life sciences and engineering. - Biotechnology encompasses a wide range of science
and business disciplines
24Fig 1.3 The Biotechnology Tree Different
discipline contribute to Biotechnology
25Areas of application of Biotechnology
- The following lists the main areas and
application of Biotechnology from which all
others stem -
- Fermentation Technology
- This is, historically, the most important area in
biotechnology. There has been extensive
development in progress with new products such as
medically important drugs, solvents, protein
enhanced foods, etc. This also includes research
on different types of fermentation designs to
optimize the process.
26Areas of application of Biotechnology
- Enzyme Engineering
- This area is used for the catalysis of extremely
specific chemical reactions, for the
immobilization of enzymes, and to create specific
molecular converters (bioreactors). Products
formed include L-amino acids, high fructose
syrup, semi-synthetic penicillins, starch and
cellulose hydrolysis, etc.
27Areas of application of Biotechnology
- Waste Technology
- This has a long array of historical importance,
but now emphasis is on the coupling of this field
with the conservation and recycling of resources.
Examples would include foods, fertilizers, and
biological fuels.
28Areas of application of Biotechnology
- Environmental Technology
- Problems like pollution control, removing toxic
wastes, recovery of metals from mining wastes and
low grade ores, are just some of the categories
that fall under this field.
29Areas of application of Biotechnology
- Renewable Resources Technology
- The use of renewable energy sources, in
particular lignocellulose to generate new sources
of chemical raw material and energy - ethanol,
methane, and hydrogen
30Areas of application of Biotechnology
- Each of these fields utilizes knowledge from
Biochemistry, Genetics, Chemistry, Applied
Microbiology, Chemical and Process Engineering,
and Mathematics and Computer Technology. Also,
these areas of biotechnology attempt to use the
best possible catalysts in optimum environment to
carry out various chemical reactions.
31Products of Modern Biotechnology
- Insulin
- The first product of modern biotechnology made
use of insulin, a protein hormone produced in the
pancreas that the body uses to regulate the
concentration of blood sugar (glucose). Diabetes
patients can no longer produce insulin, and must
rely on an outside source to adequately regulate
blood glucose.
32Products of Modern Biotechnology
- Insulin
- In 1978, a synthetic version of the human insulin
gene was constructed and inserted into the
bacterium Eschericia coli, in the laboratory of
Herbert Boyer at the University of California at
San Francisco. Insulin is a protein, and like all
proteins, it consists of a chain of building
blocks called amino acids.
33To accomplish this, the piece of foreign DNA is
first inserted into a plasmid a small circle of
DNA which serves as a carrier. The new
"recombinant" plasmid carrying the human gene is
then reintroduced into another bacterial cell, as
shown in the figure above.
34- Fig.4 Using genetically modified cultured cells
to make a protein. - Other products of Modern Biotechnology (Read pg
6).
35Types of Biotechnology
- Biotechnology refers to various techniques that
use living organisms to make products or provide
services in different areas of Biotechnology
namely - Microbial,
- Agricultural,
- Animal,
- Forensic,
- Bioremediation,
- Aquatic and
- Medical Biotechnology.
36Types of Biotechnology..
- Selective breeding
- Selective breeding for new genetic combinations
- livestock, crops fermentation
- yogurt, cheese (bacteria, fungi)
- bread, beer (yeast organisms)
37Types of Biotechnology..
- Genetic Engineering
- Genetic engineering makes it possible for
organisms to get genes from different species
makes products useful in agriculture
38Types of Biotechnology..
- Genetically Modified Foods
- Genetically modified foods - produce plants that
yield more food, produce new types of food,
plants prone to diseases and severe weather
increase the disease resistance, size and growth
rate of animals) medicine and industry
39Types of Biotechnology..
- Produce Human Hormones
- Use of bacteria to produce human hormones e.g.,
insulin, human growth hormone, interferon use of
transgenic animals to produce complex human
proteins
40Types of Biotechnology..
- Environmental Biotechnology
- Environment (bioremediation, heavy metal
biotechnology, species preservation). - Gene Therapy
- Gene therapy replace defective genes with
healthy ones (use of viruses).
41- Further Readings
-
- Pg 9-12 (Types of Biotechnology)
- Pg 17 (Jobs in Biotechnology)
- Browse Web Links pg 21
42Bibliography
- http//en.wikipedia.org/wiki/Scientific_method
- http//biotech.icmb.utexas.edu/
- http//wps.aw.com/bc_palladino_biotech_1