Download DNA structure, function and metabolism. File

Document related concepts

Genetic testing wikipedia , lookup

Population genetics wikipedia , lookup

Molecular cloning wikipedia , lookup

Site-specific recombinase technology wikipedia , lookup

Minimal genome wikipedia , lookup

Synthetic biology wikipedia , lookup

Quantitative trait locus wikipedia , lookup

Genome evolution wikipedia , lookup

Human genetic variation wikipedia , lookup

Behavioural genetics wikipedia , lookup

Biology and consumer behaviour wikipedia , lookup

Gene wikipedia , lookup

Public health genomics wikipedia , lookup

Artificial gene synthesis wikipedia , lookup

Genome editing wikipedia , lookup

Genome (book) wikipedia , lookup

Designer baby wikipedia , lookup

Genetically modified crops wikipedia , lookup

Microevolution wikipedia , lookup

Genetically modified food wikipedia , lookup

Genetically modified organism containment and escape wikipedia , lookup

Genetic engineering wikipedia , lookup

History of genetic engineering wikipedia , lookup

Transcript
What Is Biotechnology?
Amrapali A. Akhare
1
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 to make or
modify a product, to improve plants or animals, or
to develop microorganisms for specific uses
 The application of biological organisms, systems or
processes to manufacturing and service industries
Amrapali A. Akhare
2
Biotechnology ?

The integrated use of biochemistry, microbiology and
engineering sciences in order to achieve technological
(industrial) application capabilities of microorganism,
cultured tissue cells and part there of.

A technology using biological phenomena by copying
and manufacturing various kinds of useful substance.

The application of scientific and engineering
principles to the processing of materials by
biological-agents to provide goods and services.
Amrapali A. Akhare
3
Biotechnology ?

The use of living organism and their component in
agriculture, food and other industrial processes

The use of microbial, animal and plant cells or
enzymes to synthesize, breakdown and transform
materials

The integration of natural sciences and organisms,
cells, parts thereof and molecular analogues to
product and services
Amrapali A. Akhare
4
Recombinant DNA Technology?
 Manipulation of genes is called genetic engineering or
recombinant DNA technology
 Genetic engineering involves taking one or more genes
from a location in one organism and either
 Transferring them to another organism
 Putting them back into the original organism in
different combinations
 GMO- genetically modified organisms.
 GEO- genetically enhanced organisms.
 With both, the natural genetic material of the organism
has been altered.
Amrapali A. Akhare
5
History
Amrapali A. Akhare
6
Stages of Biotechnology Development
 Ancient biotechnology
early history as related to food and shelter; Includes
domestication
 Classical biotechnology
built on ancient biotechnology; Fermentation promoted food
production, and medicine
 Modern biotechnology
manipulates genetic information in organism; Genetic
engineering
Amrapali A. Akhare
7
TRADITIONAL PLANT
BIOTECHNOLOGY
Traditional/old biotechnology
The conventional techniques that have been used to
produce beer, wine, cheese, many other food
TRADITIONAL PLANT BIOTECHNOLOGY
 breeding
 tissue culture
 inter-specific hybridisation
 mapping phenotypic/biochemical markers
Amrapali A. Akhare
8
New/modern biotechnology

New/modern biotechnology
All methods of genetic modification by recombinant DNA
and cell fusion techniques, together with the modern
development of traditional biotechnological process
Amrapali A. Akhare
9
Areas of Biotechnology
 Organismic biotechnology
uses intact organisms; Does not alter
genetic material
 Molecular biotechnology
alters genetic makeup to achieve specific
goals
 Transgenic organism- an organism with
artificially altered genetic material
Amrapali A. Akhare
10
What Subjects Are Involved
With Biotechnology?
 Multidisciplinary- involving a number
of disciplines that are coordinated for
a desired outcome
 Science
 Life sciences
 Physical sciences
 Social sciences
Amrapali A. Akhare
11
What Subjects Are Involved
With Biotechnology?
 Mathematics
 Applied sciences
 Computer applications
 Engineering
 Agriculture
Amrapali A. Akhare
12
Biotechnology:
A collection of technologies
Amrapali A. Akhare
13
What is the career outlook in
biotechnology?
 Biotech in 1998
 1,300 companies in the US
 2/3 have less than 135 employees
 140,000 jobs
 Jobs will continue to increase exponentially
 Jobs are available to high school graduates
through PhD’s
Amrapali A. Akhare
14
The Applications of Biotechnology

Medical Biotechnology




Diagnostics
Therapeutics
Vaccines
Agricultural Biotechnology



Plant agriculture
Animal agriculture
Food processing
Food products
Industry and manufacturing

Environmental Biotechnology



Cleaning through bioremediation
Preventing environmental problems
Monitoring the environment
Amrapali A. Akhare
15
Plant agriculture
 Crop production and protection



Genetically engineered (transgenic) crops
Using biological methods to protect crops
Exploiting cooperative relationships in nature
 Nutritional value of crops
 Improving food quality and safety
 Healthier cooking oils by decreasing the concentration of
saturated fatty acids in vegetable oils
 Functional foods
Foods containing significant levels of biologically active
components that impart health benefits
Plant Biotechnology
Amrapali A. Akhare
16
PLANT BIOTECHNOLOGY
a process to produce a genetically modified plant
by removing genetic information from an
organism, manipulating it in the laboratory and
then transferring it into a plant to change certain
of its characteristics .
Now use a molecular approach to manipulation:
 molecular markers & mapping
 gene cloning
 plant transformation
Amrapali A. Akhare
17
pathogen-derived genes
Exogenous genes
(non-plant genes)
bacterial genes
any other organism
Pathogen resistance
Applications:
Herbicide resistance
 transgenic
bioreactors
Amrapali A. Akhare
Delivery systems
18
Endogenous genes
(Plant genes)
Enzymes in biochemical pathway
Natural resistance genes
Mapping
Gene discovery
(functional genomics)
ESTs, libraries
Silencing, expression
Mutants, arrays
Applications:
markers
transgenic
Marker assisted breeding
Plant improvement
Amrapali A. Akhare
19
I.Plant Tissue Culture and Applications
A.Plant Tissue Culture
B.Micro-propagation
1.Somatic Embryos
2.Chemicals from Plants
C.Other Uses of Tissue Culture
1.Protoplast Fusion
2.Somaclonal Variation
3.Germplasm Storage
II.Plant Genetic Engineering
A.Plant Transformation
B.Transgenic Plant
Amrapali A. Akhare
20
What Are Genetic Engineering
Organisms?
 Genetic engineering- artificially
changing the genetic information in
the cells of organisms
 Transgenic- an organism that has
been genetically modified
 GMO- a genetically modified organism
 GEO- a genetically enhanced
organism
Amrapali A. Akhare
21
Why Change an organism?
 To get desirable traits
 Economic gain
 Increase production
 Disease resistance
Amrapali A. Akhare
22
How Can Genetically
Engineered Plants Be Used?





Agriculture
Horticulture
Forestry
Environment
Food Quality
Amrapali A. Akhare
23
What Are Methods of Classical
Biotechnology?
 Plant breeding- improvement of
plants by breeding selected
individuals to achieve desired goals
 Cultivar- a cultivated crop variety
Amrapali A. Akhare
24
What Are Methods of Classical
Biotechnology?
 Plant breeding methods;
 Line breeding- breeding successive
generations of plants among
themselves
 Crossbreeding- breeding plants of
different varieties or species
 Hybridization- breeding individuals
from two distinctly different varieties
 Selection
Amrapali A. Akhare
25
Why Are Plants Genetically
Engineered?





Resist pests
Resist herbicides
Improved product quality
Pharmaceuticals
Industrial products
Amrapali A. Akhare
26
What Is Bioremediation?
Bioremediation- using
biological processes to solve
environmental problems
Biodegradation- natural
processes of microbes in
breaking down hydrocarbon
materials
Biodegradable- capable of
being decomposed by
microbes
Amrapali A. Akhare
27
How Can Bioremediation Be
Used?
Oil spills
Wastewater treatment
Heavy metal removal
Chemical degradation
Amrapali A. Akhare
28
What Is Phytoremediation?
Phytoremediation- process
of plants being used to
solve pollution problems
 Plants absorb and break
down pollutants
 Used with heavy metals,
pesticides, explosives, and
leachate
Amrapali A. Akhare
29
What Is Composting?
 Composting- a process that
promotes biological
decomposition of organic matter
 Compost bin- a facility that
contains materials for
composting
 In-vessel composting- using
enclosed containers for
composting
Amrapali A. Akhare
30
People in Biotech
Zacharias Janssen
Discovered the principle of
the compound microscope
in 1590
Dutch eye glass maker
Amrapali A. Akhare
31
What Did These Individuals
Contribute to Biotechnology?

Anton van Leeuwenhoek

Discovered cells
 Developed single
lens microscope in
1670’s
 First to observe
tiny organisms and
document
observations



Bacteria
Protists
Red blood
Amrapali A. Akhare
32
What Did These Individuals
Contribute to Biotechnology?








Gregor Johan Mendel
Discovered genetics
Formulated basic laws of
heredity during mid 1800’s
Austrian Botanist and monk
Experimented with
peasStudied inheritance of
seven pairs of traits
Bred and crossbred thousands
of plants
Determined that some traits
were dominant and other
recessiveFindings were
published in 1866
Largely ignored for 34 years
Amrapali A. Akhare
33
Anton V.L.
Work led to modern
microscopes
Electron microscope
developed in 1931 by
group of German
scientists
Amrapali A. Akhare
34
What Did These Individuals
Contribute to Biotechnology?
 Walter Sutton
 Discovered
Chromosomes
 Determined in
1903 that
chromosomes
carried units of
heredity identified
by Mendel
 Named “genes” in
1909 by Wilhelm
Johannsen,
Danish Botanist
Amrapali A. Akhare
35
What Did These Individuals
Contribute to Biotechnology?
 Thomas Hunt Morgan
 Discovered how genes
are transmitted through
chromosomes
 Studied genetics of fruit
flies
 Early 1900’s
 Experimented with eye
color
 His work contributed to
the knowledge of X and Y
chromosomes
 Nobel Peace Prize in
1933 for research in
gene theory
Amrapali A. Akhare
36
What Did These Individuals
Contribute to Biotechnology?


Ernst Ruska
Invented the electron
microscope
 Build the first
electron
microscope in 1932
 German electrical
engineer
 Microscope offered
400X magnification
Amrapali A. Akhare
37
What Did These Individuals
Contribute to Biotechnology?
 Sir Alexander
Fleming






Discovered penicillin in 1928
First antibiotic drug used in
treating human disease
Observed growth of molds
(Penicillium genus) in a dish
that also contracted bacteria
Bacteria close to the molds
were dead
Extracting and purifying the
molds took a decade of
research
Penicillin first used in
1941Penicillin credited with
saving many lives during WWII
when wounded soldiers
developed infections.
Amrapali A. Akhare
38
What Did These Individuals
Contribute to Biotechnology?
 Rosalind Elsie Franklin
 Research led to the
discovery of the double
helix structure of DNA
 Research in France and
England in mid 1900’s
 Her early research was
used to produce an
atomic bomb
 Set up X ray diffraction
lab
 Photographs of DNA
showed that it could
have a double helix
structureSome questions
surround the theft of her
work in 1952
Amrapali A. Akhare
 Including x ray
photographs
39
What Did These Individuals
Contribute to Biotechnology?

James Watson and Francis Crick
 Collaborated to
produce the first
model of DNA
structure in 1953
 Described DNA
dimensions and
spacing of base pairs
 Had major impact on
genetic engineering
carried out today
Amrapali A. Akhare
40
What Did These Individuals
Contribute to Biotechnology?
 Mary-Claire King
 Mapped human genes for
research of cancer
treatments
 Research into nature of
DNA during late 1900’s
 Determined that 99% of
human DNA is identical
to chimpanzee
 1975 found similar gene
pools between humans
and chimpanzee made it
possible to research
hereditary causes of
breast cancer
Amrapali A. Akhare
41
What Did These Individuals
Contribute to Biotechnology?
 Ian Wilmut
 Created the first true
clone, the Dorset ewe
Dolly
 Cloning of a sheep
named Dolly in
1997
 Produced from
tissue of an adult
sheep
 Previous cloning
efforts had been
from early embryos
Amrapali A. Akhare
42
Johan Friedrich Miescher
Swiss Biologist
Isolated nuclei of white
blood cells in 1869
Led to identification of
nucleic acid by Walter
Flemming
Amrapali A. Akhare
43
Watson
Born in the US
Crick – born in England
Collaborative research at
Cambridge University in
England
Amrapali A. Akhare
44
Norman E. Borlaug
 Developed wheat varieties
producing high yields
 Research in Mexico
 Semi dwarf varieties
 Developed wheat variety that
would grow in climates where
other varieties would not
Amrapali A. Akhare
45
Borlaug
Nobel Peace Prize in 1971
Credited with helping
relieve widespread hunger
in some nations
Amrapali A. Akhare
46
Products of Biotechnology
Amrapali A. Akhare
47
Products of Biotechnology
 One of the first commercial
products of genetic
engineering was insulin
 E. coli bacteria was
genetically engineered to
produce insulin.
Amrapali A. Akhare
48
Products of Biotechnology
 BST (Bovine Somatotropin)
 Increases milk production in dairy
cattle.
 BST became available
commercially as a result of genetic
engineering
Amrapali A. Akhare
49
Animal Feed
Livestock such as cattle are
commonly fed genetically
engineered feed (corn,
grain)
Amrapali A. Akhare
50
Products of Biotechnology
 Herbicide Resistant Crops
Amrapali A. Akhare
51
Products of Biotechnology
 Biodiesel - diesel-equivalent,
processed fuel derived from biological
sources.
Amrapali A. Akhare
52
Biotechnology in Animal Science
 used in determining the
sex and parents of
animals
 Artificial Insemination
allows us to control
genetic input of
offspring.
Amrapali A. Akhare
53
Biotechnology in Animal Science
 Embryo Transfer – Allows for
cattle to have multiple calves
per year.
Amrapali A. Akhare
54
Pharming
• Pharming is the
production of
pharmaceuticals in
animals engineered to
contain a foreign, drugproducing gene.
Amrapali A. Akhare
55
Pharming
These goats contain the
human gene for a clotdissolving protein that
is produced in their
milk.
Amrapali A. Akhare
56
Biotechnology in Animal Science
Cloning creates a genetically
identical copy of an animal or
plant.
 Plants are often cloned –
cuttings
 Human identical twins are also
clones.
Amrapali A. Akhare
57
Regulations
 Prior to marketing products
from biotechnology, Companies
works with regulatory agencies
in the U.S. and many other
countries to assess the
products’:
 Safety
 Nutrition
 Agronomic performance.
Amrapali A. Akhare
58
Ethics in Biotechnology
Amrapali A. Akhare
59
Why Ethics in Biotechnology
 New technology.
 Plurality of moral convictions.
 Divergent economic, political, and social
objectives.
 Growing sensitivity of the public.
 Doubts of the public about internal control
mechanism of scientific institutions and the
scientific community to adequately consider
moral implications of research and its
consequences.
 Complexity of ethical issues involved.
Amrapali A. Akhare
60
Bioethics
Bioethics: A discipline dealing with the ethical
implications of biological research and applications
Amrapali A. Akhare
61
Ethics and Biotech
 Not everyone believes that
biotechnology is going to benefit
us in the future.
 Let nature be… not in God’s plan…
etc…
Amrapali A. Akhare
62
Concerns
 Unexpected impact on
environment and to other
organisms
 Expanse of G.E organisms
 Safety of foods
 Lack of education
Amrapali A. Akhare
63
Concerns
Some countries have
banned GMO’s and
others have turned
down food that has
been genetically
modified.
Amrapali A. Akhare
64
Two Kinds of Ethical Arguments Used to
Evaluate Concerns Over Biotechnology
 Extrinsic objections say the possible
consequences of some biotech
applications are objectionable, but others
may be acceptable
GMOs are wrong because risks
outweigh benefits.
 Intrinsic objections say the process of
biotechnology is objectionable in itself
GMOs are wrong , no matter how
great the benefits.
Amrapali A. Akhare
65