1. GENETIC ENGINEERINGGENETIC ENGINEERING
FOR CROP IMPROVEMENTFOR CROP IMPROVEMENT
PLANT TRANSFORMATION WITHPLANT TRANSFORMATION WITH
A.TUMIFACIENSA.TUMIFACIENS
BY
T.NIVETHITHA
III-BIOTECHNOLOGY
BON SECOURS COLLEGE
FOR WOMEN.
2. Plant Transformation with the TiPlant Transformation with the Ti--
Plasmid ofPlasmid of A.tumefaciensA.tumefaciens
Agrobacterium tumefaciens are gram-negative
organisms responsible for transfer of target DNA(T-
DNA).
These phytopathogens, transforms plant cells
(trasngenic plants), which genetic transformation(trasngenic plants), which genetic transformation
leads to the formation of Crown gall tumors.
As it helps in the transformation of plants,
Agrobacterium sp. are known as Natural Genetic
engineers.
The involvement of Agrobacterium sp. was discovered
by Smith and Townsend in 1907.
3. TiTi--PlasmidPlasmid
Ti-plasmid carries about
approximately 10-30kbp
of T-DNA.
The virulent strains of
A.tumifaciens harbor large
plasmids of about 140-plasmids of about 140-
235 kbp, known as Ti-
Plasmids.
It consists of vir region,
origin of replication, region
enabling conjugative
transfer, o-cat region for
catabolism of opines and
most importantly T-DNA.
4. STRUCTURE OF TSTRUCTURE OF T--DNADNA
T-DNA is a part of the “tumor-inducing” (Ti) plasmid, that is
carried by most strains of A.tumefaciens.
T-DNA is defined by its left and right borders and includes
genes for the biosynthesis of auxin,cytokinin and opine.genes for the biosynthesis of auxin,cytokinin and opine.
5. Process Involved:Process Involved:
The initial step in the infection is the attachment of
A.tumefaciens to a plant cell at the site of an open
wound, often at the crown(base), which produces a
network of cellulose fibrils that bind the bacterium
tightly to the plant cell surface.
These bacteria respond to certain plant phenolic
compounds, acetosyringone and
hydroxyacetosyringone, excreted by wounded plants.
These small molecules act to induce the virulence (vir)
genes located on 35kb region of Ti-plasmid.
6. After Ti-plasmid carrying
A.tumifaciens attaches to a
host plant, the vir genes
are induced and becomes
integrated into the
chromosomal DNA. The T-
DNA also contains iaaM and
iaaH genes.iaaH genes.
The iaaM codes for the
enzyme tryptophan 2-
monooxygenase which
converts tryptophan to
indole 3-acetamide
hydrolase, which coverts it
to indoleacetic acid.
7.
8. The T-DNA also carries ‘tmr’ gene(ipt), that encodes
isopentenyltransferase responsible for the synthesis of
cytokinin isopentenyladenine.
The opines are synthesized within the crown gall and
then secreted, which can be used as a carbon source,
and sometimes as nitrogen source by A.tumifaciens.
The binary cloning vector system and cointegratedThe binary cloning vector system and cointegrated
cloning vector system are being used in this transfer
technique.
Finally, the transformed cells are being tested by
Kanamycin treatment, and if they grew the
transformation is confirmed and those transgenic
plants or crops are cultivated in a large scale.
10. Physical Methods of TransferringPhysical Methods of Transferring
Genes to PlantsGenes to Plants
MICROPROJECTILE BOMBARDMENT- (Biolistics) Used
with a wide range of plants and tissues; easy and
inexpensive.
VIRALVECTORS- Not an effective way to deliver DNA
to plant cells.
DIRECT GENETRANSFER INTO PLANT
PROTOPLASTS- Can be used only with the plant cell
protoplasts that can be regenerated into viable plants.
11. ELECTROPORATION- Generally limited to plant cell
protoplasts that can be regenerated into viable plants.
LIPOSOME FUSION- Can be used only with plant cell
protoplasts that can be regenerated into viable plants.
MICROINJECTION- Has limited usefulness because
only one cell can be injected at a time; requires the
services of a highly skilled individual.
12. APPLICATIONS:APPLICATIONS:
• Crop Improvement
• Genetically Engineered Traits:
The Big Six
1. Herbicide resistance
2. Insect resistance2. Insect resistance
3. Virus resistance
4. Altered oil content
5. Delayed fruit ripening
6. Pollen control
13. • Biotech Revolution: Cold and Drought
Tolerance and Weather-guard genes
1. Genetically Engineered foods
2. Soybeans
3. Corn3. Corn
4. Cotton
5. Other crops