Introduction to plant biotechnology part 1
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In this lucid slide show we will go through the very basic tools of biotechnology: Restriction Enzymes and qualities of a good Plasmid Vector.
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Introduction to plant biotechnology part 1
- 1. Somnath Mondal Introduction To Plant Biotechnology Part I
- 2. Somnath Mondal Gene of interest present in the DNA of Plant A To be incorporated into Plant B Gene of interest copied by PCR. The gene sequence can be synthesized by oligonucleotide synthesizer. Gene is incorporated into plasmid vector DNA. Plasmid vector with gene of interest in incorporated into bacteria, like E.coli. Plasmid vector with gene of interest is isolated from E.coli. Plasmid vector with gene of interest is isolated from E.coli is again incorporated into Agrobacterium tumefaciens. SELECTION SELECTION SELECTION
- 3. Somnath Mondal Basic tools of RDT Restriction Enzyme Plasmid DNA
- 4. Somnath Mondal Restriction Enzymes Werner Arber, Hamilton Smith and Daniel Nathans got Nobel Prize in Physiology orMedicine in 1978 for their research on Restriction Endonucleases. They cut the phosphodiester bond that joins adjacent nucleotides in a DNA strand and thus make internal cuts in DNA. Within bacteria, they provide protection against virus infection as they cleave the viral nucleic acid and nullify their pathogenicity.
- 5. Somnath Mondal Restriction enzymes recognize palindromic DNA sequences – which read same forward and backward on opposite strands of DNA. MADAM, REVIVER, REFER, LEVEL, CIVIC, RADAR – are some common PALINDROMIC WORDS which read the same forward or backward. Some common Palindromic DNA Sequences are: 5'…..GAATTC…..3' 5'…..GGATCC…..3' 3'…..CTTAAG…..5' 3'…..CCTAGG…..5'
- 6. Somnath Mondal Types of Restriction Endonuclease Restriction Endonuclease Type I Type II Type III Type IV Type V • Cuts at sites away from recognition site. • Multifunctional protein with both restriction endonuclease and methylase activity. • Cuts within recognition site or in short distance from it. • Unifunctional protein with only restriction endonuclease activity. • Cuts at sites in short distance from recognition site. • Multifunctional protein with both restriction endonuclease and modification methylase activity. • They target modified DNA like methylated DNA. • They use guide RNAs to identify specific non- palindromic sequences and cut the DNA.
- 7. Somnath Mondal Nomenclature of Restriction Endonucleases 1st Letter of the enzyme = 1st Letter of the Genus of the bacterium where from it is isolated. 2nd & 3rd Letter of the enzyme= First two letters of the species of the bacterium where from it is isolated. 4th Letter= Serotype or strain of the bacterium where from it is isolated. Number= Numbering of the enzyme isolated from the same bacterium according to its order of discovery. e.g. EcoR1= Isolated from Escherichia coli, Strain: RY13 1st Isolated Enzyme from that bacterium.
- 8. Somnath Mondal Sticky End & Blunt End Cutters 5' C C C G G G G G G C C C 5' 5'3‘ 3' C C C G G G G G G C C C 5' 5'3‘ 3' 5' 3‘ 3‘ 5' 3'C C C G G G G G G C C C 5' 3‘ C T T A A G G A A T T C5' 5' 3' 3' C T T A A G C T T A A G A A T T C5' 3' 5' 3' 5' G A A T T C 5' 3' 3' 3' EcoRI SmaI 5' 3' Sticky Ends Blunt Ends
- 9. Somnath Mondal • Plasmid DNA is a small circular extrachromosomal DNA found in bacteria. • They are approximately 1 to 4 kb in size. • They can replicate independent of bacterial chromosome. • They can be used as Vectors to carry gene of interest and also to multiply their copy. Plasmid Vectors
- 10. Somnath Mondal Important Features of DNA Cloning Vectors – Origin of replication (ori) – site for DNA replication that allow plasmids to replicate independently from host chromosome. – Multiple cloning site (MCS) – recognition sites for several restriction enzymes in which gene of interest can be inserted. – Selectable marker genes – allow to select for transformed colonies. – RNA polymerase promoter sequences – used for transcription in vitro and in vivo. – DNA sequencing primers.
- 11. Somnath Mondal EcoRI HindIII PstI BamHI NcoI SpeI KpnI SalI BstXI SacII SspI BlpI Ori R P P BSM Bacterial Selection Marker P S M PlantSelectionMarker ....GAATTC…. …CTTAAG…. A vector map:
- 12. Somnath Mondal Ori Importance of Ori site:
- 13. Somnath Mondal GAATTC GGATCC CTTAAG CCTAGG OR OR EcoRI EcoRI BamHI BamHI EcoRI BamHI Ligation Plasmid Vector Plasmid Vector Gene of interest Transfer of GI into vector:
- 14. Somnath Mondal Bacterial Transformation & possibilities:
- 15. Somnath Mondal lacZ Bacteria with no plasmid Bacteria with only plasmid Bacteria with plasmid with gene of interest PETRI-PLATES WITH LURIA BERTANI AGAR (LBA) MEDIUM WITH KANAMYCIN ANTIBIOTIC AND X-gal They can’t grow on a plate containing kanamycin antibiotic. They can grow on a plate containing kanamycin antibiotic and the colour of colony will be blue. They can grow on a plate containing kanamycin antibiotic and the colour of colony will be white. Selection:
- 16. • Presence of active lacZ gene will produce β-galactosidase enzyme. • This enzyme cleaves the X-gal into 5-bromo-4-chloro-indoxyl. • Dimerization & oxidation of this compound form a blue coloured compound, 5,5‘-dibromo-4,4‘- dichloro-indigo. lacZ Reason behind blue-white screening: Somnath Mondal
- 17. Somnath Mondal So, whats your choice? Blue or white?