Bacterial Transformation Flashcards
Why do we add DNA into cells?
to replicate/amplify DNA
to express protein
modify the genome
What kind of cells can DNA be added to?
In transformation, bacteria and yeast.
In transfection, eukaryotic cells.
Electroporation can use any cell types.
How is bacteria made competent?
They are made chemically competent with CaCl2
What are eukaryotic cells cultured with?
lipid/DNA or CaPO4/DNA
What does yeast use in transformation?
LiAc/PEG
What is transformation?
the process by which genetic material is taken up and integrated into the genome of a cell, resulting in a heritable change in the genetic makeup of the organism. Electroporation, heat shock, or chemical treatment make cells more receptive to foreign DNA.
What is transfection?
used to introduce foreign DNA or RNA into cells, typically for the purpose of studying gene function or manipulating gene expression. The term “transfection” is a combination of “transformation” (the process by which foreign DNA is integrated into the genome) and “infection” (the process by which viruses introduce their genetic material into host cells).
What is electroporation?
Electroporation involves the use of an electrical pulse to create transient pores in the cell membrane, allowing DNA or RNA to enter the cell. Lipofection uses liposomes, which are lipid-based vesicles that can fuse with the cell membrane to deliver DNA or RNA into the cell. Viral transduction involves the use of a virus (such as a retrovirus or lentivirus) to deliver foreign DNA or RNA into the cell.
Why is cloning done?
-Replicating genetic material, amplify PCR fragments
-Producing transgenic animals
-Studying stem cells
-Cloning can be used to preserve endangered species by creating genetically identical copies.
How do you clone PCR fragments into a vector?
- The PCR fragment needs to be ligated into a plasmid vector
- PCR should leave blunt ends
- The plasmid vector should be cut to leave blunt ends
- Combine insert (PCR product), cut vector and DNA ligase
- Transform this reaction mixture into competent bacteria
- Plate on selective media, incorporating blue/white selection
What happens after transformation?
to isolate the DNA from the transformed cells, using techniques such as plasmid extraction or genomic DNA isolation. This DNA can then be purified and analyzed to confirm that the desired genetic material has been successfully integrated into the host cell genome.
What are the steps for the whole procedure of cloning?
1- ligation of the purified PCR fragment into a plasmid
2- transformation into competent bacteria
3- plating of bacteria in selective media and growing over-night
4- picking a colony and growing over-night in a liquid culture
5- performing miniprep protocol to extract and purify the plasmid+insert from the bacteria
6- setting up a digestion with EcoRI of the purified plasmids, to determine presence/absence of insert
How do we check that the DNA we cloned is the one we want?
- Restriction enzymes can be used to cut the DNA at specific sites, creating a pattern of fragments that can be visualized using gel electrophoresis. By comparing the pattern of fragments from the cloned DNA with the expected pattern based on the known DNA sequence, it is possible to confirm that the correct DNA fragment has been cloned.
- DNA sequencing: DNA sequencing can be used to determine the exact sequence of the cloned DNA, allowing researchers to confirm that it matches the intended sequence. This method is highly accurate and can detect any mutations or errors that may have occurred during the cloning process.
- Polymerase Chain Reaction (PCR): PCR can be used to amplify a specific DNA sequence from the cloned DNA, which can then be visualized using gel electrophoresis. By comparing the size of the amplified DNA fragment with the expected size based on the known DNA sequence, it is possible to confirm that the correct DNA fragment has been cloned.
- Southern blotting: Southern blotting is a technique that can be used to detect specific DNA sequences in a sample. By hybridizing a labeled probe to the cloned DNA and visualizing the signal, it is possible to confirm that the correct DNA fragment has been cloned.
What is restriction enzyme digestion?
Technique used to cut DNA at specific sites using enzymes known as restriction enzymes or restriction endonucleases. These enzymes recognize and cut DNA at specific sequences called restriction sites, which are usually palindromic sequences of 4 to 8 base pairs in length. When the DNA is cut by restriction enzymes, it produces fragments of different sizes that can be separated using gel electrophoresis, a technique that separates DNA fragments based on their size. By comparing the pattern of fragments produced by restriction enzyme digestion with the expected pattern based on the known DNA sequence, it is possible to confirm that the correct DNA fragment has been cloned or to detect mutations or variations in the DNA sequence.
What are the steps involved in a plasmid mini prep protocol?
- Pellet bacterial culture by centrifugation for 30 seconds. Discard supernatant.
- Resuspend pellet in Plasmid Resuspension Buffer
- Add Plasmid Lysis Buffer
- Add Plasmid Neutralization Buffer, gently invert tube until neutralized, and incubate
- Centrifuge lysate
- Carefully transfer supernatant to the spin column and centrifuge
- Re-insert column in the collection tube and add Plasmid Wash Buffer
- Add Plasmid Wash Buffer and centrifuge for 1 minute.
- Transfer column to a clean 1.5 ml microfuge tube
- Add DNA elution buffer to centre of matrix then spin to elute DNA
