How to Transform E. coli by Heat Shock

Synthetic Biology One

8 Sept 201711:02

Summary

TLDRThis video script outlines the heat shock transformation process for E. coli bacteria. It begins with thawing competent cells and taking an aliquot, followed by adding a small amount of plasmid DNA. The mixture is then heat shocked at 42°C for 30 seconds and allowed to recover on ice. Cells are then cultured in LB media at 37°C for recovery, before being plated on antibiotic-containing agar to select for successful transformations. The process results in colonies of transformed bacteria, showcasing the effectiveness of the heat shock method.

Takeaways

🌡️ The video demonstrates the heat shock transformation method for E. coli, which involves preparing cells for the uptake of plasmid DNA.
⏰ Cells are first thawed and kept on ice to maintain a cold environment, which is crucial for the transformation process.
📊 Only a small volume of cells, 20 microliters out of 200, is needed for the transformation.
💉 A tiny amount of plasmid DNA, half a microliter, is added to the cells for transformation, indicating a high concentration is used.
🧊 The mixture of cells and plasmid is kept cold to ensure the plasmid sticks to the cells, potentially improving transformation efficiency.
🕒 A waiting period of 5 to 10 minutes is suggested before the heat shock to allow the plasmid to bind to the cells.
🔥 The heat shock step involves raising the temperature to 42 degrees Celsius for exactly 30 seconds to facilitate DNA uptake.
❄️ After the heat shock, cells are immediately placed back on ice for 2 minutes to recover.
🥫 Recovery of the cells is done in plain LB media, which is found to be effective for most applications, instead of enriched media like SOC.
🚦 A recovery period of 15 minutes to an hour at 37 degrees Celsius allows cells to grow and express the antibiotic resistance marker on the plasmid.
🌿 Cells are shaken during the recovery step to create optimal conditions for cell growth, using a 'sandwich method' to ensure thorough mixing.
📝 Two plates are prepared for plating the cells, one with 200 microliters and one with 20 microliters, to increase the chances of obtaining the right number of colonies.
🧪 Glass beads are used to spread the media evenly on the plates, preventing the absorption of bacteria and ensuring an even distribution.
📆 The plates are incubated overnight to allow for bacterial colony formation, which can then be observed after approximately 16 hours of growth.

Q & A

What is the purpose of heat shock transformation in the script?
-Heat shock transformation is a method used to introduce plasmid DNA into E. coli bacteria. The process involves a brief exposure to high temperatures to make the bacteria more receptive to take up the DNA.
How long do the E. coli cells need to thaw before use?
-The cells need to thaw for about 10 minutes before they are ready to use for transformation.
Why is it important to keep everything cold during the transformation process?
-Keeping everything cold helps to prevent the cells from growing and also protects the DNA from degradation by enzymes.
How much of the plasmid is added to the competent cells in the script?
-Only half a microliter of the plasmid is added to the competent cells for successful transformation.
What is the significance of flicking the tube after adding the plasmid?
-Flicking the tube helps to gently mix the cells with the plasmid without introducing too much shear force that could damage the cells.
Why is it recommended to let the cells sit for 5-10 minutes after mixing with the plasmid?
-Allowing the cells to sit for 5-10 minutes gives the plasmid time to bind to the cells, which can improve transformation efficiency.
What is the temperature and duration for the heat shock step?
-The heat shock step involves raising the temperature to 42 degrees Celsius for exactly thirty seconds.
Why do the cells need to be placed on ice after the heat shock?
-Placing the cells on ice after the heat shock allows them to recover from the stress of the high temperature.
What type of media is used to recover the cells after the heat shock?
-Plain LB (Luria-Bertani) media is used to recover the cells after the heat shock.
How long do the cells need to recover at 37 degrees Celsius?
-The cells need to recover at 37 degrees Celsius for 15 minutes to an hour, depending on the plasmid and antibiotic resistance used.
Why are two plates prepared with different volumes of cells?
-Preparing two plates with different volumes of cells increases the chances of getting a plate with the optimal number of colonies for counting and further analysis.
What is the purpose of using glass beads when plating the cells?
-Glass beads are used to spread the media evenly around the plates without absorbing too many bacteria, resulting in a nice even distribution of bacteria on the plate surface.