Inoculating Liquid Bacterial Culture
Summary
TLDRThis video demonstrates the best practices for inoculating bacteria into liquid medium for plasmid DNA isolation. It emphasizes the importance of starting from a single colony to ensure a monoclonal cell population, avoiding genetic mutations. The tutorial covers the necessary materials, preparation of LB media with antibiotics, and proper inoculation techniques. It also addresses potential issues like no bacterial growth and offers solutions, concluding with the next steps for DNA isolation and glycerol stock creation.
Takeaways
- đ Inoculation involves introducing bacteria into a liquid medium, which is crucial for plasmid DNA isolation.
- đ§Ș It's important to start a small liquid culture from a single colony to ensure a monoclonal population of cells, avoiding potential mutants.
- đ Materials needed for inoculation include a spray bottle with 70% isopropanol or ethanol, LB media, LB agar plates, sterile tubes, antibiotics, and a shaking incubator.
- đĄïž The incubation temperature must be appropriate for the specific plasmid, which can be found in the growth in bacteria section of the plasmid page.
- đ Antibiotics should be added to the LB media before inoculation, with the correct concentration specified for both plates and media.
- đŹ A negative control tube is used to check for contamination, labeled separately from the tubes with the plasmid.
- đ Labeling tubes with the plasmid name and initials, along with the date, helps in tracking the samples during the inoculation process.
- đŹ Transferring 2 milliliters of LB Carbenicillin media into each culture tube is a standard procedure for inoculation.
- đ± Using a sterile toothpick to select a single colony from an LB agar plate and transferring it into the culture tube ensures the inoculation of the desired bacteria.
- đ Incubation on a gentle shaker is essential for proper aeration and nutrient availability, preventing bacterial clumping.
- đŹ Checking for bacterial growth after incubation is critical; the negative control should show no growth, while the inoculated tubes should show growth if inoculated correctly.
Q & A
What is the main purpose of inoculation in the context of the video?
-The main purpose of inoculation in the video is to introduce bacteria into a liquid medium to ensure a monoclonal population of cells for plasmid DNA isolation.
Why is it not advisable to use a chunk of glycerol stock directly for large volume growth?
-Using a chunk of glycerol stock directly can introduce genetic variability due to potential hidden mutants within the population, which is why starting from a single colony is preferred to ensure a monoclonal culture.
What materials are essential for performing inoculation as described in the video?
-Essential materials include a spray bottle with 70% isopropanol or ethanol, pre-made liquid LB media, LB agar plates with single colonies, sterile conical tubes, culture tubes, appropriate antibiotics, a Bunsen burner or alcohol burner, autoclaved toothpicks or sterile pipette tips, a shaking incubator, and a 10 mL serological pipette.
Why is it important to decontaminate the bench before starting the inoculation process?
-Decontaminating the bench with 70% isopropanol or ethanol helps to minimize the risk of contamination, ensuring a sterile environment for the inoculation process.
What is the role of Luria broth (LB) in bacterial culture?
-Luria broth (LB) is a widely used medium for bacterial culture, providing the necessary nutrients for bacterial growth.
Why is it necessary to add antibiotics to the LB media before inoculation?
-Adding antibiotics to the LB media ensures that only bacteria with the appropriate resistance can grow, which is crucial for selecting bacteria containing the plasmid of interest.
What is the difference between ampicillin and carbenicillin mentioned in the video?
-Carbenicillin is used instead of ampicillin in the video because it is more stable and effective at isolating bacteria containing the plasmid of interest.
Why should multiple single colonies be selected for inoculation?
-Selecting more than one single colony helps to track different samples and ensures a higher chance of obtaining a monoclonal population, as not all colonies may be genetically identical.
What is the purpose of a negative control in the inoculation process?
-A negative control, which is a culture tube with a sterile toothpick, is used to check for contamination and ensure that any growth observed is due to the inoculated bacteria and not from external sources.
What should be done if no bacterial growth is observed after incubation?
-If no growth is observed, one should allow more time for slower-growing cultures, double-check the antibiotic used matches the plasmid's resistance, and ensure the single colony used was freshly streaked for optimal growth.
How can the density of the bacterial culture be increased if necessary?
-Increasing aeration, such as by using a shaking incubator, can help to increase the density of the bacterial culture.
What is the final step after obtaining adequate bacterial culture growth?
-The final step is to spin down the liquid cultures and isolate the plasmid DNA following a DNA isolation protocol, with the option to create a glycerol stock for long-term storage.
Outlines
đŹ Inoculation Technique and Material Preparation
This paragraph introduces the inoculation process, which involves introducing bacteria into a liquid medium for plasmid DNA isolation. It emphasizes the importance of starting with a monoclonal population to avoid genetic mutations. The necessary materials for inoculation are listed, including isopropanol spray, LB media, antibiotic, conical tubes, and a shaking incubator. The paragraph also details the steps to prepare the growth medium and add antibiotics, and it suggests using multiple colonies to ensure successful inoculation. It concludes with the setup for inoculating the bacteria into the prepared media.
đ Monitoring Growth and Troubleshooting Inoculation Issues
The second paragraph discusses the steps to follow after inoculation, including checking for bacterial growth and identifying the type of plasmid based on its copy number. It provides troubleshooting tips for scenarios where no growth is observed, such as allowing more growth time, verifying antibiotic compatibility, using fresh colonies, and improving aeration. The paragraph concludes with instructions on how to proceed once adequate growth is achieved, such as spinning down the cultures for DNA isolation and creating a glycerol stock for long-term storage. It also invites viewers to explore additional protocols on the Addgene website and to provide feedback for future video content.
Mindmap
Keywords
đĄInoculation
đĄPlasmid DNA
đĄGlycerol Stock
đĄLB Media
đĄAntibiotic Resistance
đĄMonoclonal Population
đĄSerological Pipette
đĄIncubation
đĄShaker
đĄGlycerol Stock Creation
đĄAddgene
Highlights
Inoculation is a process to introduce bacteria into a liquid medium for plasmid DNA isolation.
Using a glycerol stock for inoculation can lead to genetic variability due to potential mutants in the stock.
Starting a culture from a single colony ensures a monoclonal population of cells.
Materials needed for inoculation include isopropanol, LB media, antibiotic, and sterile equipment.
Decontaminate the workspace with 70% isopropanol or ethanol before starting.
Luria broth (LB) is the most common medium for bacterial culture.
Antibiotic resistance should match the plasmid for successful growth.
Carbenicillin is used instead of ampicillin for its stability and effectiveness.
Correct antibiotic concentration is crucial and can be found on Addgene's website.
Transferring media to a conical tube is the first step in preparing for inoculation.
Labeling culture tubes with plasmid names and initials helps in tracking samples.
Using a sterile toothpick to transfer a single colony to the culture tube is a key step.
A negative control tube without a plasmid helps in verifying successful inoculation.
Incubation temperature and conditions should be appropriate for the specific plasmid.
Shaking incubation ensures aeration and prevents bacterial clumping.
Checking for growth in the negative control tube is essential to confirm no contamination.
Troubleshooting tips are provided for cases of no bacterial growth.
Once adequate growth is achieved, plasmid DNA can be isolated following a specific protocol.
Creating a glycerol stock is recommended for long-term storage of bacterial cultures.
Addgene provides protocols and resources for plasmid DNA purification and glycerol stock creation.
Transcripts
Inoculation is the process by which you introduce bacteria into liquid medium. Â
In this video we will demonstrate best practices to perform inoculation ensuring sufficient numbers Â
of bacteria for plasmid DNA isolation. So you may be thinking, "why can't I just grab a chunk of my Â
glycerol stock in the freezer and throw it in a large volume of media for growth?" As we explained Â
in a previous video on how to streak bacteria on plates, while the majority of bacterial cells Â
and a glycerol stock or stab should be genetically identical, there may be an occasional mutant hidden Â
within the population. By starting a small liquid culture from a single colony, you can ensure that Â
the liquid culture contains a monoclonal population of cells. Before we begin we'll Â
need to gather the necessary materials. You will need a spray bottle containing 70% isopropanol Â
or 70% ethanol, pre-made liquid LB media, LB agar plates containing single colonies of your plasmid Â
of interest, sterile 15 milliliter conical tubes, sterile culture tubes, appropriate antibiotic for Â
your plasmid growth, bunson or alcohol burner, autoclave toothpicks or sterile pipette tips,
shaking incubator set at a temperature appropriate for your plasmid, a 10 milliliter serological Â
pipette, and a pipette aid.
For any work performed at the bench we recommend decontaminating your Â
bench by wiping down with 70% isopropanol or ethanol. Now you can set up the materials Â
needed for inoculation. First you will need to prepare your liquid growth medium. We usually use Â
Luria broth, or LB, as it is the most widely used medium for bacterial culture. If your media does Â
not contain antibiotics yet, you will need to add the appropriate antibiotic before proceeding. For Â
any plasmid requested from Addgene, the antibiotic resistance will be listed on the plasma page under Â
the growth in bacteria section.
Our plasmid contains ampicillin resistance.
At Addgene, our lab used carbenicillin instead of ampicillin.
Carbenicillin is more stable than ampicillin, so it's
more effective at isolating bacteria containing the plasmid of interest.
Always make sure to look up the correct antibiotic concentration needed for plates and Â
media. You can find a handy table to access this information at addgene.org Â
Since we will need 10 milliliters of media for our inoculations, we will first transfer 10 milliliters of LBÂ Â
media to a 15 milliliter conical tube. Now we are ready to add the antibiotics
Add the appropriate amount of antibiotics to the media making sure that the pipette tip does not touch the neck of Â
the bottle. Reflame the tube, cap with lid, and invert to mix in the antibiotic. Next, arrange 3 Â
culture tubes in a rack. Label the first tube as a negative control, and label the other two tubes Â
with the name of the plasmid. It's always a good idea to select more than one single colony for Â
inoculations. To track these samples we will label the tubes plasmid A and plasmid B,
indicating same plasmid, but different colonies. It is also a good idea to add your initials and the date to the tubes.
Transfer 2 milliliters of the LB Carbenicillin media into each culture Â
tube using a serological pipette. Using a sterile toothpick select the single colony from your LB
agar plate, remove the culture tube cap and drop the toothpick into the culture tube labeled with Â
your plasmid name and replace the cap. Make sure the toothpick does not touch the outside of the Â
tube for the negative control tube you will want to simply drop in a sterile toothpick
If you are using an Addgene plasmid, the growth Â
temperature will be listed under the growth in bacteria section of the plasmid page.Â
Bacterial liquid culture should be incubated on a gentle shaker in order to ensure proper aeration and Â
nutrient availability. Incubation using a shaker also avoids bacteria clumping at the bottom of the tubes
To determine if your Addgene plasmid is high or low copy, see the copy number information under the Â
growth in bacteria section of the plasmid page. After incubation, check all tubes for growth. Your Â
negative control tube should appear clear with no bacterial growth. So, what happens if, after growing Â
your culture overnight, you do not observe any bacterial growth? First, allow the culture more Â
time to grow, as some bacterial cultures have slower growth rates.
Double-check that the antibiotic in your LB media matches the antibiotic resistance for your plasmid. Using the Â
wrong antibiotic will yield no bacterial growth. If the single colony used for inoculation was Â
not freshly streaked, you should restreak your bacteria onto a new LB agar plate before growing Â
in liquid culture. Fresh colonies usually yield greater bacterial growth. More aeration may help Â
to increase the density of the culture.
Once you obtain adequate culture, growth
you can spin down your liquid cultures and isolate your plasmid DNA by following a Â
DNA isolation protocol. For long term storage, you can proceed with creating a glycerol stock.
Thank you for watching our inoculation protocol video. Check out our other protocol Â
pages, including purifying your plasmid DNA, and creating a glycerol stock at
addgene.org/protocols leave a comment below to let us know what videos you'd like to Â
see in the future, or to tell us how we can improve
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