Strawberry DNA Extraction
Summary
TLDRThis video script details a fun and educational experiment on extracting DNA from strawberries using household items. The process involves smashing strawberries in a bag, mixing them with a detergent solution, filtering, and then precipitating DNA using rubbing alcohol. The script highlights the simplicity of conducting scientific experiments at home and the abundance of DNA in strawberries, making the extraction process relatively easy.
Takeaways
- 🍓 Strawberries have a high amount of DNA per cell, with eight copies per cell, making DNA extraction relatively easy.
- 🔬 A simple DNA extraction process can be carried out using household items such as strawberries, dish detergent, salt, water, and rubbing alcohol.
- 👩🔬 To extract DNA, strawberries are first mashed in a plastic bag to break up the cells and release the DNA.
- 🧪 A mixture of dish detergent, salt, and water is used to create an extraction liquid that helps break open the strawberry cells and release DNA.
- 🍓 The use of a coffee filter or gauze is essential to remove unwanted cellular debris from the strawberry mixture.
- 🧊 Cold rubbing alcohol is added to the extraction liquid to precipitate the DNA, causing it to form a visible, flocculent-like material.
- 🌀 Gentle swirling of the mixture after adding alcohol helps the DNA to precipitate and become more visible.
- 🧼 Detergent acts as a 'pin' to pop the cells open, allowing the DNA to be released into the extraction liquid.
- 🔎 The precipitated DNA appears whitish, viscous, and is humorously compared to snot, but represents the iconic double helix structure at a molecular level.
- 🏡 This demonstration shows that scientific experiments, such as DNA extraction, can be conducted using everyday household items.
Q & A
What is the purpose of using genomics with strawberries as mentioned in the script?
-The purpose is to find a good use for strawberries by extracting DNA from them using a simple method that only requires household items.
How many copies of the genome does each strawberry cell have?
-Each strawberry cell has eight copies of the genome, which is four times more per cell than humans.
Why is it easy to purify DNA from strawberries?
-It's easy to purify DNA from strawberries because they contain a lot of DNA in each cell.
What materials are needed to extract DNA from strawberries according to the script?
-The materials needed include a resealable plastic bag, two strawberries, two teaspoons of dish detergent, one teaspoon of salt, half a cup of water, two plastic cups, one coffee filter, half a cup of rubbing alcohol, one coffee stirrer, and optionally, two scientists.
Why is it important to remove the green stems from the strawberries before starting the DNA extraction process?
-Removing the green stems is important because they are not part of the fruit and can interfere with the DNA extraction process.
What role does dish detergent play in the DNA extraction process?
-Dish detergent helps to break open the strawberry cells, similar to popping a water balloon, allowing the DNA to be released into the solution.
How does the salt contribute to the DNA extraction process?
-Salt is part of the extraction liquid that helps to dissolve and evenly disperse the detergent, creating an environment that allows DNA to be released from the cells.
What is the purpose of using a coffee filter in the DNA extraction process?
-A coffee filter is used to filter out the cellular debris and other unwanted materials, leaving behind the liquid that contains the strawberry DNA.
How does rubbing alcohol help in the DNA precipitation process?
-Rubbing alcohol is used to precipitate the DNA, causing it to come out of the liquid state and form a solid, flocculent-like material that can be seen and extracted.
What does the purified strawberry DNA look like according to the script?
-The purified strawberry DNA looks like a whitish, viscous substance that resembles snot.
What is the significance of being able to extract DNA using only household items as described in the script?
-The significance is that it demonstrates that scientific experiments, such as DNA extraction, can be conducted at home with simple, everyday materials, making science accessible and engaging for a wider audience.
Outlines
🍓 Strawberry DNA Extraction Introduction
The script begins with a discussion about using genomics to find a use for strawberries. The conversation quickly turns to the idea of extracting DNA from strawberries using household items. The process is introduced as being simple and convenient, with a focus on strawberries being an excellent source of DNA due to the high number of genome copies per cell. The hosts discuss the necessary materials, including a resealable plastic bag, strawberries, dish detergent, salt, water, plastic cups, a coffee filter, rubbing alcohol, and a coffee stirrer. They emphasize the importance of removing the green stems from the strawberries and note that fresh or frozen strawberries can be used.
🔬 The DNA Extraction Process
This section details the process of extracting DNA from strawberries. The hosts explain the need to break up the strawberries in a plastic bag to release the DNA from the cells. They then create an extraction liquid by mixing detergent, salt, and water, which will help break open the strawberry cells and release the DNA. The hosts pour this extraction liquid into the bag with the smashed strawberries, seal it, and gently mix it to avoid creating bubbles. The mixture is then filtered through a coffee filter to remove cellular debris, leaving behind a liquid containing the strawberry DNA. The hosts discuss the next step, which is to precipitate the DNA out of the solution using cold rubbing alcohol. They swirl the alcohol with the extraction liquid, causing the DNA to form a flocculent material that can be seen and fished out with a coffee stirrer.
🎉 Conclusion and Reflection on the DNA Extraction
The final paragraph wraps up the DNA extraction experiment. The hosts express their excitement about the process and the outcome, marveling at the appearance of the extracted DNA, which resembles snot. They emphasize the simplicity of the experiment, noting that it can be done with materials found in a kitchen. The hosts conclude by celebrating the successful isolation of strawberry DNA and the fun of doing science at home, leaving the audience with a positive impression of the accessibility and enjoyment of scientific experiments.
Mindmap
Keywords
💡Genomics
💡DNA
💡Extraction
💡Household items
💡Strawberries
💡Detergent
💡Cellular debris
💡Precipitation
💡Rubbing alcohol
💡Coffee filter
💡Double helix
Highlights
Using genomics to find a use for strawberries.
Household items are sufficient for the experiment.
Strawberries are easy to extract DNA from due to their high DNA content.
Each strawberry cell has eight copies of the genome.
The process of extracting DNA from strawberries is simplified due to the high DNA content.
List of materials needed for the DNA extraction experiment.
The importance of removing the green stems from strawberries.
Using fresh or frozen strawberries is acceptable.
Dish detergent is used to break open the strawberry cells.
The extraction liquid is prepared with detergent, salt, and water.
Smashing strawberries in a plastic bag releases DNA.
The coffee filter is used to remove cellular debris from the mixture.
Rubbing alcohol is used to precipitate DNA out of the solution.
The DNA appears as a whitish, viscous substance resembling snot.
The DNA extraction can be done entirely with kitchen materials.
The experiment demonstrates the possibility of doing science at home.
The final product is purified strawberry DNA.
Transcripts
[ Music ]
If only
there was a good way to
use genomics to find a good use for all these strawberries.
Are you thinking what I'm thinking?
[inaudible]
Luckily you only need household items to do that. Otherwise, it
would take us forever to set up but let's get going.
[ Background Sounds ]
Okay, well it's super convenient. You had a craving
for strawberries. They're really easily to extract DNA from.
We'll be experts in strawberry and DNA.
Do you know how many copies of the genome that each strawberry
cell has?
No, how many?
Eight.
Eight?
Eight, 4 times more per cell than humans, so purifying DNA
from a strawberry is really easy because it has so much
DNA in it.
Oh, that's a lot.
Yeah.
Awesome.
It's sure awesome, no time to waste, let's use some science.
So let's just make sure we have all the materials we need.
Yeah, you know, it's always good to get organized.
Agreed. So first, 1 resealable plastic bag.
So I tend to use the small ones,
you can use the big ones, but small ones work really well.
You're the experts so I will listen to that.
Okay.
Two strawberries.
Two strawberries.
Very important.
Two. And if I remember right, it's actually very good to take
off the green stems and get rid of those.
Correct.
Okay.
And you can use fresh or frozen. Two teaspoons of dish detergent.
So we have the dish detergent, put that aside.
Okay.
And we have a teaspoon for measuring it.
Perfect. Alright, 1 teaspoon of salt.
So here's a teaspoon for measuring and here is the salt.
Great. Okay, a half cup of water.
So here we have a measuring cup,
[inaudible] half a cup of water. I'll just sit that here.
Perfect. Okay, 2 plastic cups.
Got those.
Got those right here.
Okay.
One coffee filter.
[inaudible] we actually have an extra but yes I have a
coffee filter.
You never know.
Yeah.
Might need 2. Half cup of rubbing alcohol,
we've got that right here.
Yep.
Got to be careful with that. One coffee stirrer.
And I got 2 just in case we need an extra.
Wonderful.
There you go.
And probably most importantly, 1 scientist or in our case, 2
scientists.
Alright.
Yes.
Okay, so you take the strawberries and what you have
to do is to basically break up the strawberries first because
then in the next step we're going to break open the cells
that are in the strawberries to release the DNA. But to sort of
help that process along, you really got to unfortunately be a
little mean to your strawberries, so you put them in
the plastic bag and you seal up the plastic bag and then you're
going to gently just want to start smashing those
strawberries and as best you can. Now there's lots of
techniques that can be used for this. You don't want to get too
violent because if you do, you could spray strawberries all
over your kitchen table or all over yourself. But at the same
time, you have to really work it good as much to get sort of
strawberry puree. We just keep getting this to the point that
all the big pieces are broken up and in doing so, you will then
have it to a point where you can then go to the next step where
you're going to break open then individual cells in strawberries
and let the DNA come floating into solution. Here's the thing,
in this bag are smashed up strawberries with a bunch of
individual cells in them. And maybe one way to think about is
like a water balloon and that's the cell and what we need to do
is to break open that water balloon so that the DNA will
come floating out. Now like a
water balloon like you might use a nail to pop it but for this,
what you do if you're dealing with a cell, is you use a
detergent like detergent you use for--
[inaudible].
[inaudible] so we're going to make a solution that's going to
both have detergent in it but it's also going to have other
things like salt and water that make the DNA happy and
comfortable floating around inside of a cell.
[inaudible].
[inaudible] take this what we call an extraction liquid, okay?
Little concoction sounds [inaudible].
[inaudible] start you at 2 teaspoons of the detergent.
Okay, sounds great. You want some?
No, no I already had breakfast.
Okay, just want to check, looks good though.
Okay, 2 of those, 1 teaspoon of salt.
Yeah, maybe you can use a different teaspoon.
Yes, good thing I have 2.
Yep.
Alright. Perfect.
And then remember we have that half a cup of water--
Yes.
that was poured to the very top.
I'm going to meet you halfway.
Alright, thank you very much and then I'll just pour it in using
my skills as a scientist and there you go. And now just
shake it up a little.
[inaudible] shake.
Yeah, yeah and all you're really wanting to make sure to do is to
make sure the salt gets into solution and that detergent sort
of gets evenly dispersed [inaudible].
Okay.
Okay, so that's our extraction liquid.
Cool.
So now we're basically going to use that detergent like a little
pin to pop the water balloons. Use the detergent to break open
those strawberry cells. [inaudible] open this up.
Let's do it.
You can just pour it in.
Okay.
And there we have it. And so now you seal it. Now here you can't
smash, you don't even want to smash because, of course, if you
really start smashing then you really spew out the liquid and
that would [inaudible] and
actually the other thing is you don't want to be too tough with
this because otherwise you'll get a lot of bubbles. But you
just want to sort of work this around just like you're making a
smoothie by hand. And so but here's the thing is that while
all the DNA is now collecting in the liquid, if you look in
there, you have a lot of other stuff that's in the way. Now
scientifically, we might refer to that as cellular debris but
you know it's just you know strawberry schmutz and you got
to get rid of that strawberry schmutz and so that's why we use
a coffee filter. It's now time to get rid of this schmutz and
get the liquid that'll contain the strawberry DNA, so
[inaudible] you can fold that for me.
[inaudible].
I'm going to use this as a filter. Now you can use a coffee
filter, sometimes you could use gauze if you happen to have some
gauze in your house. You just do whatever it takes to filter out
all that schmutzy stuff that was in the strawberries and just let
things slowly leak through, seep through like you're making drip
coffee. So when most of the liquid has filtered through,
what's good is to just remove that filter that contains all
that strawberry schmutz and we can just put it on the side, we
don't need that anymore.
Alright.
So this is basically the extraction liquid, which has the
insides of all the cells of those strawberries including the
DNA. And in order to get the DNA to come out of solution, we do a
scientific step which is called precipitation--
[inaudible].
which is basically a way of getting a compound or molecule
to sort of come out from being in the liquid state to being in
a solid state. To do that, we use this rubbing alcohol--
Alright.
which you often want to have it be a little bit cold and I know
this was in the refrigerator and that's good. You just want to
add a equal amount, so what I always do is I just sort of
estimate where my finger is as sort of the equal amount and you
can just pour the alcohol up until about that amount--
Okay.
and a little more [inaudible] that's good.
Okay.
[inaudible] like that. And then what you want to do is not be
overly harsh with this but you can sort of see there's almost
like a layer, the alcohol's a bit on top--
[inaudible].
the extraction liquid's on the bottom, [inaudible] just sort of
roughly sort of gently swirl it around and what you start to see
forming sort of between those 2 layers is like a flocculent-like
material sort of almost looks like cotton.
Yeah.
And as you swirl more and more and it gets more and more mixed
you'll see more of it forming and that flocculent material is
the DNA.
That's awesome.
But you know it's very whitish and it's sort of very viscous
and what does it really look like in real life?
It kind of looks like snot.
It does look like snot and so-- And when you start to see big
things of snot then you know it's really working well and you
can even see here as we've done this, you can really start to
see some of this precipitated DNA forming.
Wow, look at that.
And we can get more in a bit but what you can do is when you
start to see it, that's where the coffee stirrer comes in and
you can just sort of fish that out. Look at that, look at that.
That's awesome.
That is strawberry DNA, which, again, to our eyes
looks like a bunch of snot.
[inaudible].
But in fact if we could look at it at a molecular level, it
would just consist of that classical double helix, that
sort of the iconic view of DNA
but this is strawberry-- Purified strawberry DNA
[inaudible] you could get and you could if you wanted to keep
swirling but you can see you've got a tremendous amount there--
[inaudible].
which is great. And just imagine, you did all of this
using materials that you have in your kitchen, so you can do
science in your kitchen and do something that is as wonderful
as isolate DNA from a strawberry.
That is really cool.
DNA
extraction.
[ Music ]
Science is delicious.
Especially the DNA.
[ Music ]
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