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In this video from our course on molecular genetics, learn all about biotech in the real world.
In this video from our course on molecular genetics, learn all about animal cloning.
Molecular Genetics: Biotech in the Real World 317 Views
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In this video from our course on molecular genetics, learn all about biotech in the real world.
Transcript
- 00:00
[ whoosh ]
- 00:01
We speak student!
- 00:03
[ whoosh ]
- 00:07
Molecular Genetics
- 00:08
Applying Biotech in the Real World
Full Transcript
- 00:11
A la Shmoop
- 00:14
[ clears throat ] All right, we're with Dr. Ruth Tennen
- 00:17
talking about biology and we're now gonna cover
- 00:20
applying biotech to the real world.
- 00:22
It's kind of what we've been talking about.
- 00:23
We're gonna take this to the next level.
- 00:25
So, Ruth, how are advances in molecular genetics
- 00:28
applied to medicine?
- 00:29
Walk us through, you know, molecular cloning
- 00:31
and gene therapy and some of the state of the art tools
- 00:34
that we apply these days.
- 00:36
Yeah, absolutely. So, one thing that we kind of got into
- 00:38
a little bit with the idea of making medicines
- 00:39
in bacteria - that's something that requires
- 00:41
recombinant DNA technology.
- 00:43
- Mm-hmm. - So making insulin for diabetes.
- 00:46
There's also -- Artemesinin is a drug that's important
- 00:49
for getting rid of malaria.
- 00:50
So that's something that's now being made in yeast.
- 00:53
So how does that work?
- 00:54
Is it like a blood thing?
- 00:57
Would it be injected into people so they're resistant
- 00:59
to a malaria...?
- 01:01
So, that's a good question.
- 01:01
I think, right now, it's used as a drug after you have it,
- 01:04
have gotten the disease.
- 01:06
But the idea is basically you take the components
- 01:08
that normally would make artemisinin in plants.
- 01:10
That's where it's normally derived from.
- 01:11
And you'd put all those genetic components into yeast cells
- 01:13
and then they would churn out the drug for you.
- 01:15
And then you could just purify the drug
- 01:16
- and give it to people who had malaria. - Hmm.
- 01:18
Wow, that's awesome.
- 01:20
What are some of the other things?
- 01:22
- Gene therapy, diagnosing diseases, vaccines. - Yep.
- 01:24
Can you walk us through a couple of examples
- 01:26
that, you know, are striking your head.
- 01:28
That sort of illustrate how these really, you know, work
- 01:31
- when they work well. - Sure, absolutely.
- 01:32
So, in the gene therapy arena...
- 01:34
So, one thing that people are working on.
- 01:36
People who have hemophilia often have problems.
- 01:38
They have mutations in their clotting factor.
- 01:40
Explain what hemophilia is.
- 01:41
Hemophilia is a blood disorder where your blood can't clot.
- 01:44
So you're at risk of bleeding and bruising and things like that.
- 01:46
- So, one little cut and you can bleed to death - Exactly.
- 01:49
- because you don't -- Okay. - Yep.
- 01:50
So, let's say normally, you have 100% of a clotting factor.
- 01:52
You really only need about 10% and you can function just fine.
- 01:55
And so the idea that you could deliver
- 01:57
using gene therapy. So you put the clotting factor gene
- 02:00
into a plasmid, or into a virus.
- 02:02
And you deliver that to people
- 02:04
and then they'd be able to produce the clotting factor
- 02:05
that they were missing and not have hemophilia anymore.
- 02:09
In terms of disease diagnosis...
- 02:11
So, genetic diseases -- So we know, for example,
- 02:14
that people who have mutations
- 02:15
in the BRCA1 and BRCA2 genes
- 02:16
are at increased risk of breast cancer.
- 02:19
So if you were able to sequence someone's DNA
- 02:21
using these new technologies and say,
- 02:22
"You have that mutation. There's certain preventive
- 02:24
things that you can do to prevent yourself
- 02:27
from getting breast cancer."
- 02:29
Let's say you had a bacterial infection
- 02:31
and you wanted to know which antibiotic to take,
- 02:32
you could sequence the DNA of those bacteria
- 02:34
and you could say, "Oh, this is the right antibiotic for me."
- 02:36
Rather than getting a broad spectrum one.
- 02:39
Wow, cool. And we've talked a bit about
- 02:41
genetically modified plants and agriculture
- 02:44
resistant to pesticides and so on.
- 02:47
How should we think about biotechnology
- 02:50
as applied to agriculture?
- 02:52
I think the major concerns about, sort of, GM crops
- 02:55
are these ecosystem damage things.
- 02:56
So you could imagine that, yeah,
- 02:58
you make a plant that's resistant to pesticides.
- 03:00
But then you keep applying more and more pesticides.
- 03:01
You get these super-weeds that can then spread.
- 03:04
So I think people are trying to be as careful as possible
- 03:06
and kind of cordon off the areas
- 03:08
of the GM crops compared to the regular crops.
- 03:10
But it's definitely something to monitor
- 03:12
and you probably wouldn't see the effects until
- 03:13
- later on. - For a while. Yeah. Okay. Fair enough.
- 03:17
Okay, that was applying biotech in the real world
- 03:19
with Dr. Ruth.
- 03:21
[ whoop ]
- 03:22
How are advances in molecular genetics applied to medicine?
- 03:27
What are other examples of advances in biotech?
- 03:30
Like gene therapy, diagnosing diseases, vaccines.
- 03:33
All that fun stuff.
- 03:35
How should we think about biotechnology
- 03:37
as applied to agriculture?
- 03:42
[ high-pitched group yelling ]
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