The twisting tale of DNA - Judith Hauck

499,061 views ・ 2012-10-03

TED-Ed


Please double-click on the English subtitles below to play the video.

00:00
Transcriber: tom carter Reviewer: Bedirhan Cinar
0
0
7000
00:14
Geckos and grasshoppers, worms and watermelons,
1
14239
2850
00:17
elephants and Escherichia Coli,
2
17089
2667
00:19
man and mushroom. All so different in form and function,
3
19756
4982
00:24
but amazingly the same in how their form and function are determined.
4
24738
3866
00:28
First, all these organisms are made of one or more cells,
5
28604
4052
00:32
and every cell of every living thing on earth
6
32656
3427
00:36
contains all the information it takes
7
36114
2025
00:38
to create and duplicate and make variations of itself.
8
38139
4334
00:42
That information is stored in a very long but quite simple
9
42473
3151
00:45
double molecule called DNA,
10
45624
2532
00:48
or Deoxyribonucleic Acid.
11
48156
2802
00:50
And the DNA of every living organism is made of chains of four smaller molecules
12
50958
5348
00:56
called nucleotides. What dictates the difference between a man and a mushroom
13
56306
5083
01:01
is the sequence of these nucleotides in the long DNA chain.
14
61389
5034
01:06
The four differing nucleotide parts, called bases,
15
66423
3250
01:09
are made of a few carbon, oxygen, hydrogen, nitrogen and phosphorus atoms,
16
69673
4600
01:14
and the molecules look like this.
17
74273
2852
01:17
And each of these four bases is attached to an identical backbone molecule,
18
77125
4681
01:21
a sugar called deoxyribose - the "D" in DNA - and a phosphate group.
19
81806
5684
01:27
Let's simplify these nucleotides and show them like this.
20
87490
4016
01:31
So, a single sequence of nucleotides joined by their common sugars would look like this.
21
91506
5619
01:37
And the DNA molecule where such sequences are stored looks like this.
22
97125
6198
01:43
But how does a simple molecule dictate the form and function of millions of different living things?
23
103323
6200
01:49
You can think of DNA as a great library of information,
24
109523
4166
01:53
information that is used to do one thing and one thing only:
25
113689
4250
01:57
direct the building of different protein molecules.
26
117939
3185
02:01
And it's the proteins that build the cells and keep them functioning
27
121124
3334
02:04
and changing and reproducing. Here's where the familiar word 'gene' comes in.
28
124458
5598
02:10
If your DNA is a library of information, a gene is a book in that library.
29
130056
5000
02:15
A gene is a segment of the DNA molecule.
30
135056
3401
02:18
Let's say your body needs a particular protein, like insulin.
31
138457
3648
02:22
To get it, some of your cells send a protein signal through the bloodstream
32
142105
3968
02:26
to the cells in your pancreas, where insulin is made.
33
146073
3266
02:29
That signal protein tells other proteins in the cell's nuclei
34
149339
3767
02:33
to open up a part of the DNA double helix, the insulin gene,
35
153106
4234
02:37
and start making insulin proteins.
36
157340
2232
02:39
As soon as enough insulin has been produced,
37
159572
2101
02:41
another signal protein comes to the pancreas' cells that tells them to stop making insulin.
38
161673
5266
02:46
It's like looking up a book in the DNA library about insulin,
39
166939
3383
02:50
and then putting it back when you're done.
40
170322
2135
02:52
There are genes in DNA for visible and invisible things that make up your body,
41
172457
4350
02:56
like genes for eye color, protein pigments, for skin color,
42
176807
3499
03:00
for hair color, for stopping and starting bone growth,
43
180306
3217
03:03
for your blood type, for how many fingers or arms and legs you have,
44
183523
3566
03:07
for proteins that influence how long you live.
45
187089
3934
03:11
Your DNA probably contains between 25 thousand and 40 thousand genes,
46
191023
5165
03:16
while the DNA of a worm or a plant or a fruit fly
47
196188
2918
03:19
contains about 12 thousand to 20 thousand genes.
48
199106
3717
03:22
Some of those genes have quite different sequences of nucleotides than yours,
49
202823
4166
03:26
and some are similar to yours.
50
206989
2284
03:29
Though it happens infrequently,
51
209273
1867
03:31
our own nucleotide sequences can change
52
211140
2533
03:33
as the result of spontaneous or environmental damage
53
213673
3316
03:36
which might remove or shift a nucleotide position.
54
216989
3566
03:40
This changes the gene involved, and can then change the protein.
55
220555
4551
03:45
Most of these changes, called mutations,
56
225106
2300
03:47
have very little effect on the organism or its descendants.
57
227406
3950
03:51
some are mildly damaging,
58
231356
1483
03:52
and a few can make the organism better-suited to its environment.
59
232839
3900
03:56
It is these tiny changes in DNA gene sequences, happening over millions of years,
60
236739
5450
04:02
that create the differences among living organisms, from geckos to grasshoppers.
61
242189
4717
04:06
worms to watermelons, elephants to Escherichia Coli, and man to mushroom.
62
246906
6150
About this website

This site will introduce you to YouTube videos that are useful for learning English. You will see English lessons taught by top-notch teachers from around the world. Double-click on the English subtitles displayed on each video page to play the video from there. The subtitles scroll in sync with the video playback. If you have any comments or requests, please contact us using this contact form.

https://forms.gle/WvT1wiN1qDtmnspy7