0:00:07.051,0:00:09.603
The discovery of the structure of DNA

0:00:09.603,0:00:14.170
was one of the most important scientific[br]achievements in the last century,

0:00:14.170,0:00:16.224
in human history, in fact.

0:00:16.224,0:00:20.163
The now-famous double helix is almost[br]synonymous with Watson and Crick,

0:00:20.163,0:00:24.327
two of the scientists who won[br]the Nobel Prize for figuring it out.

0:00:24.327,0:00:26.442
But there's another name [br]you may know, too,

0:00:26.442,0:00:28.382
Rosalind Franklin.

0:00:28.382,0:00:32.567
You may have heard that her data supported[br]Watson and Crick's brilliant idea,

0:00:32.567,0:00:36.850
or that she was a plain-dressing,[br]belligerent scientist,

0:00:36.850,0:00:41.859
which is how Watson actually described her[br]in the Double Helix.

0:00:41.859,0:00:43.852
But thanks to Franklin's biographers,

0:00:43.852,0:00:47.191
who investigated her life [br]and interviewed many people close to her,

0:00:47.191,0:00:50.917
we now know that that account[br]is far from true,

0:00:50.917,0:00:54.851
and her scientific contributions[br]have been vastly underplayed.

0:00:54.851,0:00:56.721
Let's hear the real story.

0:00:56.721,0:01:01.475
Rosalind Elsie Franklin was born[br]in London in 1920.

0:01:01.475,0:01:04.612
She wanted to be a scientist ever[br]since we was a teenager,

0:01:04.612,0:01:08.764
which wasn't a common or easy[br]career path for girls at that time.

0:01:08.764,0:01:11.039
But she excelled at science anyway.

0:01:11.039,0:01:14.325
She won a scholarship to Cambridge[br]to study chemistry,

0:01:14.325,0:01:16.112
where she earned her Ph.D.,

0:01:16.112,0:01:19.397
and she later conducted research on[br]the structure of coal

0:01:19.397,0:01:23.700
that led to better gas masks for [br]the British during World War II.

0:01:23.700,0:01:26.256
In 1951, she joined King's College

0:01:26.256,0:01:29.790
to use x-ray techniques to study[br]the structure of DNA,

0:01:29.790,0:01:32.414
then one of the hottest topics in science.

0:01:32.414,0:01:35.449
Franklin upgraded the x-ray lab[br]and got to work

0:01:35.449,0:01:40.120
shining high-energy x-rays [br]on tiny, wet crystals of DNA.

0:01:40.120,0:01:43.804
But the acadmemic culture at the time[br]wasn't very friendly to women,

0:01:43.804,0:01:46.286
and Fraklin was isolated [br]from her colleagues.

0:01:46.286,0:01:48.609
She clashed with Maurice Wilkins,

0:01:48.609,0:01:52.974
a labmate who assumed Franklin[br]had been hired as his assistant.

0:01:52.974,0:01:54.472
But Franklin kept working,

0:01:54.472,0:02:01.193
and in 1952, she obtained Photo 51,[br]the most famous x-ray image of DNA.

0:02:01.193,0:02:03.630
Just getting the image took 100 hours,

0:02:03.630,0:02:07.485
the calculations necessary to analyze it[br]would take a year.

0:02:07.485,0:02:10.448
Meanwhile, the American biologist[br]James Watson

0:02:10.448,0:02:12.787
and the British physicist Francis Crick

0:02:12.787,0:02:15.730
were also working [br]on finding DNA's structure.

0:02:15.730,0:02:17.252
Without Franklin's knowledge,

0:02:17.252,0:02:21.667
Wilkins took Photo 51[br]and showed it to Watson and Crick.

0:02:21.667,0:02:25.078
Instead of calculating the exact[br]position of every atom,

0:02:25.078,0:02:27.942
they did a quick analysis [br]of Franklin's data

0:02:27.942,0:02:31.442
and used that to build [br]a few potential structures.

0:02:31.442,0:02:34.220
Eventually, they arrived at the right one.

0:02:34.220,0:02:37.169
DNA is made of two helicoidal strands,

0:02:37.169,0:02:42.416
one opposite the other with bases[br]in the center like rungs of a ladder.

0:02:42.416,0:02:46.670
Watson and Crick published their model[br]in April 1953.

0:02:46.670,0:02:50.215
Meanwhile, [br]Franklin had finished her calculations,

0:02:50.215,0:02:51.664
comes to the same conclusion,

0:02:51.664,0:02:54.398
and submitted her own manuscript.

0:02:54.398,0:02:56.721
The journal published [br]the manuscripts together,

0:02:56.721,0:02:58.883
but put Franklin's last,

0:02:58.883,0:03:02.882
making it look like her experiments just[br]confirmed Watson and Crick's breakthrough

0:03:02.882,0:03:05.381
instead of inspiring it.

0:03:05.381,0:03:07.920
But Franklin had already [br]stopped working on DNA

0:03:07.920,0:03:11.018
and died of cancer in 1958,

0:03:11.018,0:03:15.107
never knowing that Watson and Crick[br]had seen her photographs.

0:03:15.107,0:03:19.326
Watson, Crick, and Wilkins won[br]the Nobel Prize in 1962

0:03:19.326,0:03:21.421
for their work on DNA.

0:03:21.421,0:03:25.006
It's often said that Franklin would have[br]been recognized by a Nobel Prize

0:03:25.006,0:03:28.288
if only they could be [br]awarded posthumously.

0:03:28.288,0:03:31.638
And in fact, it's possible [br]she could have won twice.

0:03:31.638,0:03:37.302
Her work on the structure of viruses[br]led to a Nobel for a colleague in 1982.

0:03:37.302,0:03:42.636
It's time to tell the story of a brave[br]woman who fought sexism in science,

0:03:42.636,0:03:47.514
and whose work revolutionized[br]medicine, biology, and agriculture.

0:03:47.514,0:03:51.039
It's time to honor [br]Rosalind Elsie Franklin,

0:03:51.039,0:03:53.534
the unsung mother of the double helix.