Hvad er genmanipulation?

Genmanipulation er processen, hvor man modificerer genomet af en organisme ved at indsætte, fjerne eller ændre gener.

Hvad er formålet med at skabe fluorescerende kaniner?

Fluorescerende kaniner anvendes til medicinsk forskning for at spore cellebevægelser i kroppen, hvilket kan hjælpe med behandlingen af sygdomme som blindhed og knoglesygdomme.

Hvordan kan genmodificeret laks gavne miljøet?

Genmodificeret laks vokser hurtigere og kræver mindre foder, hvilket reducerer miljøbelastningen fra opdræt.

Hvad er en Enviro Pig?

En Enviro Pig er en genetisk modificeret gris, der kan fordøje fosfor i deres foder og dermed reducere fosforudledningen i miljøet.

Hvordan kan genmodificerede organismer hjælpe mod vitamin A-mangel?

Golden rice er en genetisk modificeret ris, der indeholder beta-karoten, og kan hjælpe med at modvirke vitamin A-mangel ved at producere det nødvendige vitamin i kroppen.

Kloning er en proces, hvor man laver en genetisk kopi af en organisme ved at indsætte DNA fra den ønskede organisme i en ægcelle, der derefter bliver til en klon.

Hvordan kan kødfremstilling uden dyr komme til at se ud?

Fremtidens kød kan dyrkes i laboratorier fra stamceller, hvilket eliminerer behovet for at opdrætte eller slagte dyr.

Hvorfor er genetisk modificerede organismer kontroversielle?

Kontroversen om genetisk modificerede organismer stammer fra bekymringer om sikkerheden, miljøkonsekvenserne og de etiske implikationer ved at ændre naturlige organismer.

Golden Rice er en genetisk modificeret form for ris, der er beriget med beta-caroten for at reducere vitamin A-mangel hos mennesker.

Hvad er fordelene ved fjærløse kyllinger?

Fjærløse kyllinger kan bedre regulere deres temperatur i varme klimaer og er lettere at slagte, da der ikke er behov for plukning af fjerene.

ANIMAL PHARM - INSIDE GMO TRANSGENICS AND CLONING

00:46:33

https://www.youtube.com/watch?v=CL4z9HUI2IY

Ringkasan

TLDRVideoen tager seerne med på en udforskning af en hypotetisk gård med genetisk modificerede dyr og planter og diskuterer de potentielle fordele og ulemper ved genetisk manipulation. Eksempler inkluderer fluorescerende kaniner, fjærløse kyllinger skabt til at klare varme klimaer uden behov for fjernelse af fjer, og genmodificeret laks der vokser hurtigere og mere effektivt under forskellige vandforhold. Desuden præsenterer videoen en Enviro Pig, der kan fordøje fosfor mere effektivt for at løse miljøproblemer, og Golden Rice, en risvariant designet til at bekæmpe vitamin A-mangel. Videoen adresserer både fascinationen og frygten omkring genetisk teknologi og stiller spørgsmålet om, hvorvidt denne teknologi kan redde verden eller føre os mod en etisk og økologisk krise.

Takeaways

🔬 Genetisk teknologi kan ændre liv.
🐇 Fluorescerende kaniner bruges i forskning.
🐔 Fjærløse kyllinger til tropiske klimaer.
🐟 Superlaks vokser hurtigere og er mere effektiv.
🐖 Enviro Pig reducerer fosforforurening.
🌾 Golden Rice modvirker vitamin A-mangel.
🧬 Transgenen kan flyttes mellem arter.
⚖️ Etiske overvejelser om gensplejsning.
🌍 Miljøfordele ved genetisk modifikation.
🌱 Kloning og kødfremstilling i laboratorier.

Garis waktu

00:00:00 - 00:05:00
Debatten om anvendelsen af genetisk ingeniørvirksomhed bliver præsenteret. På den ene side står biologen Olivia Judson, der ser potentialet i at forbedre verden gennem denne teknologi. På den anden side står madjournalist Giles Corin, der er bekymret for de etiske konsekvenser af sådanne videnskabelige indgreb.
00:05:00 - 00:10:00
Menneskeheden har selektivt avlet planter og dyr i årtusinder, og dette har bidraget til mange af de fødevarer, vi kender i dag. Eksempler som orange gulerødder og forskellige typer af roser er resultatet af sådanne avlsmetoder, hvilket understreger manipulationens lange historie før moderne videnskab.
00:10:00 - 00:15:00
Videnskaben presser grænserne ved at avle fjervilde kyllinger for bedre at kunne overleve i varme klimaer. Disse kyllinger har fordelen af lettere at afgive kropsvarme og kræver mindre energi. Dette projekt viser, hvordan genetisk selektion kan bruges til specifikke udfordringer som overophedning.
00:15:00 - 00:20:00
Introduktion til transgenik, hvor forskere kan indsætte gener fra en art til en anden, f.eks. at gøre kaniner fluorescerende med gener fra gopler. Denne metode har potentiale for medicinsk forskning ved at spore cellers bevægelse, men rejser også etiske spørgsmål om manipulation af liv.
00:20:00 - 00:25:00
Genetisk modificereret laks er blevet udviklet til at vokse hurtigere ved at ændre deres genetiske struktur. Disse laks viser en markant forskel i væksthastighed og kan reducere pres på vilde laksebestande. Der er dog bekymringer om konsekvenserne, hvis disse laks slipper ud i naturen.
00:25:00 - 00:30:00
Introduktion af 'miljøgrise' der kan fordøje fosfor bedre for at reducere miljøpåvirkningen af deres affald. Disse grise er genetisk modificerede og kunne potentielt løse miljøproblemer forårsaget af svineaffald. Teknikken anses for banebrydende, men der er offentlig modstand mod transgenisk teknologi.
00:30:00 - 00:35:00
På trods af de opnåede resultater forbliver genetisk modification kontroversiel. Golden Rice, udviklet for at bekæmpe vitamin A-mangel, er eksempelvis stadig underlagt strenge restriktioner, trods det potentielle sundhedsudbytte. Offentlig frygt for genetisk teknologi ses som en forhindring for dens udbredelse.
00:35:00 - 00:40:00
Kloning bliver udforsket som en måde at opretholde bestemte kvaliteter i husdyr, med eksempler som den verdenskendte kapløbshest Scamper, der er blevet klonet for at bevare sine unikke genetiske egenskaber. Alligevel er der samfundsmæssige og etiske bekymringer vedrørende opdræt og måden vi bruger denne teknologi.
00:40:00 - 00:46:33
Afslutningsvis bliver mulighederne for at dyrke kød uden dyr fremstillet som en mulig løsning på de etiske dilemmaer ved dyrehold. Den teknologi kan potentielt revolutionere fødevareproduktionen, men det er stadig en ukendt faktor, hvordan dette påvirker smag og forbrugernes accept.

Tampilkan lebih banyak

Peta Pikiran

Video Tanya Jawab

Hvad er genmanipulation?
Genmanipulation er processen, hvor man modificerer genomet af en organisme ved at indsætte, fjerne eller ændre gener.
Hvad er formålet med at skabe fluorescerende kaniner?
Fluorescerende kaniner anvendes til medicinsk forskning for at spore cellebevægelser i kroppen, hvilket kan hjælpe med behandlingen af sygdomme som blindhed og knoglesygdomme.
Hvordan kan genmodificeret laks gavne miljøet?
Genmodificeret laks vokser hurtigere og kræver mindre foder, hvilket reducerer miljøbelastningen fra opdræt.
Hvad er en Enviro Pig?
En Enviro Pig er en genetisk modificeret gris, der kan fordøje fosfor i deres foder og dermed reducere fosforudledningen i miljøet.
Hvordan kan genmodificerede organismer hjælpe mod vitamin A-mangel?
Golden rice er en genetisk modificeret ris, der indeholder beta-karoten, og kan hjælpe med at modvirke vitamin A-mangel ved at producere det nødvendige vitamin i kroppen.
Hvad er kloning?
Kloning er en proces, hvor man laver en genetisk kopi af en organisme ved at indsætte DNA fra den ønskede organisme i en ægcelle, der derefter bliver til en klon.
Hvordan kan kødfremstilling uden dyr komme til at se ud?
Fremtidens kød kan dyrkes i laboratorier fra stamceller, hvilket eliminerer behovet for at opdrætte eller slagte dyr.
Hvorfor er genetisk modificerede organismer kontroversielle?
Kontroversen om genetisk modificerede organismer stammer fra bekymringer om sikkerheden, miljøkonsekvenserne og de etiske implikationer ved at ændre naturlige organismer.
Hvad er Golden Rice?
Golden Rice er en genetisk modificeret form for ris, der er beriget med beta-caroten for at reducere vitamin A-mangel hos mennesker.
Hvad er fordelene ved fjærløse kyllinger?
Fjærløse kyllinger kan bedre regulere deres temperatur i varme klimaer og er lettere at slagte, da der ikke er behov for plukning af fjerene.

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Teks

Gulir Otomatis:

00:00:00
[Music]
00:00:01
if scientists can create a rabid that
00:00:04
glows in the
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dark is this a good
00:00:08
thing if they can help the environment
00:00:10
by mixing the genes of different species
00:00:13
would that be
00:00:14
right and if they can make a chicken
00:00:17
that grows without
00:00:18
feathers is this going too
00:00:22
[Music]
00:00:24
far since time began Evolution has
00:00:27
produced weird and wonderful creatures
00:00:31
now man can do the
00:00:34
same science has allowed us to unlock
00:00:36
the secrets of life
00:00:39
itself so are we as some believe on the
00:00:42
verge of a terrible nightmare in a world
00:00:45
gone mad or could genetic engineering be
00:00:48
a force for good to help create a world
00:00:51
where nobody goes hungry thank you very
00:00:53
much where our bodies
00:00:57
regenerate this is not tomorrow
00:01:00
world it's happening
00:01:04
now if all the plants and animals that
00:01:07
have been created by science were
00:01:09
gathered together on one Farm then this
00:01:12
is what it would look
00:01:13
[Music]
00:01:23
like the farm is imaginary but all the
00:01:26
plants and creatures you about to see
00:01:29
are real
00:01:31
[Music]
00:01:33
Welcome to our Animal
00:01:38
[Music]
00:01:48
[Music]
00:01:51
Farm we've placed two people on our arm
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to guide us around scientist Olivia
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Judson is a strong supporter of genetic
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engineering and wants to persuade you
00:02:02
that it really can improve the world I'm
00:02:05
a biologist I spend my time learning
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about animals plants fungi bacteria I
00:02:11
find genetic engineering amazing it's a
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new frontier of science that has the
00:02:15
possibility of transforming all of our
00:02:17
lives for me genetic engineering isn't
00:02:20
so much frightening as inspiring it
00:02:23
opens up a world of
00:02:25
Wonder food journalist Giles Corin is a
00:02:29
passionate advoca for organic
00:02:31
farming he finds what's being done in
00:02:33
the name of science a real cause for
00:02:36
concern as a food writer I spend a lot
00:02:38
of my time seeking out the best natural
00:02:41
food that I can organically grown fruit
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and vegetables free range meat and eggs
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and as far as I'm concerned when it
00:02:46
comes to feeding the planet Nature has
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made a pretty good job of it so when I
00:02:50
hear about the Brave New World of
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genetic engineering and the Franken food
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that it produces it strikes me as
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completely pointless and to be honest
00:02:58
very scary
00:03:00
Olivia Judson and Giles Corin are about
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to see some plants and animals that are
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truly beyond
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belief are these modern-day
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Frankenstein's monsters or could they
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transform our lives in the world for the
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better for them and us it's time to
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decide Char's tour around our farm
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begins in the
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cowsheds he's going to meet some
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extraordinary creatures the
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Schwarzeneggar of the cow world
00:03:30
[Music]
00:03:42
[Music]
00:03:46
well I found the whole experience deeply
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disturbing they call it natural
00:03:50
selection but it's been designed by men
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to exploit animals for their own
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ends whilst to Giles this seems shocking
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and
00:04:01
unnatural scientist Olivia Judson has a
00:04:04
very different view of what's natural in
00:04:06
the first place it's always fascinated
00:04:09
me that what we think of as natural is
00:04:11
often anything but take this Farmhouse
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Treasure Trove the classic image of
00:04:15
Nature's Bounty but nothing on this
00:04:18
table is simply the product of Natural
00:04:20
Evolution we've been genetically
00:04:22
manipulating fruit and vegetables for
00:04:24
thousands of years take the carrot crisp
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juicy
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orange but until about 300 years ago
00:04:33
carrots usually look like this white the
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Dutch selectively bred orange carrots as
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a tribute to their royal family the
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house of
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orange the pink grapefruit we eat are
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all clones of one original mutant
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grapefruit we've forgotten that the
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potato was originally poisonous the
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wheat was once just a scrawny wild grass
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Farmers have been interfering with
00:04:57
nature for thousands of years on our
00:05:00
farm they are still at it next Olivia is
00:05:03
about to meet a new kind of chicken
00:05:06
which may come as a bit of a
00:05:08
[Music]
00:05:19
surprise these chickens may look normal
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but they've been bred to grow as fat and
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as fast as
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possible greedy chickens have hard rates
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as high as 300 beats a
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minute they have a high metabolism and
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find it difficult to cool
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[Music]
00:05:40
down in charge of solving the problem of
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overheated chickens is geneticist Dr
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abigor
00:05:47
Kahana as long as they are kept in cool
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environment this is not a problem at all
00:05:52
because this heat is dissipated through
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the legs through the face and that's
00:05:56
sufficient however once this the peny of
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these birds are reared in the tropics in
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hot conditions because the gradient in
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temperature between the body temperature
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and the ambient is so small they can
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hardly dissipate the heat so it's as if
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I go to the tropics wearing a fur coat
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that's right and I just can't get cool
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enough that's right since I a geneticist
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I was looking for a genetic solution
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that mean instead of cooling the
00:06:22
environment of the of chickens with
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feathers is helping them feel cool by
00:06:28
just removing the feathers so I decided
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to go to the extreme situation of
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developing boilers without feathers at
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all can we have a look sure let go all
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right chickens without the gene to make
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feathers hey I'm fascinated to see what
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they look
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like God it's hot in here yeah it is hot
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and here they are the featherless
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chickens they look like miniature
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dinosaurs what we have here is that the
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original mutant this is a female she's
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amazingly smooth yeah it's quite
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extraordinary this is the male and as
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you can see no scales on the feet that's
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why the mutation is called scales they
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got little claws on the on the ends of
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their wings you can certainly imagine
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them as as little little miniature
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dinosaurs yeah sexually mature males
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they're bright red become red it's a
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interaction between the sex hormone and
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the life I see which create this
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testosterone plus light B turns red
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that's right these are adult birds this
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is mature body size they will never be
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bigger than this when I started I
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started to cross birds like this ones
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with the ones with the ones that we saw
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well they tried to Flap they still know
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how to Flap they're rather sweet having
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successfully bred small featherless
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chickens Dr Kahana wanted to see if he
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could create a big commercial sized
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bird that was the challenge and indeed
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we managed to do it as you can see here
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is huge this is an adult abely huge this
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male is identical in body size to the
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males that we saw over there in the
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other house which have full feathers the
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only thing that we Chang is that we took
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advantage of this Gene the scales Gene
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that eliminates or avoids the
00:08:22
development of the feathers but and by
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this doing this we allowed these birds
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to grow nicely and comfortably in hot
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conditions these chickens are the result
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of Dr kahana's selective breeding
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program and after six generations of
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mating the chickens with the featherless
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jeans this is what we've ended up with I
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can imagine most people's reactions at
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seeing these chickens is one of
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revulsion but if you were a chicken in
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100° heat you wouldn't want feathers
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believe me and anyway they're not the
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first animal bred to have their natural
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covering removed
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look at pigs wild boar are
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furry and even we humans were once Apes
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entirely covered in
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hair so perhaps they're not as weird as
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they first
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seem what is the future of these
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chickens are we going to see them in our
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supermarkets soon hopefully in the
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supermarkets in the tropical countries
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in Nigeria in Indonesia where it's very
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old for these Farmers is easier and more
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efficient because there's no need you
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don't have to PLU them that's right
00:09:31
there's no need to pluck them the
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proportion of meat on these birds is
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higher so so featherless chickens in the
00:09:38
tropics they grow faster than a bird
00:09:39
with feathers because they don't they
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they don't get held up by the fact
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they're getting too hot they're
00:09:44
healthier they cost less because you
00:09:46
don't have expensive housing sounds
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fantastic that's right good for the
00:09:50
person good for the
00:09:55
bird selective breeding is just the
00:09:58
first tool in our quests to control the
00:10:00
natural world but it still takes
00:10:03
generations to accomplish and is quite
00:10:06
imprecise the big breakthrough really
00:10:08
came when scientists could identify
00:10:11
individual genes not only that but they
00:10:14
developed the technology to extract them
00:10:17
one of the great discoveries of the last
00:10:18
20 years is that you can move a gene
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from one species into another entirely
00:10:22
different one which gives us almost
00:10:23
Limitless
00:10:25
possibilities that's right on our farm
00:10:28
it's time to enter into the world of
00:10:30
transgenics and genetic
00:10:33
modification it's time to enter the
00:10:36
rabbit
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[Music]
00:10:41
hutch the man in charge of transgenics
00:10:44
is Dr HUD beine in the hutch he's
00:10:47
created dozens of transgenic
00:10:50
rabbits so what does it mean transgenic
00:10:53
rabbits if you look at the word trans
00:10:55
Gene this means that the gene was
00:10:57
transferred a foreign Gene was
00:10:58
transferred to the animal so which Gene
00:11:01
have they got well it comes from a
00:11:04
jellyfish from Pacific
00:11:06
[Music]
00:11:08
Ocean in case you miss that Dr hudin has
00:11:12
successfully used transgenics to insert
00:11:14
a jellyfish jean into a
00:11:18
rabbit and what does the gene do uh the
00:11:20
gene gives a green color to jellyfish
00:11:24
and then green color to the rabbits so
00:11:26
the rabbits glow Green in the dark yes
00:11:29
absolutely can I see oh
00:11:34
sure charged up with blue ultraviolet
00:11:37
light and viewed through special glasses
00:11:39
the skin and the eyes of these rabbits
00:11:41
glow green just like a jellyfish look oh
00:11:46
yes oh yes extremely green so the
00:11:49
difference is great because they have
00:11:51
red eyes yes in normal light and green
00:11:56
with this light it looks quite peculiar
00:11:58
I will say
00:12:02
this is no trick of the light these
00:12:03
rabbit's eyes and skin really do glow
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green it's amazing what he's
00:12:10
done this is transgenics in action
00:12:13
scientists have managed to isolate a
00:12:15
tiny bit of jellyfish DNA that makes
00:12:17
them fluores known as the gfp
00:12:21
gene Dr hudan has simply taken that Gene
00:12:25
and inserted it into
00:12:27
bacteria as the B IIA reproduce the gene
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is
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Multiplied and then these genes are
00:12:34
injected into the fertilized egg of a
00:12:37
rabbit Dr hudan then places the egg into
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the
00:12:42
mother as the egg grows to form the
00:12:45
rabbit embryo it copies the fluorescing
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gene into every
00:12:49
cell 31 days later you've got
00:12:52
fluorescent
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bunnies you may be surprised to hear
00:12:56
that Dr hudan does all this with
00:12:58
jellyfish jeans he orders off the
00:13:00
internet show because it's I find it
00:13:02
still impressive you know that tube very
00:13:05
small and you have a very very tiny drop
00:13:08
yes and this is the gene itself that was
00:13:11
injected in these animals and uh with
00:13:14
that small quantity that you can see
00:13:16
which is absolutely you can micro inject
00:13:18
hundreds of
00:13:19
UMO Dr hudin has a fresh litter for me
00:13:22
to take a look at B if we want to look
00:13:25
and see them green take the spectacle
00:13:27
and uh the the effect of the gfp gene is
00:13:30
even more pronounced in the newly born
00:13:32
babies can I can I hold one oh sure oh
00:13:35
yes oh wow most of them are green but
00:13:40
one or two of them are not green because
00:13:43
they uh the father was green but not the
00:13:45
mother so statistically half of them are
00:13:49
green and the second half is
00:13:53
not but why on Earth I hear you say make
00:13:57
animals that glow in the dark well these
00:14:00
rabbits are being bred to help medical
00:14:01
researchers across the world track the
00:14:03
movement of cells the jellyfish genes
00:14:05
are being used like a fluorescent marker
00:14:08
pen by tagging certain cells with the
00:14:11
glowing jellyfish genes scientists can
00:14:13
work out which cells go where after an
00:14:15
organ transplant the technology is
00:14:18
helping us find treatments for problems
00:14:20
like blindness and bone disease I think
00:14:23
it's amazing that you can take a gene
00:14:25
from a jellyfish and put it into a
00:14:27
bacteria or a mushroom or rabbit and it
00:14:30
works it does the same thing it did in
00:14:32
the jellyfish and jellyfish and rabbits
00:14:34
have been separated for more than 600
00:14:37
million years and yet the jellyfish Gene
00:14:40
still works I think that's
00:14:42
[Music]
00:14:47
incredible so transgenics can be useful
00:14:50
for medical
00:14:51
research but what happens when it hits
00:14:54
your dinner
00:14:55
table for our next stop let's head head
00:14:59
to the fish farm to meet the genetically
00:15:01
modified fish our very own Super
00:15:22
salmon in the fish tanks on our farm Joe
00:15:26
mogol is using transgenics to create a
00:15:29
salmon that grows extra fast for your
00:15:31
dining
00:15:34
pleasure so down here in this tank we
00:15:37
have um transgenic fish that are a year
00:15:40
old during this period of their lives
00:15:42
they're growing about four to six times
00:15:44
faster than standard salmon grow we can
00:15:47
take this out and we can compare it with
00:15:48
a with a standard non-transgenic salmon
00:15:51
um and you can take a look and see how
00:15:53
they compare uh both for size and for
00:15:56
condition after just one year's growth
00:15:59
Joe's salmon are four times larger than
00:16:02
non-gm salmon of the same age well what
00:16:05
we have are two same age fish uh the the
00:16:08
larger one as you can see is the
00:16:09
transgenic that we've just taken out of
00:16:11
the tank these fish are virtually
00:16:13
identical except for one has a trans
00:16:15
Gene it grows faster during this first
00:16:17
year of
00:16:18
Life traditionally a salmon only grows
00:16:21
in warm
00:16:22
water but as soon as the water gets cold
00:16:25
in Winter the gene controlling the
00:16:27
Salmon's growth switch is off and the
00:16:30
fish stops
00:16:31
growing not
00:16:33
anymore Joe takes the genetic switch
00:16:36
which controls growth from another
00:16:38
species of fish that grows in cold water
00:16:41
he inserts that into the salmon
00:16:44
egg the presence of this genetic switch
00:16:47
means the new salmon now grows all year
00:16:49
round whatever the water
00:16:53
temperature Joe really does seem to love
00:16:56
his fish as you can see here the these
00:16:59
are beautiful fish there's there's
00:17:00
virtually nothing uh wrong with them in
00:17:03
any way they're uh streamlined they're
00:17:05
torpedo shaped there is virtually no
00:17:07
deformity they look exactly like
00:17:09
conventional fish this is not like a
00:17:12
bodybuilder situation or people using
00:17:14
steroids in order to bulk up these fish
00:17:16
are essentially producing what they need
00:17:19
internally under their own genetic
00:17:20
control Joe sees himself as a farmer of
00:17:23
the future he really seems to believe
00:17:26
that using transgenics to create these
00:17:28
super salmon could make salmon farming
00:17:30
less damaging to the environment and
00:17:31
protect the few remaining stocks of wild
00:17:33
salmon you can reduce the environmental
00:17:36
footprint of conventional salmon farming
00:17:37
in a couple of ways one is that these
00:17:39
fish are more efficient at feed
00:17:41
conversion they gain about 30% more
00:17:45
weight per gram of food they eat
00:17:48
compared to Conventional salmon and as a
00:17:50
result they also produce about 30% less
00:17:52
waste that waste would otherwise end up
00:17:55
in the water column or on the bottom of
00:17:57
the ocean in each of the these trays
00:17:59
Joe's got enough eggs to grow super
00:18:01
salmon on an industrial scale each one
00:18:04
of these contains about 10,000 eggs and
00:18:06
uh there's um something in the
00:18:08
neighborhood to 160 of them uh each one
00:18:11
is a unique family and each one uh can
00:18:13
be bred forward into the
00:18:16
future but what on Earth would happen if
00:18:18
one of these monster salmon escaped and
00:18:21
swam off to breed with ordinary
00:18:24
fish the concerns that the trans genus
00:18:28
out there and there no calling it back
00:18:29
you've changed the world forever now in
00:18:31
point of fact the fish are sterile they
00:18:33
can't breed at all there's no
00:18:35
possibility of a trans Gene that exists
00:18:38
in an Atlantic salmon escaping from the
00:18:42
species so because the salmon is sterile
00:18:45
Joe's certain there's no danger of the
00:18:47
gene getting out and causing
00:18:50
chaos novelist gets paid for imagining
00:18:53
those kinds of things um fish breeders
00:18:56
get paid for producing a fish that can
00:18:58
provide food uh into the future without
00:19:01
the problems of overh harvesting stocks
00:19:04
that will frankly disappear if we keep
00:19:06
hitting
00:19:09
them here on the farm super salmon
00:19:12
aren't the only genetically modified
00:19:14
animals that could help save the
00:19:17
environment for our next appointment
00:19:19
we're heading to the pigy to meet some
00:19:22
creatures who could help us out of a
00:19:24
sticky situation
00:19:33
I like bacon as much as the next person
00:19:36
but the amount of pork we eat is causing
00:19:39
serious
00:19:40
problems last year we killed more than 2
00:19:43
billion pigs and these creatures provide
00:19:46
more dietary protein more cheaply to
00:19:49
more people than any other
00:19:51
animal but all this consumption comes at
00:19:54
a
00:19:54
cost animal agriculture is a major
00:19:57
consumer of the natural environment that
00:20:00
is the impact on the atmosphere upon
00:20:04
water utilization and in particular Pig
00:20:07
agriculture or hog agriculture produces
00:20:10
copious amounts of
00:20:11
manure manure it's a natural product but
00:20:15
on an industrial scale it's a serious
00:20:17
environmental
00:20:20
pollutant and Pooh from pigs is
00:20:22
particularly
00:20:24
toxic pig manure has a very high level
00:20:27
of phosphorus
00:20:29
within it from normal diets through
00:20:31
normal pigs and that phosphorus usually
00:20:34
is more than is required by crops
00:20:37
produced on land fertilized with pig
00:20:39
manure pig manure is packed with
00:20:42
phosphorus because pigs simply can't
00:20:44
digest it and this excess is causing
00:20:47
some serious
00:20:48
damage it runs off into the water supply
00:20:51
causing the overgrowth of algae and
00:20:53
killing
00:20:55
fish it seems an impossible problem of
00:20:58
bi ology but John Phillips has found a
00:21:01
way to fix it a very simple and
00:21:04
effective solution to the environmental
00:21:07
problems caused by high phosphorous pig
00:21:09
manure found right behind these
00:21:12
[Music]
00:21:15
doors to tackle the problem johon has
00:21:18
created something he calls the Enviro
00:21:23
Pig this animal looks normal but it's
00:21:26
anything but
00:21:28
these pigs are unlike any other pigs in
00:21:30
the world they're different because they
00:21:33
carry a very special Gene that allows
00:21:35
them to digest all of the phosphorus in
00:21:37
their diet the gene is constructed in
00:21:39
the laboratory that we
00:21:41
use the remarkable thing about the envir
00:21:44
pigs is that they carry a man-made Gene
00:21:47
which John has created from
00:21:50
scratch one part comes from eoli
00:21:53
bacteria which produces an enzyme that
00:21:56
can break down phosphorus
00:21:58
and the other comes from a mouse which
00:22:00
produces a genetic switch that allows
00:22:02
this special enzyme to be made in
00:22:05
saliva these two bits of DNA were
00:22:08
combined to form a new compound Gene
00:22:10
which was then inserted into a
00:22:12
fertilized Pig
00:22:14
[Music]
00:22:15
egg now every time John's pigs eat and
00:22:18
produce saliva they also make the
00:22:20
phosphorus busting
00:22:22
enzyme helping to make their poo more
00:22:24
environmentally
00:22:26
friendly the aim ultimately we think is
00:22:30
that the global environment would be
00:22:32
best served if every Pig could digest
00:22:35
all of its organic phosphorus in its
00:22:37
diet the way these pigs do so John wants
00:22:41
every pig in the world to be an Enviro
00:22:44
Pig I think it's an idea with Merit but
00:22:47
he's encountered a lot of obstacles
00:22:49
there are many people out in the
00:22:52
community uh that do have concerns about
00:22:55
transgenic changes in animals and and
00:22:58
some of these people have gone about
00:23:01
intentionally frightening the public
00:23:03
about this technology so we have an
00:23:05
uphill battle uh in terms of people's
00:23:08
perceptions this is an effective way of
00:23:11
dealing with a serious environmental
00:23:14
problem it's simple it can be propagated
00:23:17
very rapidly any other technology cannot
00:23:20
touch this in terms of the rapidity of
00:23:23
its application on the farm or the
00:23:25
extent of the change that can occur as a
00:23:27
result of the technology nothing comes
00:23:29
close to
00:23:30
[Music]
00:23:36
this all over the farm scientists are
00:23:39
discovering that genetic modification is
00:23:41
an immensely powerful tool but it's also
00:23:45
a controversial one Olivia Judson is
00:23:48
convinced that we shouldn't be afraid of
00:23:52
it I personally would much rather have
00:23:54
uh would much rather eat an organism
00:23:56
that has been genetically modified to
00:23:58
grow f fast than one that has been
00:23:59
injected with a lot of hormones to grow
00:24:01
fast certainly would have no objection
00:24:02
to eating an animal that has been
00:24:04
genetically modified I mean what is a
00:24:06
gene it's an instruction to make a
00:24:08
protein it it's not anything mystical I
00:24:12
think to a lot of people it probably is
00:24:13
something mystical but it's not I mean
00:24:16
there is nothing mystical about a gene
00:24:17
we know what it is we can describe it we
00:24:19
can build them there is nothing
00:24:20
mysterious and all it does is contain
00:24:23
the instruction for making a protein you
00:24:24
know you add one you take one away so
00:24:26
what but having understood how it works
00:24:29
to then start changing it and meddling
00:24:30
with it is another step isn't it well we
00:24:33
already have I mean nothing in this
00:24:35
Countryside in this landscape is natural
00:24:37
it's been modified by us we haven't done
00:24:39
it precisely but we certainly have
00:24:41
altered which sheep are growing which
00:24:44
grass is growing we just don't have such
00:24:46
a thing as a natural landscape in in
00:24:48
most of the world I mean it's just
00:24:49
complete you know it's a fantasy we've
00:24:52
created
00:24:55
it what Giles and so many other people
00:24:58
don't seem to appreciate is that genetic
00:25:01
engineering is one of the most highly
00:25:02
regulated Technologies in the
00:25:05
world it's so highly regulated that even
00:25:07
when GM could really help save lives
00:25:10
we're not allowed to use
00:25:14
[Music]
00:25:16
it absurdly this greenhouse is classed
00:25:20
as a biohazard containment facility the
00:25:22
sort of thing where you'd keep a sample
00:25:24
from
00:25:25
Mars to stop what some people call
00:25:27
genetic pollution
00:25:29
cross-pollination none of these plants
00:25:31
are allowed into the open air for a
00:25:33
moment but inside are simply new strains
00:25:36
of the crops billions of people eat
00:25:38
every day what's more every cutting is
00:25:42
meticulously cataloged and
00:25:44
recorded the point is scientists working
00:25:46
here have been trying to cure a
00:25:48
condition that kills 2 and a half
00:25:49
million people a
00:25:51
year vitamin A deficiency it's a huge
00:25:56
problem half the world popul gets almost
00:25:59
all their nutrition from rice but
00:26:02
unfortunately rice doesn't have in it a
00:26:04
set of simple chemicals called
00:26:06
catenoids that's the stuff that gives
00:26:08
color to vegetables like carrots and
00:26:11
peppers our bodies use catenoids from
00:26:14
vegetables to make vitamin A and if you
00:26:16
don't get enough vitamin A you have real
00:26:20
problems vitamin A deficiency suppresses
00:26:24
the immune system but before it does
00:26:26
that it makes individuals blind
00:26:28
most of the children who are affected
00:26:30
are less than five most of them die
00:26:31
within two years of becoming blind
00:26:34
people suffering from vitamin A
00:26:35
deficiency die from diseases which
00:26:38
healthy people can survive so vitamin A
00:26:41
deficiency kills 2 and a half million
00:26:43
people a year that's equivalent to a 911
00:26:46
every 12 hours to a tsunami every month
00:26:50
to 250 people dying during the course of
00:26:52
1hour television
00:26:55
program so the scientists set to work to
00:26:58
see if they could manage to make rice
00:27:00
high in vitamin A by persuading it to
00:27:03
produce the
00:27:04
catenoids their science was
00:27:06
pioneering they identified not one or
00:27:10
two but three genes two from the
00:27:13
daffodil and one from a bacteria which
00:27:15
they thought would help produce
00:27:17
catenoids they then tried to insert all
00:27:20
three of these into rice
00:27:22
DNA in 1999 after years of trial and
00:27:25
error they finally managed to create r
00:27:28
that produced beta
00:27:30
carotene they could tell that this was
00:27:32
being produced because the genetically
00:27:34
engineered rice was colored yellow they
00:27:37
christened it golden
00:27:40
rice that was amazing science it still
00:27:42
is amazing science at the time no other
00:27:45
genetically modified plant had more than
00:27:46
one gene expressing they put three in
00:27:49
and turned on a
00:27:54
pathway it's been a long road to perfect
00:27:57
their plants
00:27:59
but now a bowl of golden rice can
00:28:01
provide an individual with enough
00:28:03
vitamin A to meet their daily
00:28:04
[Music]
00:28:06
needs but absurdly golden rice is still
00:28:10
locked in green houses like
00:28:12
this Dr Adrian dubok finds this
00:28:15
completely frustrating and I can
00:28:17
understand why genes occur in all the
00:28:21
food we eat they occur in all organisms
00:28:23
biology is the most powerful tool and
00:28:25
there's nothing to be frightened of in
00:28:27
this technology the history shows it's
00:28:29
extremely safe it's the most regulated
00:28:31
technology of any technology that's ever
00:28:33
been introduced so how can rich people
00:28:35
in Europe stand in the way of choice for
00:28:38
poor people in the developing World
00:28:39
especially when standing in the way of
00:28:40
that choice kills
00:28:42
them golden rice sums up what I find so
00:28:46
frustrating there may be issues about
00:28:48
who exploits this technology and there
00:28:50
have been worries about
00:28:52
cross-pollination but the basic
00:28:53
underlying fear remains
00:28:56
irrational the science at the heart of
00:28:58
this is so
00:29:00
effective and the plant scientists
00:29:02
who've made the breakthroughs are trying
00:29:04
to make the world a better
00:29:14
place once scientists have gone to the
00:29:16
trouble of improving on
00:29:18
Evolution either through GM or
00:29:21
traditional
00:29:22
breeding the next question is how to
00:29:24
preserve their success
00:29:28
and now we get to the most extraordinary
00:29:30
technique scientists are using on our
00:29:33
farm
00:29:35
cloning you've probably heard of Dolly
00:29:37
the sheep but what you may not know is
00:29:41
that since then scientists have created
00:29:43
whole herds of cloned cows pigs and
00:29:46
flocks of
00:29:48
sheep for our next stop we're going to
00:29:51
meet the prizewinning herd of Longhorn
00:29:53
cattle an entire paduk of clones
00:29:57
[Music]
00:30:04
the adult cows are surrogate mothers and
00:30:07
all of their calves are
00:30:09
[Music]
00:30:11
clones in this pen I have uh clones of
00:30:14
five different animals when you say
00:30:16
surrogate mothers did they carry the
00:30:18
eggs that they They Carried the embryos
00:30:21
the complete gestation and gave birth to
00:30:24
these calves everything is as it would
00:30:26
be
00:30:28
right it will if they weren't cloned so
00:30:30
you don't like to use the word well you
00:30:33
know looking there you know you can't
00:30:34
say that they're abnormal they no they
00:30:36
look very healthy and although they're
00:30:38
beautiful and lovely and I always love
00:30:40
seeing cows and particularly small ones
00:30:41
I'm slightly disappointed that they're
00:30:43
not all identical you know cloning you
00:30:45
can't guarantee that they're going to
00:30:47
look identical you're just guaranteeing
00:30:49
that the genetics are identical that's
00:30:51
the purpose of cloning is is to provide
00:30:54
the exact genetic I kind of expected
00:30:56
them all to be running belg together in
00:30:58
rows you know like finishing at the same
00:31:00
time in a race Mir image of the same cow
00:31:03
over and over so it's not quite like
00:31:04
that no it it's not you know like I said
00:31:07
they uh they'll act similar but um they
00:31:11
don't know they're a clone and each calf
00:31:14
has its own
00:31:15
[Music]
00:31:22
personality so just how do you create a
00:31:26
clone expert clone owner Earl hang is
00:31:29
Keen to show Olivia just how it's
00:31:32
done still kind of hard to
00:31:35
see let me see if I can get it today
00:31:39
we're working with Bine so it's a cow
00:31:41
egg yes these eggs come from a
00:31:44
slaughterhouse and what I'm basically
00:31:45
doing is taking out all the DNA and
00:31:48
creating a blank for the uh uh actual
00:31:50
cloning process to to begin so in order
00:31:53
to clone you need an empty egg exactly
00:31:56
and so you're plunging this this glass
00:31:58
pipet into the egg and just suctioning
00:32:02
out the DNA yes it's an extremely
00:32:05
delicate operation it is you have to be
00:32:08
you have to have good hand eye
00:32:09
coordination and have to be gentle with
00:32:12
the eggs you don't want to don't want to
00:32:14
kill them and that's what's amazing
00:32:17
about cloning it doesn't require
00:32:19
particularly complicated chemistry just
00:32:22
a microscope a very sharp glass
00:32:24
needle and Incredibly steady hands
00:32:29
and I'll I'll go in with the pipe
00:32:31
pet and draw it up like juices from a
00:32:35
turkey I have to say it's extremely it's
00:32:37
fascinating to see it next Earl has to
00:32:41
Hoover up the cells containing the DNA
00:32:43
of the animal he wants to
00:32:45
clone these are cells grown from the
00:32:48
skin of the animal that we want to clone
00:32:51
exactly it amazes me that you can put a
00:32:54
a cell from a grown-up animal into an
00:32:58
empty egg and something
00:33:00
happens well the cell basically contains
00:33:03
the whole genetic makeup of that animal
00:33:06
you now insert the DNA of the animal you
00:33:08
want to clone into the empty egg one
00:33:11
cell into each egg you see there's a
00:33:13
little little pocket of space what I'll
00:33:15
do is puncture the egg and just
00:33:19
carefully deposit the cell in there last
00:33:22
of all you need to wake up the egg
00:33:24
containing the new DNA all it takes is a
00:33:28
spark of
00:33:31
electricity Earl May make it look easy
00:33:34
but in fact it's immensely difficult to
00:33:36
pull off in practice Dolly the sheep was
00:33:39
the only Survivor of 300
00:33:42
attempts but if you can Master it the
00:33:45
rewards are huge because once you found
00:33:48
your perfect animal you can create a
00:33:50
clone and repeat it Time After Time like
00:33:53
a biological
00:33:56
photocopier and it's not only farmers
00:33:58
who have their eye on this
00:34:00
[Music]
00:34:02
technology for our next appointment
00:34:05
let's head to the Stables to meet a
00:34:07
world famous sporting Duo who have just
00:34:09
made scientific
00:34:13
history hi M hi this is
00:34:19
Scamper so what's so special about this
00:34:21
horse um he's a 10- time world champion
00:34:24
barrel racing horse and he won those 10
00:34:27
champions ships consecutively what is
00:34:29
barrel racing exactly barrel racing is a
00:34:31
timed event around three Barrels in a
00:34:33
clover leaf pattern it's Ed so barrels
00:34:35
are in the ground the barrels are uh 50
00:34:38
gallon drums there's three of them Set
00:34:40
uh in a clover leaf pattern and uh it's
00:34:43
time to electronically right into the
00:34:45
hundredth of a second and when you ride
00:34:46
round and round and around as fast as
00:34:48
you can who was you riding him I yeah I
00:34:50
was the only one who rode him um Scamper
00:34:53
was a bron when he was young um and yeah
00:34:57
he uh he
00:34:58
he he bucked a lot of people off there's
00:35:01
no telling what kind of abuse he had
00:35:03
being that he was so mean he went
00:35:06
through three or four sail yards nobody
00:35:08
wanted
00:35:09
him so Scamper had a troubled childhood
00:35:12
but just when everyone else had given up
00:35:14
on him charmain came to his rescue it's
00:35:17
like Sea Biscuit it's a proper romance
00:35:19
yeah and I was a little 11-year-old girl
00:35:21
that just was horse crazy and and uh he
00:35:24
met me for the first time and we just
00:35:26
basically fell in love it was a match
00:35:29
match made in heaven love at first sight
00:35:32
Scamper made me who I was and what I was
00:35:34
and he did you know I lived every day of
00:35:36
my life with him for 10 years while I
00:35:38
was winning a world championship never
00:35:40
left him but all good things come to an
00:35:43
end so when did when did Scamper stop
00:35:45
racing he's been retired for around 10
00:35:47
years now so when he was retired did you
00:35:49
carry on racing on on different horses
00:35:51
yes and they weren't as good oh no what
00:35:53
was it they didn't have the other horses
00:35:56
they didn't have what whatever Scamper
00:35:58
was made of Scamper is a world famous
00:36:01
horse and in theory his genetics
00:36:03
basically his sperm are worth of Fortune
00:36:06
but in fact it's more complicated than
00:36:08
that and Scamper never had any children
00:36:12
no he's a gilding oh poor fellow and
00:36:15
when you met him he was he was already a
00:36:17
he was already a gilding so what do you
00:36:19
do when you've got a million dooll
00:36:20
racehorse on no way to reproduce him
00:36:23
well here on the farm there's an obvious
00:36:26
solution so he can't have children so
00:36:29
you've decided to clone him we decided
00:36:31
to clone him so we could get that same
00:36:33
genetics how did it come about how how
00:36:35
did they clone Scamper they took cells
00:36:37
from him or yeah they uh they took a
00:36:40
biopsy just a little small amount of
00:36:42
tissue from Scamper and uh of course we
00:36:45
Gan banked him and then when they had
00:36:47
the science to you Gene banked him
00:36:48
before they had the science yes and then
00:36:50
what they they they gave you a call when
00:36:52
they had the technology yes um when they
00:36:54
knew they had it right they said okay
00:36:56
we're ready to go
00:36:59
scamp's little clone is named
00:37:02
Clayton and the champion is about to
00:37:04
meet his younger
00:37:10
self there's Clayton
00:37:13
a well he looks pretty normal but this
00:37:16
is crazy stuff and I reckon it must be
00:37:19
even weirder for
00:37:20
Scamper have they met many times before
00:37:23
they this is the second time they've met
00:37:26
and Scamper is not real fun fond of
00:37:27
Clayton he likes his mama really yes so
00:37:32
he's protecting uh the mama from the
00:37:34
baby is he is that a kind of that's a
00:37:36
man thing that's a Scamper thing is this
00:37:39
chopping mouth is that a threat yes so
00:37:43
scampa doesn't think much of his clone
00:37:45
but what about charmain you see
00:37:47
similarities between the two already he
00:37:49
carries himself the same he has the same
00:37:51
arch in his neck um he's just very
00:37:55
confident the first time I saw him I
00:37:57
just couldn't take my eyes off of him I
00:37:59
just makes the hair on the back of your
00:38:01
neck stand out to to think to think that
00:38:04
this is how Scamper was when he was a
00:38:06
baby and and it's a it's real
00:38:09
emotional he doesn't look identical I
00:38:13
mean maybe that is that cuz he's young
00:38:14
is that is that what Scamper looked like
00:38:15
when he was a kid um I didn't see
00:38:17
Scamper when he was a baby but
00:38:19
confirmation wise the shoulder the the
00:38:23
hips everything looks the same from what
00:38:24
I understand the white migrates in the
00:38:27
womb so that has nothing to do with the
00:38:29
uh DNA Clayton's been created to do what
00:38:32
Scamper can't produce sperm which will
00:38:35
then be sold to other
00:38:37
breeders but what if it was scamp's
00:38:39
tough childhood more than his DNA that
00:38:41
took him to the top we are obviously
00:38:43
don't know how much of his past life
00:38:46
made him try as hard as what he did kind
00:38:49
of like the kids that grow up and bad
00:38:51
part of town and and they knew they had
00:38:54
to overcome a lot kind of the same thing
00:38:56
I guess only time will tell but while
00:38:58
Charmaine is delighted about Clayton's
00:39:00
arrival not everyone is thrilled that
00:39:02
he's
00:39:03
here we've had a few uh negative
00:39:06
comments um such as I think that we're
00:39:09
playing God and now that we've uh
00:39:11
created Clayton now what if they clone
00:39:14
Osama Bin
00:39:15
Laden that's what they said yes God how
00:39:18
many that would be scary but he wouldn't
00:39:20
be much good at barrel racing would he
00:39:21
Osama in spite of the Skeptics
00:39:24
charmaine's certain she's done the right
00:39:26
thing I think the people who really
00:39:28
don't understand the science behind it
00:39:31
may uh oppose it but the reasons I did
00:39:34
it were yeah I love Scamper but I have a
00:39:37
passion for great horses and their
00:39:39
ability and I've struggled with other
00:39:42
horses past him that had so many
00:39:44
physical problems from competing that
00:39:46
it's hard to get past all that and if we
00:39:48
can start breeding some horses that
00:39:51
stayed as sound as him mhm then uh I
00:39:54
think we're doing a real Noble thing
00:39:58
[Music]
00:40:00
so cloning is an irresistibly powerful
00:40:02
tool for some
00:40:06
breeders and it's been around a lot
00:40:08
longer than you might
00:40:12
think cloning to a lot of people I think
00:40:14
suggests a Xerox copy exactly what it
00:40:16
suggest to me and that's not that's
00:40:18
obviously not what it is I mean
00:40:20
technically speaking an identical twin
00:40:22
as a clone apples for example are all
00:40:25
clones almost all fruits is made by
00:40:28
grafting so as to avoid the U the
00:40:32
genetic Lottery um well every apple is a
00:40:35
is is is there's no there's no unique
00:40:36
apples um well we could grow them from
00:40:39
seed but then they' taste horrible and
00:40:40
would be useful only for making cider in
00:40:42
what sense is it a CL apples are grown
00:40:44
by grafting so that you don't have to
00:40:48
take the risk of sex sex breaks up good
00:40:50
Gene combinations The Offspring of an
00:40:52
apple that tastes good often don't taste
00:40:54
very good because the genes that made
00:40:57
the your Apple taste very good have been
00:40:59
shuffled up in that case let's accept
00:41:02
the fact that the cloning of an apple is
00:41:03
not especially scary is it that's not
00:41:05
the thing that worries people it's
00:41:06
cloning uh it's cloning people it's
00:41:07
cloning cloning cattle for the for for
00:41:10
eating that scares people why we don't
00:41:13
know what the long-term dangers are
00:41:15
likely to be is the species not
00:41:17
strengthened by constant cross
00:41:19
fertilization are we not storing up some
00:41:21
time bomb we might have a problem if
00:41:24
every cow on the planet was a clone but
00:41:26
we're not I mean that's not what's going
00:41:27
to happen would you eat a a clone yes
00:41:31
really absolutely would you uh I would
00:41:36
eat applesauce made from a cloned apple
00:41:39
with a normal Pig but I I wouldn't
00:41:41
wouldn't eat a Clon
00:41:45
Pig so Giles wouldn't eat a clone but as
00:41:48
his tour around the farm ends are there
00:41:51
any of the animals on our farm he would
00:41:53
be prepared to give the taste test
00:41:56
to they don't look very different dead
00:41:59
than alive do they I mean they're
00:42:02
they're still all muscle there's almost
00:42:03
no difference between the animal with
00:42:05
the skin on and the skin off you you're
00:42:07
quite you you're quite right yeah that's
00:42:08
right I mean you would say if you didn't
00:42:11
know that this had been selectively bred
00:42:13
over 100 years to get to this stage and
00:42:15
that it was just an animal randomly
00:42:17
killed and you would say that that
00:42:19
animal must have had a very a very
00:42:21
strenuous life I mean you know that why
00:42:23
has this animal got all these muscles it
00:42:24
must be for a reason but then the meat
00:42:26
wouldn't be very good because that meat
00:42:27
would be very tough you see so the
00:42:29
beauty of the Belgian Blue is that
00:42:30
because of that double muscle all the
00:42:32
food is converted into um muscle but
00:42:36
these muscle remain very tender you
00:42:39
see now for the Moment of Truth has all
00:42:43
the effort been
00:42:44
worthwhile what will this ultr lean
00:42:46
double muscled meat actually taste
00:42:52
of that is very very lean no fat at all
00:42:57
[Music]
00:43:03
so this uh double muscle Belgian Blue
00:43:05
Steak is not genetically modified it's
00:43:07
been specifically selected over
00:43:09
Generations 30 or 40 years it's all
00:43:11
muscle there's no fat generally speaking
00:43:13
English people like me I generally think
00:43:15
that you need fat on a on a steak to
00:43:17
give it the flavor that that's where the
00:43:18
interest lies but can they really taste
00:43:19
of anything at
00:43:21
all we about to find
00:43:24
out thank you very much was
00:43:36
see doesn't taste of anything at
00:43:43
all very
00:43:47
chewy it's a bit like biting your
00:43:51
tongue I don't know why you put all that
00:43:53
time and energy into this
00:43:58
H tastes like
00:44:02
horse so the Belgian Blues aren't to
00:44:05
everyone's
00:44:07
taste but as our tour around the farm
00:44:09
comes to a close Olivia has one last
00:44:13
surprise up her sleeve and it's one of
00:44:16
the most revolutionary Concepts we've
00:44:18
encountered you will never have seen
00:44:21
this
00:44:22
before one possible use of genetic
00:44:25
technology is to just get rid of the
00:44:27
animal all together and just grow steaks
00:44:29
in Vats um I know this this looks a bit
00:44:32
unappetizing um oh
00:44:34
no it's a depends what it is well it's a
00:44:38
prototype steak in a vat this is meat
00:44:41
grown in a Petri dish a burger from
00:44:44
mince that has never been part of a cow
00:44:46
or bull it opens up a world where no
00:44:48
animals need live or die to feed you
00:44:52
it's from Grown from stem cells it's
00:44:54
it's grown from stem cells not human
00:44:56
stem cells cow stem cells
00:44:58
right this prototype non-animal Burger
00:45:02
may look slightly odd but you could just
00:45:05
be looking at the future of
00:45:07
food you could eventually you could just
00:45:10
grow a hamburger in a vat or grow a
00:45:13
large piece of breast meat in a vat and
00:45:15
get rid of the animal alt together and
00:45:17
so if you're worried about the ethical
00:45:18
treatment of animals you might then want
00:45:20
start eating meat again surely you
00:45:22
couldn't make one of these tasty prob
00:45:23
the life of the animal is what makes the
00:45:24
thing tasty isn't it I mean I have to do
00:45:27
the
00:45:28
experiment next time on Animal Farm we
00:45:32
look at how biotechnology is changing
00:45:34
the world of
00:45:35
medicine we meet the cows that are
00:45:38
milked for their
00:45:39
blood the sheep with humanized organs
00:45:43
and the mice who can regenerate
00:45:47
themselves um we we have uh gone to all
00:45:50
this trouble to prepare this food so uh
00:45:52
might as well eat it do you want to do
00:45:54
you want to start with the do you want
00:45:55
to carve the super salmon oh
00:45:58
cheers to genetic modification to Mother
00:46:01
Nature
00:46:02
[Music]