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  • So, I'm here with my famous

  • "Chemists and Nobel Prizewinners" tie

  • (Brady gave it to me),

  • and we're waiting for the 2015

  • Nobel Prize in Chemistry to be announced.

  • And as usual, I have absolutely no idea

  • who it's going to go to,

  • which is what makes it really quite fun.

  • But you'll remember sometimes it goes to...

  • more to Biology than to Chemistry

  • because there isn't a Nobel Prize for Biology.

  • We've already got some chemistry in the Medicine prize,

  • so Chemistry has been recognized at least a bit already.

  • So let's see what happens with Chemistry.

  • [Brady] You going to give us a prediction?

  • I have absolutely no idea who it will be.

  • Somebody suggested it might be for

  • lithium ion batteries, the battery on the mobile phone

  • that you may be watching this on at the moment,

  • but... who knows?

  • It's always the really exciting moment now.

  • [Göran K. Hansson] (The Royal Swedish) Academy

  • of Sciences has decided to award the 2015

  • Nobel Prize in Chemistry jointly to Tomas Lindahl,

  • Paul Modrich, and Aziz Sancar.

  • So, I've rushed off and got a DNA model.

  • I went into the coffee room and asked who'd got one.

  • The only one I can find is this one, which is a bit dusty,

  • and, like the damaged DNA in the Nobel Prize,

  • this one's also damaged.

  • So, I went back to the coffee room, and got

  • something a bit more reliable.

  • These are the spares for the old coffee machine.

  • Unfortunately we don't use that coffee machine

  • anymore, so I'm a bit restricted in what I've got

  • for the model, but it's enough for you to understand.

  • Just remember: your genetic information,

  • genetic information of all living things in the world,

  • are transmitted through DNA.

  • DNA is a molecule that has two chains linked together.

  • The linkages between the two chains are what carries

  • the genetic information, and can be translated

  • into the making of proteins in your body.

  • In the Nobel announcement,

  • the lady who was explaining it said that

  • each of our bodies has enough DNA

  • which if it was stretched out would go

  • to the sun and back from the Earth 250 times.

  • So there's an awful lot of it.

  • Each time a cell divides, the DNA has to be

  • replicated because one pair of chains

  • has to be made into two pairs of chains,

  • one for each of the new cells.

  • When that happens, mistakes can be made,

  • and the chemistry inside our cells

  • can also damage the DNA.

  • And this damage happens very quickly

  • 200 times a day, perhaps, for a given cell,

  • so if there wasn't a mechanism to repair this damage,

  • then we'd all die before we were even born.

  • Now Brady, who is very astute,

  • says that really what this Nobel Prize is for

  • is the "DNA Spell Checker." That is, correcting mistakes

  • rather like a spell checker.

  • But actually it's better than a spell checker,

  • because I don't know about your spell checker,

  • but mine sometimes puts in completely the wrong word

  • because it misguesses what we've done.

  • Now, let me try and explain to you,

  • and before I explain, it's important to realise

  • that there are lots of different ways

  • that DNA can be damaged and repaired.

  • But this is a really high speed explanation,

  • and we really need to do a proper video about DNA

  • and that will be coming quite soon, I hope.

  • But for the moment, what happens with DNA

  • is that you have two chains

  • which are indicated by this white piece of plastic,

  • and inbetween you have so-called "base pairs,"

  • which, for this, I've just indicated

  • the things that pair together are either lime green

  • or dark green.

  • It's slightly more complicated, but for this that's enough.

  • Now, the first sort of mistake

  • is that one of the DNA chains,

  • the one that's growing, could have the wrong pair.

  • If we look at this, and this is just a tiny, tiny piece

  • of the DNA chain, which would go on for miles

  • in either direction.

  • So here you have dark green, dark green,

  • lime, lime, dark, lime, and then here there's a mismatch.

  • Now if you imagine that the one on this side

  • is the chain that's growing, that's being synthesised,

  • the way the spell checking works is that it knows

  • which one is the good copy, so it can spot the mistake.

  • It should have been dark green, and it's lime green.

  • So what happens is that there are enzymes

  • in the mechanism that chops out the bit that's bad,

  • and puts in the new one.

  • You have to imagine that in the cell,

  • there are lots of these free things swimming around,

  • so you can always throw one away

  • and add another one.

  • It's just like (in theory, at least) on your computer,

  • there's an infinite supply of letters,

  • so if you type an "O" instead of an "A,"

  • you just throw away the O and type another A.

  • So, the first way

  • is that you could just chop these things out.

  • There is another sort of mistake where

  • there's a chemical reaction that damages

  • one of these bases and actually, for example,

  • turns this into something else, which I've done red,

  • which is, for those of you biochemists,

  • is usually indicated with the letter "U,"

  • so this one is one that shouldn't be in DNA at all.

  • So there is another mechanism,

  • that was discovered by Tomas Lindahl,

  • where this is chopped out,

  • and the right one is put in instead.

  • The final sort of mechanism is the one which

  • it causes, or is thought to cause

  • some sort of skin cancer from the UV light from the sun.

  • And this is slightly different, where everything is okay

  • in the completed DNA chain,

  • and then the UV light comes

  • (the UV light, I'm showing with this stapler),

  • and it just staples two of the bases together,

  • the so-called "thymine."

  • What it does is the UV light changes one of the

  • thymine molecules so it reacts with its neighbour.

  • This only happens where there are two of them

  • next to each other, and of course

  • that messes everything up.

  • But there is a different mechanism

  • which was discovered by the researchers

  • in the United States, which chops out these pairs

  • that are joined together and replaces them

  • with two more T's, which are not joined together.

  • Now the importance of all of this is that

  • it's what keeps us alive.

  • It's understanding the fundamental mechanisms.

  • There are other ways that DNA can be damaged,

  • for example, if you smoke some of the chemicals

  • that come out in the cigarette smoke

  • can interact with the DNA and damage the bases,

  • and there are mechanisms that detect this

  • and deal with it.

  • Of course, smoking has not been around very long,

  • so evolution has not got a special anti-smoking

  • repair mechanism, but what it has done

  • is to have a mechanism, a generalized mechanism

  • to detect things are wrong and weed them out.

  • Speaking of DNA damage,

  • I took this out of my colleague's office

  • while he was giving a lecture; didn't even ask him,

  • so don't tell him that I actually dropped a piece

  • and trod on it!

  • So we'll never repair the damage to this DNA,

  • but all being well, the mutation won't cause

  • any serious problem.

  • ...and you can see, I can't read it from here,

  • but it's about 173 grams.

So, I'm here with my famous

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2015年諾貝爾化學獎----------------------視頻週期表 (The 2015 Nobel Prize in Chemistry - Periodic Table of Videos)

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    林宜悉 發佈於 2021 年 01 月 14 日
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