Instant Genius - Genes and heredity - Everything you ever wanted to know about... the biology of life with Sir Paul Nurse

Episode Date: November 25, 2020

For this instalment in the Everything you ever wanted to know about... series, we’ve sourced questions from Google, our listeners and the Science Focus team to put to experts and help you understan...d key ideas in science, in short episodes. This week, we're joined by geneticist Sir Paul Nurse, the Director of the Francis Crick Institute in London and one of the recipients of the 2001 Nobel Prize in Physiology or Medicine, which he shared with Leland Hartwell and Timothy Hunt. Paul has recently published a book that helps readers understand biology, called What is Life? (£9.99, David Fickling Books). He shared some of the concepts from the books with us over two quick-fire episodes. Hosted on Acast. See acast.com/privacy for more information. Learn more about your ad choices. Visit podcastchoices.com/adchoices

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Starting point is 00:02:24 Hello and welcome back to the everything you wanted to know about podcast from the team behind BBC Science Focus magazine. I'm joined by Sir Paul Nurse for the second and final part of our series on biology. Last time we talked cells, DNA and genes. And today we'll be linking these concepts to mutations, evolution, Charles Darwin and even the poetry of his grandfather, Erasmus. So in the last episode, you explained to us how genes are the basis of hereditary. But Paul, how did genes get passed on?
Starting point is 00:02:58 Heredity is central to life. Every time a cell reproduces itself, it copies its genes, the basis of heredity. And what those genes do is essentially encode the information that cells need to grow, divide, reproduce. And that information is also the basis for ourselves. We're made up of many, many cells, of course. But when we reproduce, we reproduce through a single cell. So we receive those genes through the sperm, which is one cell, and the egg, which is another, that come together. And it is through heredity that we get evolution by natural selection.
Starting point is 00:03:48 So let me just sort of describe that very briefly. This is Charles Darwin's great idea. And it works like this, really. So, and I'm going to talk about it, not in terms of human beings or plants and so on, but back to cells. cells show it in its simplest form. So imagine you've got cells growing and reproducing. And let's imagine they've got, say, a red coat. And let's say that the red coat is very attractive to a predator,
Starting point is 00:04:22 likes eating cells which are red. Okay. So now that red coat is caused by a gene, which says have a red coat. Now, let's now imagine a mutation occurs in that gene, so the coat is blue, right? Now, maybe if you're a blue cell, your predator doesn't like to eat you. It doesn't like the look of you, okay? So if you now have a mutation that makes a blue cell, that won't be eaten, and so that survives and divides much more efficiently than a red cell.
Starting point is 00:04:57 So you've turned a red cell into a blue cell, and that blue cell works better because it doesn't get eaten by something else. And that's a very simple example of evolution by natural selection. And if you imagine that happening in far more complicated situations like our reproduction, then you can see how you acquire properties which have purpose that help you live better entirely without planning just by accident. And that's the beauty of this idea. You don't need a creator or a designer. It just happens that the variation that the hereditary brings about is selected for variation that actually works and is more effective
Starting point is 00:05:43 at allowing the cells or the organisms to grow and reproduce. And so you get operation as a whole through this very random process. and it's a way of getting function and things working without having them being designed. But so if mutations are key to it, how does a mutation actually happen? Yes, it's a good question. Mutations happen in a variety of ways. The first way is that because genes are made up of these bases, AGCT, they have to be copied precisely every time they are replicated or doubled.
Starting point is 00:06:31 But occasionally there'll be a mistake. So you might change an A into a G, for example. And then you have a mutation. So it occurs naturally just because of a low level of error in the way you copy DNA. It can also occur mutations if you have a data. a DNA damaging agent. So sunlight is got UV, and that can damage the DNA in your cells,
Starting point is 00:07:00 and that can cause mutations, which is why certain cancers are caused by sunlight because they damage the genes important for controlling the division of cells, and that can lead to cancer. So DNA damage can be caused by UV light or by chemicals. So there's two main ways of doing it. One is just normal processing of making a bit of a mistake when you copy DNA. Another is an external effect like radiation or a chemical.
Starting point is 00:07:36 But not all mutations will lead to an aspect of evolution of a cell. No, that's true too. It's entirely random. So some mutations will just destroy the gene and kill the cell or kill the organism. Others will change the way it works. In the example I used of a red-coated cell becoming a blue-coated cell, it changes it from red to blue, and that may have consequences. Often the consequences don't help the cell or the organism very much, and just occasionally it does, and it makes it work better. And then that's what is selected for during evolution. So you say evolution by natural selection.
Starting point is 00:08:23 So they're not the same thing, is that right? Evolution by natural selection. Evolution is the change, the change of an organism and eventually a species. Natural selection is because you select naturally, like animals in the African plane who can run faster, can run away from a lion, for example, and that's natural selection. But actually, we can also use artificial selection, human beings. And this is the way that Darwin started to think about this.
Starting point is 00:09:03 Because you know there's people who breed pigeons, pigeon fanciers, and you get lots of different types of pigeons. And Charles Darwin used to go and talk to the pigeon fanciers and breeders. So let's say they wanted a pigeon with a big tail. they would select pigeons with big tails and mate them together. So this was artificially selecting who should mate with who. So you get bigger tails. And that's pigeon fancying.
Starting point is 00:09:33 But actually, that's been really important. The agricultural revolution 10,000 years ago, when we got wheat and barley and rice and so on, was because our ancestors noticed that certain plants they saw in the wild, had bigger seeds and then selected them, crossed them together, and gradually selected new plants that actually we could now turn into agriculture. So the whole basis of agriculture depends upon artificial evolution by artificial selection. That's why we can now feed so many more people today than we could have done when we were Stone Age peoples. So that seems to have happened
Starting point is 00:10:18 quite quickly that artificial selection of a particular type? Artificial selection can work much more quickly than natural selection because you select what you want. And so the agricultural revolution, I mean, it worked over several thousands of years. It just gradually got better and better. But even so in evolutionary terms, that's a very short time.
Starting point is 00:10:43 And pigeon fanciers, of course, can do it really rather quickly because you see the whole range of different pigeons. Dog fanciers is another one. I mean, look at the immense range of different dogs from a little poodle through to the Great Dane. And that's all produced from dogs, which came from wolves originally, and they've been selected for different purposes
Starting point is 00:11:09 to look right, to run fast, to hunt. And so we've got a whole range of different dogs which have been produced by artificial selection. And so you've mentioned Charles Darwin and he was really key to all of our understanding about evolution and natural selection. Is that right? It is. He was a 19th century biologist. He was quite a comfortable off man. So he was an amateur scientist because he could afford just to live on his inheritance. And he lived in Kent, actually. But he was famous because he was. on a long voyage round the world in a Royal Naval Ship called HMS Beagle. And there he collected lots of plants and animals and studied them in the wild.
Starting point is 00:12:02 And that's where he got his ideas from. But he wasn't the first to suggest evolution. But he was very important to suggest the idea of evolution by natural selection. Evolution, that is that animals and plants can change, had been talked about for 100 years before, including by Charles Darwin's grandfather, who was a very interesting character called Erasmus Darwin, who lived in Litchfield and then in Derby.
Starting point is 00:12:36 He's a fascinating character. He was a doctor. He wrote all his science up in the form of poetry. I've got some of his original books. So it's all verse. It's very entertaining or fairly entertaining to read it. And he was a doctor. He only charged his rich patients because he treated poor patients because they couldn't afford him.
Starting point is 00:13:03 He was a very good doctor, but largely because he had one very good skill. He could tell you whether you were likely to die or not. and that meant that if you were ill, you could put your things in order, but if you were going to recover, then you didn't have to put them in order. And that might have been quite important because you might upset people with a different sort of will, I suppose. So he was very good at that. He was a very, he was a Republican.
Starting point is 00:13:33 He was asked to be, I believe, the doctor of George III, which I think he refused to do. He was interested in all sorts of things. And he belonged to a society called the Looke, Luna Society. This was a scientific society that met in the Midlands, nothing to do with universities or anything. It had people like Wedgwood, who was the potter and Erasmus Darwin and so on. And they used to meet once a month under the full moon, which is why they were called the Lunar Society. And they had a good dinner. I suspect they drank quite a lot of good wine. And then they rode home under the full moon after that. Is that still a society today? Do you know it still is? It gets, it sort of comes and goes.
Starting point is 00:14:23 And I've actually spoken at the Lunar Society. In fact, I think probably more than once. I'm not sure it's active at the moment, but it's definitely been active during my lifetime. That's amazing. Your book is called What is Life? And it wouldn't be right of me to do this interview without asking you, what is life?
Starting point is 00:14:47 Well, I'll have a go at answering it. I have to say it's quite a difficult, it's very easy to ask. It's not quite so easy to answer, and it's a bit complicated because you can't answer it like a dictionary, you know, there's one sentence that defines it. But what you can do is take the five ideas that I talk about in my book and sort of boil them down to several principles. And the first is that living thing, to describe living things. And living things are chemical and informational machines based on cells. And that allows them to make themselves, to maintain themselves, and to reproduce themselves. So that's the first
Starting point is 00:15:36 principle. The second one is that they have a hereditary system based on genes. and genes are found in all cells, of course. And these genes are handed down through the generations. Now, if you have a living thing which has those properties, then that allows them to evolve by natural selection. Because if the genes exhibit variability, then they can evolve by natural selection and acquire purposeful behaviors.
Starting point is 00:16:09 They acquire purpose. And so that allows life, which is a physical thing, to actually get functions and processes that leave acting as a whole as purposeful to purposeful behaviours. On our planet, life is based upon DNA, RNA that DNA makes and also proteins. And we haven't talked about this yet, but all of these are chemical polymers. that is, just as DNA is made of AG, C, and T, RNA has got similar bases. Proteins have, and so they're like four letters, AG, CT. Proteins have got 20 letters. And the DNA encodes proteins with a particular sequence.
Starting point is 00:16:58 And it's the proteins that actually do most of the chemistry of life. So we, our life, all of us, from bacteria to us, is based on that chemistry. Now, I don't know what life looks like on elsewhere. Nobody does. We've been hearing recently about life forms maybe in the atmosphere of Venus. We don't know what it might look like. But I have a hunch that it will probably also be based on polymers because polymers can encode information. You know, if you take a computer, it's lots of bytes, bits. if you read a sentence, each word is made up of letters. If you're hearing both of us talk, we're talking with letters. All of this is digital, really, it's chains. And the chemistry, polymer chemistry is also a chain. So what you get with a chemical polymer is chemistry that can do chemical reactions,
Starting point is 00:18:02 but it also can encode information as well. and that is very special. What kind of information could it possibly encode? Well, if you think a protein, it does chemistry, and that depends on having amino acids, which is what makes up proteins, in a certain order in a chain, and with certain chemistry,
Starting point is 00:18:26 they might be have positive charge or negative charge, they might like water or not like water. There's all different chemical properties. which, and that determines what they can do. And what they can do is determined by the DNA and the sequence of the nucleotides that make it. So it's an amazing system where you have both information encoded. It's an informational machine and that encodes chemistry and it's a chemistry machine.
Starting point is 00:18:59 So what I was going to say is, I don't know what the chemistry of life will be on, you know, Neptune or whatever, or Venus maybe, but I'm pretty certain that it will be based on polymers. And all of this research you've done, you've talked about working with yeast for a long time in your career. Where did the fascination with biology, cells and life for you come from? Well, what I remember, I've always been interested in living things. And I sort of remember once when I was, I think, just a teenager. And I was sitting in my garden, which was in
Starting point is 00:19:40 northwest London, in Wembley, where the stadium is. And a yellow butterfly flew over the fence. It was a brimstone yellow. It was early spring. They come out in March. And I watched the yellow butterfly, and it flitted about and it settled on a flower, had a little feed, I think, and then I think I disturbed it and it flew up and he went over the other fence going the other way. And I remember thinking, you know, this butterfly is really a bit like me, but it's also obviously very different. So what is the same about a yellow butterfly, brimstone yellow, and me? And I think that was the start of me thinking about biology, to be quite honest. and then, of course, I was taught it at school.
Starting point is 00:20:31 But it was just looking at living things and thinking, what is the basis of that? And how is it like me and how is it different? And my book goes into this, but it's amazing, really, because of evolution by natural selection, we're related to every living thing on this planet. So that butterfly is sort of my relative. And, you know, if you think more profound,
Starting point is 00:20:58 about that, you think, well, we have a responsibility to look after our relatives, and we need to care for the biosphere, for all the living things you find there, because we're related to them. And not only that, but actually we depend on them too. All the food we eat, the plants and animals and fish, if we didn't have them, we couldn't survive. And the natural environment around us, is so enriched by animals and plants, insects and so on there, and we interact very closely with all living things. And so we're all connected, connected because we're related to each other, connected because we're dependent upon each other.
Starting point is 00:21:47 And that's why it's so important that we maintain the biosphere. And I actually, and the other life forms, we have a responsibility for them, is how I say it, a responsibility. That's how I end my book, actually. I say we have a responsibility for all life. And what I try to do with the book is to say, is to explain what life is, so we care better for life. That was Sir Paul Nurse talking about inheritance,
Starting point is 00:22:17 evolution by natural selection, and his lifelong passion for biology. If you've enjoyed this podcast episode, please do subscribe wherever you're listening to us. And for more big ideas about life, Visit sciencefocus.com or check out BBC ScienceFocus magazine on Twitter, Facebook and Instagram. Thank you for listening to the Science Focus podcast from the BBC Science Focus magazine team. With the UK's bestselling science and technology monthly, available in print and in several digital formats throughout the world. Find out more at sciencefocus.com or look out for us in your app store.
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