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These are the user uploaded subtitles that are being translated: 1 00:00:01,405 --> 00:00:03,138 ♪ 2 00:00:06,905 --> 00:00:08,738 ♪ 3 00:00:08,771 --> 00:00:12,371 DAVID POGUE: What's it take to make our modern world? 4 00:00:12,405 --> 00:00:13,238 Ah! 5 00:00:13,271 --> 00:00:14,138 (Pogue shouts) 6 00:00:14,171 --> 00:00:15,671 That's amazing! 7 00:00:15,705 --> 00:00:18,271 I'm David Pogue. 8 00:00:18,305 --> 00:00:21,838 {\an1}Join me on a high-speed chase 9 00:00:21,871 --> 00:00:24,238 {\an1}through the elements... 10 00:00:24,271 --> 00:00:25,771 and beyond. 11 00:00:25,805 --> 00:00:26,971 (explosions) 12 00:00:27,005 --> 00:00:28,038 Oh, my God! 13 00:00:28,071 --> 00:00:30,438 {\an1}As we smash our way into the materials, 14 00:00:30,471 --> 00:00:31,471 molecules, 15 00:00:31,505 --> 00:00:32,538 and reactions... 16 00:00:32,571 --> 00:00:33,814 AMANDA CAVANAGH: It's a really cool enzyme 17 00:00:33,838 --> 00:00:35,314 {\an1}because it makes life on Earth possible. 18 00:00:35,338 --> 00:00:38,005 POGUE: that make the places we live, 19 00:00:38,038 --> 00:00:39,705 the bodies we live in, 20 00:00:39,738 --> 00:00:43,071 {\an1}and the stuff we can't seem to live without. 21 00:00:43,105 --> 00:00:46,005 {\an1}The only thing between me and certain death... 22 00:00:46,038 --> 00:00:47,538 {\an1}(explosions boom, glass shatters) 23 00:00:47,571 --> 00:00:49,105 is chemistry? 24 00:00:49,138 --> 00:00:51,005 {\an1}From killer snails... 25 00:00:51,038 --> 00:00:52,614 MANDEË HOLFORD: Just when you think you've heard of everything, 26 00:00:52,638 --> 00:00:53,805 {\an1}nature will surprise you. 27 00:00:53,838 --> 00:00:56,105 POGUE: and exploding glass 28 00:00:56,138 --> 00:00:59,505 {\an1}to the price a pepper-eating Pogue pays. 29 00:00:59,538 --> 00:01:02,371 {\an1}There's got to be some easier way to learn about molecules. 30 00:01:02,405 --> 00:01:03,738 ♪ 31 00:01:03,771 --> 00:01:06,271 We'll dig into the surprising way 32 00:01:06,305 --> 00:01:10,238 {\an1}different elements combine together 33 00:01:10,271 --> 00:01:12,538 and blow apart. 34 00:01:12,571 --> 00:01:14,538 (loud explosion) 35 00:01:15,438 --> 00:01:18,205 In this hour, 36 00:01:18,238 --> 00:01:21,005 {\an1}we tackle one of the biggest mysteries of all: 37 00:01:21,038 --> 00:01:23,371 {\an1}the origin of life. 38 00:01:23,405 --> 00:01:25,038 {\an1}How do a bunch of chemicals get together 39 00:01:25,071 --> 00:01:26,371 {\an1}and start acting like a cell? 40 00:01:26,405 --> 00:01:28,671 POGUE: Part of the answer might be... 41 00:01:28,705 --> 00:01:29,871 soap? 42 00:01:29,905 --> 00:01:31,271 Cell division! 43 00:01:31,305 --> 00:01:34,705 {\an1}We explore how the chemistryof life transformed the planet. 44 00:01:34,738 --> 00:01:36,114 LISA AINSWORTH: So everything that we eat, 45 00:01:36,138 --> 00:01:37,638 {\an1}and the air that we breathe, 46 00:01:37,671 --> 00:01:38,871 all have to do 47 00:01:38,905 --> 00:01:41,205 with the process of photosynthesis. 48 00:01:41,238 --> 00:01:43,014 POGUE: All right, so let's find the lipids aisle. 49 00:01:43,038 --> 00:01:47,638 {\an1}I go shopping for the macromolecules of my body. 50 00:01:47,671 --> 00:01:51,271 {\an1}You're telling me that that'sonly half the amount of fats 51 00:01:51,305 --> 00:01:52,605 {\an1}in my body? Absolutely. 52 00:01:52,638 --> 00:01:54,105 (laughing) 53 00:01:54,138 --> 00:01:57,205 POGUE: And I meet an engineer who uses nature's tools 54 00:01:57,238 --> 00:01:59,638 {\an1}to invent new molecules. 55 00:01:59,671 --> 00:02:01,511 FRANCES ARNOLD: Humans have been using microbes 56 00:02:01,538 --> 00:02:02,671 to make beer and wine. 57 00:02:02,705 --> 00:02:05,638 {\an1}Instead of making sake, we make jet fuel. 58 00:02:05,671 --> 00:02:08,538 POGUE: "Beyond the Elements: Life"... 59 00:02:08,571 --> 00:02:11,071 {\an1}right now on "NOVA". 60 00:02:11,105 --> 00:02:19,105 ♪ 61 00:02:26,038 --> 00:02:31,171 ♪ 62 00:02:32,505 --> 00:02:36,305 POGUE: The world we live in is made of atoms... 63 00:02:36,338 --> 00:02:40,405 {\an1}all listed here as elements on the periodic table. 64 00:02:40,438 --> 00:02:43,971 {\an1}They're the building blocks of everything around us 65 00:02:44,005 --> 00:02:47,905 {\an1}and putting atoms togetherto make molecules and compounds 66 00:02:47,938 --> 00:02:51,005 {\an1}is what we call chemistry. 67 00:02:51,038 --> 00:02:54,938 {\an1}And maybe the strangest event in the history of chemistry 68 00:02:54,971 --> 00:02:57,905 {\an1}is the birth of biology. 69 00:02:57,938 --> 00:03:01,605 {\an1}How do a bunch of chemicals somehow get together 70 00:03:01,638 --> 00:03:04,571 to form life? 71 00:03:04,605 --> 00:03:07,138 {\an1}And if you look back at the conditions on early Earth, 72 00:03:07,171 --> 00:03:09,871 {\an1}how did life get off the starting block? 73 00:03:09,905 --> 00:03:13,005 {\an1}(thunder rumbles) 74 00:03:13,038 --> 00:03:14,305 {\an1}There was a turning point, 75 00:03:14,338 --> 00:03:16,638 {\an1}the evolution of a transformative series 76 00:03:16,671 --> 00:03:19,971 {\an1}of chemical reactions that, over time, 77 00:03:20,005 --> 00:03:21,505 {\an1}remade the planet, 78 00:03:21,538 --> 00:03:24,405 {\an1}even allowing us to come along. 79 00:03:24,438 --> 00:03:27,638 {\an8}But first, let's take a trip back, 80 00:03:27,671 --> 00:03:29,671 {\an8}to Life 1.0. 81 00:03:29,705 --> 00:03:31,871 (tape rewinding) 82 00:03:31,905 --> 00:03:35,038 {\an1}So, here's the ad: 83 00:03:35,071 --> 00:03:38,471 {\an1}Planet available. 84 00:03:38,505 --> 00:03:41,671 {\an7}Recently scoured by asteroids. 85 00:03:41,705 --> 00:03:45,205 {\an7}New construction. 86 00:03:45,238 --> 00:03:46,638 {\an7}Now with many water views. 87 00:03:46,671 --> 00:03:49,038 {\an8}♪ 88 00:03:49,071 --> 00:03:50,805 The atmosphere? 89 00:03:50,838 --> 00:03:52,438 {\an1}Eh... a fixer-upper. 90 00:03:52,471 --> 00:03:53,605 {\an8}(loud eruption) 91 00:03:53,638 --> 00:03:55,305 {\an7}Devoid of oxygen. 92 00:03:55,338 --> 00:04:00,338 {\an7}Likely full of whatever the volcanoes spewed forth... 93 00:04:00,371 --> 00:04:04,905 {\an7}gases like hydrogen sulfide and methane. 94 00:04:04,938 --> 00:04:06,371 {\an8}(loud eruption) 95 00:04:06,405 --> 00:04:09,038 {\an7}Somehow in that very harsh environment, 96 00:04:09,071 --> 00:04:12,871 {\an7}primitive life got its start. 97 00:04:12,905 --> 00:04:16,005 {\an7}But the going stayed tough. 98 00:04:16,038 --> 00:04:18,671 {\an7}Food... molecules and minerals that early organisms 99 00:04:18,705 --> 00:04:20,205 {\an7}could use for energy... 100 00:04:20,238 --> 00:04:24,405 {\an7}consisted of whatever was left over from Earth's formation, 101 00:04:24,438 --> 00:04:27,738 {\an1}or was welling up from the Earth's core 102 00:04:27,771 --> 00:04:31,471 {\an1}at places like deep sea vents. 103 00:04:31,505 --> 00:04:35,205 {\an1}But in a surprisingly short amount of time... 104 00:04:35,238 --> 00:04:38,338 {\an1}perhaps 500 million years... 105 00:04:38,371 --> 00:04:41,771 {\an1}a new survival strategy evolved... 106 00:04:41,805 --> 00:04:44,438 {\an1}possibly the most important chemical process for life 107 00:04:44,471 --> 00:04:46,171 {\an1}on Earth today... 108 00:04:48,838 --> 00:04:51,771 Photosynthesis... 109 00:04:51,805 --> 00:04:56,738 The ability to turn sunlight into fuel. 110 00:04:58,671 --> 00:05:02,171 Life now had access to the vast power of the sun. 111 00:05:02,205 --> 00:05:05,771 {\an1}In the words of one biologist, "When photosynthesis 112 00:05:05,805 --> 00:05:08,838 {\an1}"entered the picture, 113 00:05:08,871 --> 00:05:11,671 life connected up to the cosmos." 114 00:05:11,705 --> 00:05:13,638 ♪ 115 00:05:13,671 --> 00:05:16,171 AINSWORTH: So, everything that we eat, what we wear, 116 00:05:16,205 --> 00:05:18,005 {\an1}the air that we breathe, 117 00:05:18,038 --> 00:05:22,138 {\an7}the ecosystem services that we rely on... 118 00:05:22,171 --> 00:05:23,671 {\an7}so things like having clean water... 119 00:05:23,705 --> 00:05:27,438 {\an7}all have to do with the process of photosynthesis. 120 00:05:27,471 --> 00:05:28,705 {\an1}It's an incredibly important, 121 00:05:28,738 --> 00:05:31,905 {\an1}probably the most important, process on the planet. 122 00:05:31,938 --> 00:05:34,138 ♪ 123 00:05:34,171 --> 00:05:36,838 POGUE: Photosynthesis harnesses the power of sunlight 124 00:05:36,871 --> 00:05:40,471 {\an1}to break down water molecules. 125 00:05:40,505 --> 00:05:42,471 {\an1}Discarding the oxygen, it uses the electrons 126 00:05:42,505 --> 00:05:45,671 {\an1}from the hydrogen atoms to power the assembly 127 00:05:45,705 --> 00:05:49,571 {\an1}of carbon dioxide molecules into carbohydrates, 128 00:05:49,605 --> 00:05:52,105 {\an7}which become both building blocks 129 00:05:52,138 --> 00:05:56,038 {\an7}and long-term energy storage. 130 00:05:56,071 --> 00:05:58,971 {\an7}It's not an overstatement to say that all life on this planet 131 00:05:59,005 --> 00:06:00,905 {\an7}depends on photosynthesis. 132 00:06:02,405 --> 00:06:04,838 STEVE LONG: It's exactly where all of our food comes from... 133 00:06:04,871 --> 00:06:07,471 {\an1}directly or indirectly. 134 00:06:07,505 --> 00:06:10,605 {\an8}So understanding how this process works 135 00:06:10,638 --> 00:06:12,771 {\an7}is so important to humanity. 136 00:06:12,805 --> 00:06:16,105 POGUE: Steve Long and Don Ort, 137 00:06:16,138 --> 00:06:17,971 {\an1}two plant biologists 138 00:06:18,005 --> 00:06:21,038 {\an1}at the University of Illinois Urbana-Champaign, 139 00:06:21,071 --> 00:06:24,705 {\an1}along with thousands of otherscientists from around the world 140 00:06:24,738 --> 00:06:30,038 {\an1}have spent decades teasing apartthe workings of photosynthesis. 141 00:06:30,071 --> 00:06:31,371 {\an1}Light intensity is 900 right now? 142 00:06:31,405 --> 00:06:33,571 {\an5}Right now, yeah. Oh yeah. For... that makes sense. 143 00:06:33,605 --> 00:06:36,305 Sorghum is animportant grain. 144 00:06:36,338 --> 00:06:38,505 POGUE: Now, with that knowledge in hand, 145 00:06:38,538 --> 00:06:42,971 {\an1}there is a new international research effort based here 146 00:06:43,005 --> 00:06:47,005 {\an1}at the university with an audacious goal. 147 00:06:47,038 --> 00:06:48,238 ♪ 148 00:06:48,271 --> 00:06:50,605 {\an1}The program's called RIPE: 149 00:06:50,638 --> 00:06:53,771 {\an1}Realizing Increased Photosynthetic Efficiency. 150 00:06:53,805 --> 00:06:55,005 WOMAN: This year was a huge hit 151 00:06:55,038 --> 00:06:57,338 for the canola farmers because it was too wet. 152 00:06:57,371 --> 00:06:58,538 LONG: So I've been wondering 153 00:06:58,571 --> 00:06:59,905 {\an1}whether it would be worth 154 00:06:59,938 --> 00:07:01,838 {\an1}trying to find a substitute 155 00:07:01,871 --> 00:07:03,005 as our test bed. 156 00:07:03,038 --> 00:07:04,038 {\an1}That'd be perfect. 157 00:07:04,071 --> 00:07:05,138 POGUE: These folks 158 00:07:05,171 --> 00:07:07,705 {\an1}want to hack photosynthesis. 159 00:07:07,738 --> 00:07:10,005 ♪ 160 00:07:10,038 --> 00:07:13,671 {\an1}But why would you want to do that? 161 00:07:13,705 --> 00:07:16,205 {\an1}Because experts think the Earth is about to get 162 00:07:16,238 --> 00:07:18,771 {\an1}a whole lot more people. 163 00:07:18,805 --> 00:07:22,205 {\an1}(crowd chattering) 164 00:07:22,238 --> 00:07:26,471 {\an7}Today, the world's population is close to eight billion. 165 00:07:26,505 --> 00:07:31,071 {\an7}And that's forecast to hit 9.7 billion by 2050. 166 00:07:31,105 --> 00:07:34,038 ♪ 167 00:07:34,071 --> 00:07:36,205 {\an1}Raising the question: 168 00:07:36,238 --> 00:07:38,938 {\an1}will there be enough food? 169 00:07:38,971 --> 00:07:40,871 {\an1}(harvester rumbling) 170 00:07:40,905 --> 00:07:43,205 LONG: If you look at the current rate 171 00:07:43,238 --> 00:07:45,038 {\an1}at which we're improving crop productivity 172 00:07:45,071 --> 00:07:47,738 {\an1}per acre of land, 173 00:07:47,771 --> 00:07:49,338 {\an1}we're not going to get there. 174 00:07:49,371 --> 00:07:51,971 ♪ 175 00:07:52,005 --> 00:07:53,347 ORT: Part of the answer is going to be 176 00:07:53,371 --> 00:07:55,338 {\an1}redesigning photosynthesis. 177 00:07:55,371 --> 00:07:58,371 ♪ 178 00:07:58,405 --> 00:08:00,971 {\an1}(birds twittering) 179 00:08:01,005 --> 00:08:02,571 POGUE: To learn more about RIPE's plans, 180 00:08:02,605 --> 00:08:05,138 {\an1}I've joined Lisa Ainsworth, 181 00:08:05,171 --> 00:08:06,938 {\an1}a U.S.D.A. scientist, 182 00:08:06,971 --> 00:08:09,005 {\an1}and professor at the University of Illinois... 183 00:08:09,038 --> 00:08:10,681 {\an1}You can see just how differentthe height is 184 00:08:10,705 --> 00:08:11,938 {\an1}just in walking from one. Wow. 185 00:08:11,971 --> 00:08:14,838 POGUE: on an early morning tour of a field 186 00:08:14,871 --> 00:08:19,505 {\an1}that contains 600 different varieties of soybeans. 187 00:08:19,538 --> 00:08:21,905 Usually you hear about efficiency, 188 00:08:21,938 --> 00:08:25,305 {\an1}like of a gas engine, measured in terms of a percentage, 189 00:08:25,338 --> 00:08:26,938 {\an1}how much of the fuel 190 00:08:26,971 --> 00:08:28,371 {\an1}is ultimately converted to energy. 191 00:08:28,405 --> 00:08:31,571 {\an1}What's the percentage efficiency for a plant? 192 00:08:31,605 --> 00:08:32,738 {\an1}Well, in terms of 193 00:08:32,771 --> 00:08:35,905 {\an1}how much of the light energyit turns into sugar, 194 00:08:35,938 --> 00:08:37,038 {\an1}it's pretty low... 195 00:08:37,071 --> 00:08:39,438 {\an1}maybe around three percent. Three percent?! 196 00:08:39,471 --> 00:08:40,771 That's terrible! 197 00:08:40,805 --> 00:08:42,705 {\an1}But you guys are going to help it. 198 00:08:42,738 --> 00:08:44,305 That's the plan. (chuckles) 199 00:08:44,338 --> 00:08:45,905 ♪ 200 00:08:45,938 --> 00:08:47,047 POGUE: To improve photosynthesis, 201 00:08:47,071 --> 00:08:48,971 {\an1}two other researchers with RIPE... 202 00:08:49,005 --> 00:08:51,705 {\an1}Amanda Cavanagh and Paul South... 203 00:08:51,738 --> 00:08:54,305 {\an1}have focused on one of its key molecules. 204 00:08:54,338 --> 00:08:55,871 ♪ 205 00:08:55,905 --> 00:08:59,405 {\an1}It has a very catchy name. 206 00:08:59,438 --> 00:09:01,347 {\an1}So the molecule is what we biologists call an enzyme. 207 00:09:01,371 --> 00:09:02,471 {\an1}And so it does the work. 208 00:09:02,505 --> 00:09:05,038 {\an8}Enzymes are like biological workers. 209 00:09:05,071 --> 00:09:06,605 {\an8}And the enzyme's called rubisco. 210 00:09:06,638 --> 00:09:11,105 ♪ 211 00:09:11,138 --> 00:09:13,038 {\an8}SOUTH: It's R.U.B.P... 212 00:09:13,071 --> 00:09:16,538 {\an8}or ribulose bisphosphate carboxylase oxygenase. 213 00:09:16,571 --> 00:09:18,138 ♪ 214 00:09:18,171 --> 00:09:20,571 CAVANAGH: And it's, for most plant biologists, 215 00:09:20,605 --> 00:09:22,971 {\an1}one of our favorite enzymes on the planet. 216 00:09:23,005 --> 00:09:25,171 {\an1}Yeah, rubisco is our shortened term for it. 217 00:09:25,205 --> 00:09:27,405 POGUE: Mainly because it's fun to say. 218 00:09:27,438 --> 00:09:28,371 Well, it's super fun to say. 219 00:09:28,405 --> 00:09:29,838 {\an5}(rolling R): Rubisco. Of course. 220 00:09:29,871 --> 00:09:31,338 {\an5}♪ Rubisco. 221 00:09:31,371 --> 00:09:32,814 {\an5}But, it's also a really cool enzyme 222 00:09:32,838 --> 00:09:34,314 {\an1}because it makes life on Earth possible. 223 00:09:34,338 --> 00:09:36,838 ♪ 224 00:09:36,871 --> 00:09:39,438 POGUE: Rubisco may not look so special 225 00:09:39,471 --> 00:09:43,571 {\an1}but it is arguably the most important enzyme on the planet 226 00:09:43,605 --> 00:09:47,971 {\an1}because of its critical role in photosynthesis. 227 00:09:48,005 --> 00:09:52,005 {\an1}Rubisco's job is to grab a molecule of carbon dioxide 228 00:09:52,038 --> 00:09:54,738 {\an8}and feed it into a molecular machine 229 00:09:54,771 --> 00:09:57,738 {\an7}that's building carbon chains. 230 00:09:57,771 --> 00:10:00,605 {\an1}That means any carbon atom 231 00:10:00,638 --> 00:10:03,338 {\an1}that's part of any plant anywhere 232 00:10:03,371 --> 00:10:08,738 {\an1}got there thanks to rubisco, or one of its close variants. 233 00:10:08,771 --> 00:10:14,005 {\an1}And because we eat plants, or animals that ate plants, 234 00:10:14,038 --> 00:10:19,205 {\an1}that also includes just aboutevery carbon atom in your body. 235 00:10:19,238 --> 00:10:25,438 {\an1}All approximately 800 million billion billion of them. 236 00:10:25,471 --> 00:10:27,905 {\an1}That's 26 zeroes. 237 00:10:29,905 --> 00:10:34,105 {\an1}Not bad, rubisco, not bad. 238 00:10:34,138 --> 00:10:36,038 SOUTH: Yeah, so, if it's ever come from a plant, 239 00:10:36,071 --> 00:10:38,505 {\an1}it had to have gone through that enzyme of rubisco. 240 00:10:38,538 --> 00:10:39,938 {\an1}That's wild! Yeah. 241 00:10:39,971 --> 00:10:40,938 How come there's not like a... 242 00:10:40,971 --> 00:10:43,238 {\an1}a memorial to rubisco in Washington? 243 00:10:43,271 --> 00:10:46,605 {\an1}("The Star-Spangled Banner" playing) 244 00:10:46,638 --> 00:10:48,538 It seems, like, sort of important. 245 00:10:48,571 --> 00:10:50,138 ♪ 246 00:10:50,171 --> 00:10:52,971 {\an7}Rubisco is important and that's why it's the 247 00:10:53,005 --> 00:10:55,638 {\an7}most plentiful protein on Earth. 248 00:10:55,671 --> 00:10:58,371 {\an8}But just because you're important 249 00:10:58,405 --> 00:11:02,205 {\an8}doesn't mean you're entirely... competent. 250 00:11:02,238 --> 00:11:06,571 {\an1}It's... in this case, not the best enzyme in the world. 251 00:11:06,605 --> 00:11:09,205 {\an1}It's got a hard job, so it's doing its best, 252 00:11:09,238 --> 00:11:11,871 {\an1}but at the same time it exists in an atmosphere that's not 253 00:11:11,905 --> 00:11:14,471 {\an1}predominantly carbon dioxide, it's mostly oxygen. 254 00:11:14,505 --> 00:11:17,805 {\an1}And about one in every four or five reactions it grabs oxygen 255 00:11:17,838 --> 00:11:19,271 {\an1}instead of carbon dioxide. 256 00:11:19,305 --> 00:11:20,871 ♪ 257 00:11:20,905 --> 00:11:22,138 POGUE: That's right. 258 00:11:22,171 --> 00:11:26,038 {\an7}Rubisco screws up about a fifth of the time. 259 00:11:26,071 --> 00:11:28,171 {\an7}Instead of attaching a carbon dioxide 260 00:11:28,205 --> 00:11:31,171 {\an7}it attaches an oxygen molecule. 261 00:11:31,205 --> 00:11:32,305 {\an7}And that's trouble. 262 00:11:32,338 --> 00:11:33,471 {\an7}You're saying nature 263 00:11:33,505 --> 00:11:37,105 {\an1}has created a screwed-up little worker enzyme? 264 00:11:37,138 --> 00:11:39,671 SOUTH: Yeah, so, 400 million years ago, 265 00:11:39,705 --> 00:11:40,838 {\an1}when this enzyme evolved, 266 00:11:40,871 --> 00:11:42,181 {\an1}there wasn't very much oxygen in the air. 267 00:11:42,205 --> 00:11:43,571 ♪ 268 00:11:43,605 --> 00:11:44,714 {\an1}All right, so I'm the little 269 00:11:44,738 --> 00:11:46,171 {\an4}rubisco enzyme... CAVANAGH: Yup. 270 00:11:46,205 --> 00:11:48,238 {\an7}and I'm like on the conveyor belt here.Yeah. 271 00:11:48,271 --> 00:11:50,647 {\an7}And like, okay, carbon dioxide, carbon dioxide, carbon dioxide, 272 00:11:50,671 --> 00:11:52,871 {\an7}carbon dioxide, oxygen and I, I don't notice 273 00:11:52,905 --> 00:11:54,581 {\an7}I accidentally grabbed an oxygen out of the box. 274 00:11:54,605 --> 00:11:56,138 (laughing) 275 00:11:56,171 --> 00:11:57,871 SOUTH: And it produces 276 00:11:57,905 --> 00:12:00,305 {\an1}compounds that are inhibitory to photosynthesis, 277 00:12:00,338 --> 00:12:01,781 {\an1}so it kind of starts to shut things down. 278 00:12:01,805 --> 00:12:03,847 POGUE: I mean it's been going on for billions of years 279 00:12:03,871 --> 00:12:05,338 {\an1}and nobody has cared. Yeah, well... 280 00:12:05,371 --> 00:12:07,105 {\an1}I mean, it all... all basically works. 281 00:12:07,138 --> 00:12:08,178 {\an1}Photosynthesis, right now, 282 00:12:08,205 --> 00:12:10,338 {\an1}is sort of a victim of its own success... 283 00:12:10,371 --> 00:12:11,605 {\an1}rubisco certainly is. 284 00:12:11,638 --> 00:12:14,905 {\an1}So by oxygenating the atmosphere via photosynthesis, 285 00:12:14,938 --> 00:12:18,671 {\an1}you now have a huge amount of oxygen in the atmosphere 286 00:12:18,705 --> 00:12:22,138 {\an1}but you need a carbon dioxide to make the reaction work. 287 00:12:22,171 --> 00:12:24,538 (alarm blaring) 288 00:12:24,571 --> 00:12:27,105 POGUE: So what happens when rubisco screws up? 289 00:12:27,138 --> 00:12:28,171 (bell ringing) 290 00:12:28,205 --> 00:12:31,738 {\an1}The result gets shipped out 291 00:12:31,771 --> 00:12:34,571 {\an1}through a couple other parts of the cell 292 00:12:34,605 --> 00:12:37,905 {\an1}to where the mess is taken apart and recycled, 293 00:12:37,938 --> 00:12:39,471 {\an1}all of which consumes 294 00:12:39,505 --> 00:12:42,205 a lot of energy. 295 00:12:42,238 --> 00:12:44,938 If you could fix this inefficiency problem, 296 00:12:44,971 --> 00:12:48,538 {\an1}the plant might make more... soybeans, corn, whatever it is? 297 00:12:48,571 --> 00:12:49,905 CAVANAGH: That's exactly it. 298 00:12:49,938 --> 00:12:51,847 Then they will have that energy to put towards something 299 00:12:51,871 --> 00:12:53,371 {\an1}that we would consider useful 300 00:12:53,405 --> 00:12:55,438 {\an1}like making more food for us to eat. 301 00:12:55,471 --> 00:12:58,138 {\an1}Is this just a crazy theory or is there some indication 302 00:12:58,171 --> 00:12:59,505 {\an1}that this could actually work? 303 00:12:59,538 --> 00:13:01,281 {\an1}There's quite a bit of evidence that this is working. 304 00:13:01,305 --> 00:13:02,871 So right now, we have this tested 305 00:13:02,905 --> 00:13:03,947 {\an1}in a couple of model species. 306 00:13:03,971 --> 00:13:07,071 ♪ 307 00:13:07,105 --> 00:13:08,538 POGUE: It is tropical in here. 308 00:13:08,571 --> 00:13:13,571 {\an1}Amanda and Paul take me to the greenhouse to see one example. 309 00:13:13,605 --> 00:13:15,305 Using two genes, 310 00:13:15,338 --> 00:13:19,105 one from algae and the other from a pumpkin, 311 00:13:19,138 --> 00:13:21,371 they've modified tobacco plants 312 00:13:21,405 --> 00:13:23,771 {\an1}to address rubisco's sloppy work. 313 00:13:23,805 --> 00:13:26,205 {\an1}And why are we usingtobacco plants? 314 00:13:26,238 --> 00:13:28,738 {\an1}Yeah, tobacco's a really useful model crop for us. 315 00:13:28,771 --> 00:13:30,571 POGUE: Why tobacco? 316 00:13:30,605 --> 00:13:33,105 {\an1}Turns out it's one of the easiest plants 317 00:13:33,138 --> 00:13:34,405 {\an1}to genetically manipulate, 318 00:13:34,438 --> 00:13:37,005 {\an1}which makes it a common test subject. 319 00:13:37,038 --> 00:13:40,238 SOUTH: They have definitely shown improvements in plant growth 320 00:13:40,271 --> 00:13:41,538 {\an1}and total biomass, 321 00:13:41,571 --> 00:13:44,005 {\an1}and we've been studying the rates of photosynthesis. 322 00:13:44,038 --> 00:13:46,905 {\an1}And we are pretty confident now that our model crop 323 00:13:46,938 --> 00:13:50,071 {\an1}is successful in this pathway, and now we're really interested 324 00:13:50,105 --> 00:13:52,105 {\an1}in moving these into something we like to eat. 325 00:13:52,138 --> 00:13:54,005 ♪ 326 00:13:54,038 --> 00:13:55,538 POGUE: Reducing the energy penalty 327 00:13:55,571 --> 00:14:00,171 crops pay for rubisco's mistakes could be huge. 328 00:14:00,205 --> 00:14:04,838 {\an1}In soybeans, a 25% reduction 329 00:14:04,871 --> 00:14:06,938 {\an1}could result in plants that produce 330 00:14:06,971 --> 00:14:10,438 {\an1}more than 60 million more bushels a year. 331 00:14:10,471 --> 00:14:13,538 CAVANAGH: This to a lot of people is an idea 332 00:14:13,571 --> 00:14:16,205 {\an1}that might be out there, but if we can get it, 333 00:14:16,238 --> 00:14:18,438 {\an1}if we can get this moonshot approach to work, 334 00:14:18,471 --> 00:14:20,538 {\an1}then we're going to have more food. 335 00:14:20,571 --> 00:14:22,014 {\an1}And so that's really what drives what I do. 336 00:14:22,038 --> 00:14:23,805 ♪ 337 00:14:23,838 --> 00:14:26,305 POGUE: The RIPE program is international. 338 00:14:26,338 --> 00:14:29,538 {\an1}And, likely, so will be thereach of any of its discoveries. 339 00:14:29,571 --> 00:14:31,371 {\an1}♪ 340 00:14:31,405 --> 00:14:35,071 {\an1}But work like theirs is not without controversy. 341 00:14:35,105 --> 00:14:39,038 {\an1}Some of RIPE's solutionsdepend on cross-breeding plants 342 00:14:39,071 --> 00:14:41,305 {\an1}chosen for their genes. 343 00:14:41,338 --> 00:14:44,138 {\an1}But other solutions, like the rubisco work, 344 00:14:44,171 --> 00:14:46,638 {\an1}depend on genetic engineering... 345 00:14:46,671 --> 00:14:51,205 {\an1}also called genetic modification, or GM... 346 00:14:51,238 --> 00:14:55,038 Adding new genes from other types of plants, 347 00:14:55,071 --> 00:14:58,038 {\an1}or even organisms, entirely. 348 00:14:58,071 --> 00:15:01,771 {\an1}The laws governing genetically modified crops vary 349 00:15:01,805 --> 00:15:04,871 {\an1}from country to country, especially when it comes to 350 00:15:04,905 --> 00:15:07,838 {\an1}labeling their use in food. 351 00:15:07,871 --> 00:15:09,538 {\an1}(indistinct chatter) 352 00:15:09,571 --> 00:15:11,571 {\an1}And there have been objections to some companies 353 00:15:11,605 --> 00:15:13,605 {\an1}that patent their new crops 354 00:15:13,638 --> 00:15:15,671 {\an1}and control who can plant them. 355 00:15:15,705 --> 00:15:18,305 {\an1}But the general scientific consensus 356 00:15:18,338 --> 00:15:19,938 is that they are no more dangerous 357 00:15:19,971 --> 00:15:21,305 {\an1}than conventional crops, 358 00:15:21,338 --> 00:15:24,405 {\an1}though they need to be carefully studied for potential health 359 00:15:24,438 --> 00:15:26,305 {\an1}and environmental effects. 360 00:15:26,338 --> 00:15:32,805 {\an1}The U.S., unlike Europe, has largely adopted GM plants. 361 00:15:32,838 --> 00:15:36,471 {\an1}An overwhelming percentage of corn, soybeans, and cotton 362 00:15:36,505 --> 00:15:40,705 {\an1}grown in the United States is genetically modified. 363 00:15:40,738 --> 00:15:42,471 ♪ 364 00:15:42,505 --> 00:15:45,871 LONG: I understand there are concerns. 365 00:15:45,905 --> 00:15:47,438 {\an8}As a scientist, 366 00:15:47,471 --> 00:15:52,138 {\an7}I feel those concerns have very little validity, 367 00:15:52,171 --> 00:15:55,938 {\an1}although clearly people have become very concerned... 368 00:15:55,971 --> 00:15:56,938 {\an1}particularly in Europe. 369 00:15:56,971 --> 00:15:59,138 Of course, in this part of the world, 370 00:15:59,171 --> 00:16:03,838 genetically modified crops have been grown for over 20 years. 371 00:16:03,871 --> 00:16:07,138 {\an1}This technology has spread throughout the Americas. 372 00:16:07,171 --> 00:16:10,138 ♪ 373 00:16:10,171 --> 00:16:12,505 POGUE: In fact, as the global population grows, 374 00:16:12,538 --> 00:16:15,505 {\an1}it's in poorer countries that RIPE's work may end up 375 00:16:15,538 --> 00:16:17,538 {\an1}having the greatest impact. 376 00:16:17,571 --> 00:16:22,238 {\an1}Especially if geneticallymodified foods gain acceptance. 377 00:16:22,271 --> 00:16:25,538 LONG: The place where I see the technology needed most 378 00:16:25,571 --> 00:16:28,438 {\an1}is actually in sub-Saharan Africa. 379 00:16:28,471 --> 00:16:31,138 {\an1}And this opposition to GM 380 00:16:31,171 --> 00:16:35,005 {\an1}is having quite an influence in Africa. 381 00:16:35,038 --> 00:16:38,205 {\an1}It's keeping the science, which is needed, out 382 00:16:38,238 --> 00:16:39,471 and I fear that 383 00:16:39,505 --> 00:16:43,538 this could risk people starving when we could actually 384 00:16:43,571 --> 00:16:46,471 {\an1}be giving them seed which would allow them 385 00:16:46,505 --> 00:16:49,905 {\an1}to feed themselves into the future. 386 00:16:49,938 --> 00:16:52,005 ♪ 387 00:16:52,038 --> 00:16:55,471 POGUE: Even if scientists succeed in improving photosynthesis, 388 00:16:55,505 --> 00:16:58,305 {\an1}it won't have anywhere near the dramatic impact 389 00:16:58,338 --> 00:16:59,405 {\an1}of the original version 390 00:16:59,438 --> 00:17:04,738 {\an1}introduced about three billion years ago. 391 00:17:04,771 --> 00:17:06,405 {\an1}Back then, scientists believe, 392 00:17:06,438 --> 00:17:10,305 {\an1}photosynthetic cyanobacteria began cranking out oxygen 393 00:17:10,338 --> 00:17:14,138 {\an1}as a waste product. 394 00:17:14,171 --> 00:17:17,671 {\an1}Eventually, bacteria produced enough oxygen 395 00:17:17,705 --> 00:17:20,838 {\an1}that it started to accumulate in the atmosphere. 396 00:17:20,871 --> 00:17:23,838 {\an1}Which, in turn, gave rise to one of life's 397 00:17:23,871 --> 00:17:29,705 {\an1}underappreciated molecular allies... the ozone layer. 398 00:17:29,738 --> 00:17:32,671 {\an1}It's in the lowest level of the stratosphere, 399 00:17:32,705 --> 00:17:36,238 between roughly eight and 22 miles up. 400 00:17:36,271 --> 00:17:37,805 ♪ 401 00:17:37,838 --> 00:17:40,305 {\an1}Atmospheric research planes venture up here... 402 00:17:40,338 --> 00:17:41,571 (radio chatter) 403 00:17:41,605 --> 00:17:42,605 {\an1}...but not much else. 404 00:17:42,638 --> 00:17:45,105 ♪ 405 00:17:45,138 --> 00:17:46,838 {\an1}The ozone comes from a process 406 00:17:46,871 --> 00:17:50,205 even higher up in the stratosphere. 407 00:17:50,238 --> 00:17:53,938 {\an1}There, solar radiation busts up O2 molecules 408 00:17:53,971 --> 00:17:57,071 {\an1}into individual oxygen atoms. 409 00:17:57,105 --> 00:17:59,505 They drift down to the ozone layer 410 00:17:59,538 --> 00:18:06,271 where they convert O2 into O3... Ozone. 411 00:18:06,305 --> 00:18:09,038 {\an1}Despite the name, there's not that much ozone 412 00:18:09,071 --> 00:18:10,738 {\an1}in the ozone layer... 413 00:18:10,771 --> 00:18:13,705 {\an1}less than ten parts per million... 414 00:18:13,738 --> 00:18:16,871 {\an1}yet it's had a profound effect on the evolution 415 00:18:16,905 --> 00:18:18,738 {\an1}of life on Earth. 416 00:18:18,771 --> 00:18:21,405 ♪ 417 00:18:21,438 --> 00:18:22,871 {\an1}To find out more... 418 00:18:22,905 --> 00:18:24,471 {\an1}POGUE: So ozone is O3, right? 419 00:18:24,505 --> 00:18:26,005 {\an1}KERRY HANSON: Ozone is O3. 420 00:18:26,038 --> 00:18:28,438 {\an8}POGUE: I travel to the University of California, Riverside, 421 00:18:28,471 --> 00:18:30,438 {\an1}to meet Kerry Hanson... 422 00:18:30,471 --> 00:18:31,371 {\an1}We came alive because... 423 00:18:31,405 --> 00:18:32,481 POGUE: a research chemist 424 00:18:32,505 --> 00:18:35,605 {\an1}who studies how molecules like ozone 425 00:18:35,638 --> 00:18:39,038 {\an1}and those in sunscreens interact with light. 426 00:18:39,071 --> 00:18:40,838 {\an1}So any moleculecan absorb light. 427 00:18:40,871 --> 00:18:42,205 POGUE: It turns out 428 00:18:42,238 --> 00:18:47,071 {\an1}the ozone layer and sunscreens have a lot in common. 429 00:18:47,105 --> 00:18:52,238 {\an1}This O3 gas is out there in the atmosphere in such quantity 430 00:18:52,271 --> 00:18:54,014 {\an1}that there's an envelope around the whole planet? 431 00:18:54,038 --> 00:18:55,205 {\an1}Yeah. It's a layer. 432 00:18:55,238 --> 00:18:56,505 {\an7}Think of like a sunscreen. 433 00:18:56,538 --> 00:18:58,505 {\an7}You know, how we use sunscreen on our skin? Yeah. 434 00:18:58,538 --> 00:18:59,505 {\an7}So it's the exact same thing. 435 00:18:59,538 --> 00:19:03,505 {\an7}The ozone layeris earth's sunscreen. 436 00:19:03,538 --> 00:19:05,571 ♪ 437 00:19:05,605 --> 00:19:07,571 POGUE: Both the ozone layer and sunscreens 438 00:19:07,605 --> 00:19:09,271 protect us from the harmful effects 439 00:19:09,305 --> 00:19:11,505 {\an1}of ultraviolet radiation... 440 00:19:11,538 --> 00:19:14,838 Or U.V... A kind of sunlight that, 441 00:19:14,871 --> 00:19:19,138 {\an1}unlike the colors of the rainbow, we can't see. 442 00:19:19,171 --> 00:19:22,005 ♪ 443 00:19:22,038 --> 00:19:24,071 On the electromagnetic spectrum, 444 00:19:24,105 --> 00:19:27,538 {\an1}visible light sits here, 445 00:19:27,571 --> 00:19:32,505 {\an7}but U.V. sits up here at a higher energy. 446 00:19:32,538 --> 00:19:35,771 {\an7}Scientists divide it roughly into three kinds... 447 00:19:35,805 --> 00:19:39,505 {\an8}A, B, and C. 448 00:19:39,538 --> 00:19:42,005 {\an1}And while A and B, aren't good for you... 449 00:19:42,038 --> 00:19:46,405 {\an1}and they're the reason to wear sunscreen... 450 00:19:46,438 --> 00:19:50,071 {\an1}it's C that's the big problem for living things 451 00:19:50,105 --> 00:19:53,371 {\an1}because it's particularly destructive to DNA. 452 00:19:56,605 --> 00:19:59,205 ♪ 453 00:19:59,238 --> 00:20:01,938 {\an1}(players shouting) 454 00:20:01,971 --> 00:20:05,005 {\an1}Kerry tells me how all this relates to ozone. 455 00:20:05,038 --> 00:20:07,771 Just another Sunday watching volleyball. 456 00:20:07,805 --> 00:20:10,338 {\an8}(voiceover): And it's kind of like volleyball. 457 00:20:10,371 --> 00:20:12,471 ♪ 458 00:20:12,505 --> 00:20:14,071 Oh! He's good. 459 00:20:14,105 --> 00:20:18,938 POGUE: Well... if the balls were different kinds of U.V. 460 00:20:18,971 --> 00:20:22,071 {\an1}In the early days of life on Earth, 461 00:20:22,105 --> 00:20:25,605 {\an1}before photosynthetic bacteria oxygenated our atmosphere... 462 00:20:25,638 --> 00:20:27,114 {\an1}Get it, get it, get it... yeah, yeah, yeah! 463 00:20:27,138 --> 00:20:29,971 ♪ 464 00:20:30,005 --> 00:20:31,238 {\an1}There was no ozone layer 465 00:20:31,271 --> 00:20:35,905 {\an1}and no global defense against ultra violet radiation. 466 00:20:35,938 --> 00:20:38,005 Aw... ooh... 467 00:20:38,038 --> 00:20:41,805 The most dangerous kind, U.V.C., bathed the planet, 468 00:20:41,838 --> 00:20:47,905 {\an1}which may have effectively limited where life could grow. 469 00:20:47,938 --> 00:20:49,938 {\an1}But oxygen accumulating in the atmosphere 470 00:20:49,971 --> 00:20:51,405 {\an1}and the rise of the ozone layer 471 00:20:51,438 --> 00:20:52,638 {\an1}changed all that. 472 00:20:52,671 --> 00:20:54,805 The layer blocks 473 00:20:54,838 --> 00:20:57,571 all the U.V.C. and most of the U.V.B. 474 00:20:57,605 --> 00:21:01,138 from reaching the Earth's surface. 475 00:21:01,171 --> 00:21:02,671 HANSON: Oh... good block! 476 00:21:02,705 --> 00:21:04,938 POGUE: Here's how it works: 477 00:21:04,971 --> 00:21:09,205 {\an1}when U.V. radiation hits a molecule of ozone, 478 00:21:09,238 --> 00:21:14,938 {\an1}it splits it into an oxygen atom and a molecule of O2. 479 00:21:14,971 --> 00:21:18,738 {\an1}The U.V. light has been absorbed and neutralized. 480 00:21:18,771 --> 00:21:22,938 {\an1}The lone atom quickly rejoins another molecule of O2 481 00:21:22,971 --> 00:21:25,738 to reform ozone. 482 00:21:25,771 --> 00:21:29,605 {\an1}The net result is a conversion of that harmful radiation 483 00:21:29,638 --> 00:21:32,338 into heat. 484 00:21:32,371 --> 00:21:35,805 {\an1}Despite the ozone layer, 485 00:21:35,838 --> 00:21:40,271 {\an1}we can still get hit by unhealthy amounts of U.V. 486 00:21:40,305 --> 00:21:43,238 {\an1}And that's why it's a good idea to use sunscreen. 487 00:21:43,271 --> 00:21:45,871 HANSON: If you read the label, and if it says broad spectrum, 488 00:21:45,905 --> 00:21:48,438 that means it's blocking U.V.B. and U.V.A. 489 00:21:48,471 --> 00:21:50,271 {\an3}Wow. Not U.V.C., 490 00:21:50,305 --> 00:21:52,805 like ozone, but U.V.A. and B. 491 00:21:52,838 --> 00:21:54,505 ♪ 492 00:21:54,538 --> 00:21:55,705 Just like we use 493 00:21:55,738 --> 00:21:59,405 {\an1}sunscreen to block harmful U.V.A. and B radiation 494 00:21:59,438 --> 00:22:01,905 from our skin... 495 00:22:01,938 --> 00:22:04,238 {\an1}the ozone layer protects planet Earth from harmful 496 00:22:04,271 --> 00:22:07,471 {\an1}U.V.C. radiation... 497 00:22:07,505 --> 00:22:14,605 {\an1}that would destroy the building blocks of life... DNA. 498 00:22:14,638 --> 00:22:17,171 {\an1}Without the blocking of U.V.C. by the ozone layer, 499 00:22:17,205 --> 00:22:20,271 {\an1}life would not have been able to come out of those oceans, 500 00:22:20,305 --> 00:22:21,671 {\an1}come up on to land, 501 00:22:21,705 --> 00:22:24,371 {\an1}and you and I wouldn't betalking here today. 502 00:22:24,405 --> 00:22:28,105 POGUE (echoing): Thanks, ozone! 503 00:22:28,138 --> 00:22:30,138 ♪ 504 00:22:30,171 --> 00:22:31,771 Without that global protection, 505 00:22:31,805 --> 00:22:33,071 {\an1}the grand story of evolution 506 00:22:33,105 --> 00:22:36,805 that began fromsingle-cell ocean-dwelling life 507 00:22:36,838 --> 00:22:38,471 and led to the wondrous 508 00:22:38,505 --> 00:22:42,205 {\an1}complexity of multicellular animals occupying 509 00:22:42,238 --> 00:22:47,671 {\an1}land, sea, and sky would probably never have been told. 510 00:22:47,705 --> 00:22:49,138 {\an1}(film reel clicking, score stops) 511 00:22:49,171 --> 00:22:50,738 (grunts) 512 00:22:50,771 --> 00:22:53,071 {\an1}And yada yada yada... 513 00:22:53,105 --> 00:22:54,471 {\an7}Yeah, yeah, I know, 514 00:22:54,505 --> 00:22:55,871 {\an7}the evolution of life is important, 515 00:22:55,905 --> 00:23:01,305 {\an7}but let's talk about something really important... me! 516 00:23:01,338 --> 00:23:04,038 Or at least me and my molecules. 517 00:23:04,071 --> 00:23:05,871 {\an1}I know what elements I'm made of: 518 00:23:05,905 --> 00:23:11,071 {\an1}CHNOPS... carbon, hydrogen, nitrogen, oxygen, 519 00:23:11,105 --> 00:23:13,371 {\an1}phosphorus, sulfur... CHNOPS! 520 00:23:13,405 --> 00:23:17,071 {\an1}There are other elements in the human body, 521 00:23:17,105 --> 00:23:20,038 {\an1}but these are the main six. 522 00:23:20,071 --> 00:23:24,838 {\an1}And, of course, a good chunk of me by mass is good old H2O. 523 00:23:24,871 --> 00:23:28,771 {\an1}But if you take that water away... 524 00:23:28,805 --> 00:23:32,771 {\an1}most of what's left is macromolecules... 525 00:23:32,805 --> 00:23:36,738 {\an1}mostly big, long polymers... 526 00:23:36,771 --> 00:23:39,705 {\an1}chains of smaller molecules. 527 00:23:39,738 --> 00:23:42,671 {\an1}Yeah, so I once went "CHNOPing." 528 00:23:42,705 --> 00:23:44,071 That's C-H-N-O... 529 00:23:44,105 --> 00:23:45,414 (voiceover): To learn more about them, 530 00:23:45,438 --> 00:23:47,705 {\an1}biologist Monica Hall-Porter... 531 00:23:47,738 --> 00:23:48,971 {\an1}formerly at Lasell University, 532 00:23:49,005 --> 00:23:51,605 {\an1}now at the University of Texas... 533 00:23:51,638 --> 00:23:54,071 {\an1}offers to show me around a local... 534 00:23:54,105 --> 00:23:56,471 supermarket? 535 00:23:56,505 --> 00:24:03,171 ♪ 536 00:24:03,205 --> 00:24:04,538 It's kind of weird, 537 00:24:04,571 --> 00:24:06,438 I ask you aboutthe molecules of my body, 538 00:24:06,471 --> 00:24:08,771 and you bring usto a grocery store. 539 00:24:08,805 --> 00:24:10,471 Yeah, so today's shopping trip 540 00:24:10,505 --> 00:24:13,471 is about the macromolecules thatactually make up the human body. 541 00:24:13,505 --> 00:24:14,938 ♪ 542 00:24:14,971 --> 00:24:18,771 {\an1}Specifically protein, lipids or fats, carbohydrates, 543 00:24:18,805 --> 00:24:20,171 {\an1}and nucleic acid. 544 00:24:20,205 --> 00:24:22,305 {\an1}And if you take a look around the grocery store, 545 00:24:22,338 --> 00:24:24,905 {\an1}there are many examples of those macromolecules here. 546 00:24:24,938 --> 00:24:26,338 {\an1}All right, show me the ropes. 547 00:24:26,371 --> 00:24:28,271 Let's go shopping. 548 00:24:28,305 --> 00:24:30,805 ♪ 549 00:24:30,838 --> 00:24:32,305 {\an1}(laughing) 550 00:24:32,338 --> 00:24:34,171 POGUE: Our first objective? 551 00:24:34,205 --> 00:24:36,538 {\an1}Protein molecules. 552 00:24:36,571 --> 00:24:38,571 {\an1}Monica tells me, by weight, 553 00:24:38,605 --> 00:24:41,571 {\an1}that's about 20% of my body. 554 00:24:41,605 --> 00:24:44,405 Does that mean pure masculine muscle? 555 00:24:44,438 --> 00:24:46,147 {\an1}Is that what you're saying? Well, not necessarily muscle. 556 00:24:46,171 --> 00:24:50,671 ♪ 557 00:24:50,705 --> 00:24:53,338 {\an1}Proteins are the molecules that actually do work in cells. 558 00:24:53,371 --> 00:24:55,605 {\an1}So not just composing muscle 559 00:24:55,638 --> 00:24:57,571 {\an1}but also the proteins that 560 00:24:57,605 --> 00:24:59,371 {\an1}serve as the structural proteins 561 00:24:59,405 --> 00:25:02,238 {\an1}in our hair, fingernails. 562 00:25:02,271 --> 00:25:06,371 {\an8}POGUE: The most abundant protein in your body is collagen, 563 00:25:06,405 --> 00:25:11,405 {\an7}making up fibrous tissues like skin, tendons, and ligaments. 564 00:25:11,438 --> 00:25:17,005 {\an1}There's also collagen in teeth and bone. 565 00:25:17,038 --> 00:25:18,647 {\an1}But even though there are tens of thousands 566 00:25:18,671 --> 00:25:21,271 {\an1}of different proteins in the human body... 567 00:25:21,305 --> 00:25:24,238 {\an1}maybe millions, no one is sure... 568 00:25:24,271 --> 00:25:28,605 {\an1}amazingly, they're all made from stringing together 569 00:25:28,638 --> 00:25:31,938 {\an7}about 20 different kinds of small molecules 570 00:25:31,971 --> 00:25:34,205 {\an7}called amino acids, 571 00:25:34,238 --> 00:25:37,738 {\an1}which we get by breaking down the proteins we eat 572 00:25:37,771 --> 00:25:40,171 {\an1}in a variety of foods. 573 00:25:40,205 --> 00:25:43,371 {\an1}HALL-PORTER: And so when we consume protein, like in turkey for example... 574 00:25:43,405 --> 00:25:44,771 {\an1}(chortling): Whoa! 575 00:25:44,805 --> 00:25:47,238 Our body breaks the amino acids down 576 00:25:47,271 --> 00:25:51,205 {\an7}and then the amino acids are incorporated into proteins 577 00:25:51,238 --> 00:25:52,547 {\an7}that our bodies synthesizes or makes. 578 00:25:52,571 --> 00:25:54,238 Yep, there you go! 579 00:25:54,271 --> 00:25:55,605 Handsome little gobbler. 580 00:25:55,638 --> 00:26:00,471 POGUE: Next on the macromolecule shopping list: lipids. 581 00:26:00,505 --> 00:26:02,171 All right let's find the lipids aisle. 582 00:26:02,205 --> 00:26:03,838 Well, there's no lipidsaisle, (laughs) 583 00:26:03,871 --> 00:26:06,271 but we can getoils and fats. 584 00:26:06,305 --> 00:26:07,805 So let's headdown this way 585 00:26:07,838 --> 00:26:10,305 {\an1}and let's get some oil. 586 00:26:10,338 --> 00:26:12,571 {\an1}This is massive, how much fats are we getting? 587 00:26:12,605 --> 00:26:13,771 A lot. 588 00:26:13,805 --> 00:26:14,938 POGUE: Oh, man. 589 00:26:16,405 --> 00:26:18,505 POGUE: This seems like we've got 590 00:26:18,538 --> 00:26:20,471 {\an1}15 pounds of fats here. 591 00:26:20,505 --> 00:26:21,971 {\an3}Yes. And you're telling me 592 00:26:22,005 --> 00:26:24,138 {\an3}that's only half the amountin my body? 593 00:26:24,171 --> 00:26:26,605 {\an3}Absolutely, you're about 30 pounds of fat. 594 00:26:26,638 --> 00:26:30,405 {\an3}Now, I have to say I findthat a little insulting. 595 00:26:30,438 --> 00:26:31,605 Well, you shouldn't. 596 00:26:31,638 --> 00:26:33,571 {\an8}♪ 597 00:26:33,605 --> 00:26:35,105 {\an8}POGUE: Compared to proteins, 598 00:26:35,138 --> 00:26:38,805 {\an8}lipids or fats do get a bad rap. 599 00:26:38,838 --> 00:26:42,005 {\an7}But in addition to their role in cell membranes, 600 00:26:42,038 --> 00:26:45,105 {\an7}and long-term energy storage... 601 00:26:45,138 --> 00:26:47,305 {\an7}you know, body fat... 602 00:26:47,338 --> 00:26:52,071 {\an7}they also provide protection for internal organs. 603 00:26:52,105 --> 00:26:55,138 {\an1}Oh, and don't forget the lipids in earwax! 604 00:26:55,171 --> 00:26:56,871 HALL-PORTER: And so literally 605 00:26:56,905 --> 00:26:59,805 there's fat in every part of you. 606 00:26:59,838 --> 00:27:04,038 So even a slim, lean, handsome, physically fit person 607 00:27:04,071 --> 00:27:06,471 could have thirty poundsof fat in him? 608 00:27:06,505 --> 00:27:07,471 Absolutely. 609 00:27:07,505 --> 00:27:09,405 ♪ 610 00:27:09,438 --> 00:27:13,371 POGUE: Next up, the third most common macromolecule type... 611 00:27:13,405 --> 00:27:14,838 {\an1}Oh, this is my kind of food group. 612 00:27:14,871 --> 00:27:15,805 Carbohydrates. 613 00:27:15,838 --> 00:27:17,638 Sugar! Sugar! 614 00:27:17,671 --> 00:27:20,271 Does this count as carbs? Absolutely. 615 00:27:20,305 --> 00:27:23,505 POGUE: While I would have thought I was sweeter, 616 00:27:23,538 --> 00:27:25,671 {\an7}turns out on average there's only about 617 00:27:25,705 --> 00:27:28,071 {\an7}two pounds of carbs in me. 618 00:27:28,105 --> 00:27:31,838 {\an7}Glucose is the most abundant carb in the human body. 619 00:27:31,871 --> 00:27:36,138 {\an7}It circulates to provide energy for cells. 620 00:27:36,171 --> 00:27:38,405 {\an1}Now we're talking carbs... Carb city, 621 00:27:38,438 --> 00:27:39,971 {\an1}carb heaven, carb central... 622 00:27:40,005 --> 00:27:41,671 {\an1}We are in the bread aisle, my friend. 623 00:27:41,705 --> 00:27:42,671 I like it! 624 00:27:42,705 --> 00:27:43,714 All right, we can toast this up 625 00:27:43,738 --> 00:27:45,571 and put some butteron it... (laughs) 626 00:27:45,605 --> 00:27:48,271 {\an8}POGUE: Many glucose molecules joined together 627 00:27:48,305 --> 00:27:49,938 {\an7}can make a plant starch, 628 00:27:49,971 --> 00:27:53,471 {\an7}the kind you find in cereals and root vegetables. 629 00:27:53,505 --> 00:27:56,671 {\an7}It's the most common carb in the human diet. 630 00:27:56,705 --> 00:27:58,181 {\an8}So did I under... (indistinct voice over loudspeaker) 631 00:27:58,205 --> 00:28:00,538 {\an1}Hey, we're workin' here! 632 00:28:00,571 --> 00:28:02,038 So we've got lipids. 633 00:28:02,071 --> 00:28:03,538 Yeah. Proteins. 634 00:28:03,571 --> 00:28:04,805 Yeah. And carbohydrates. 635 00:28:04,838 --> 00:28:07,171 Yeah, the three macromoleculesof the human body. 636 00:28:07,205 --> 00:28:08,638 Right, but we're missing one. 637 00:28:08,671 --> 00:28:10,381 There's another one? Yeah, we don't have anything 638 00:28:10,405 --> 00:28:12,971 that's representative of nucleic acids. 639 00:28:13,005 --> 00:28:18,238 {\an8}POGUE: Nucleic acids are better known as DNA and RNA. 640 00:28:19,705 --> 00:28:22,271 {\an8}DNA is the famous double helix. 641 00:28:22,305 --> 00:28:25,371 {\an1}It's usually two long chains of molecules 642 00:28:25,405 --> 00:28:28,138 {\an7}that wrap around each other. 643 00:28:28,171 --> 00:28:33,371 {\an7}It contains genetic instructions for making proteins. 644 00:28:33,405 --> 00:28:37,471 {\an7}RNA is often a long molecular chain as well. 645 00:28:37,505 --> 00:28:42,038 {\an7}If DNA is the cookbook, RNA is the chef, 646 00:28:42,071 --> 00:28:45,138 {\an7}reading DNA's instructions for proteins, 647 00:28:45,171 --> 00:28:48,005 {\an7}gathering the ingredient amino acids, 648 00:28:48,038 --> 00:28:50,038 {\an7}and assembling them in the right order 649 00:28:50,071 --> 00:28:53,338 {\an7}in a macromolecular protein printing machine 650 00:28:53,371 --> 00:28:56,605 {\an7}called a ribosome. 651 00:28:56,638 --> 00:28:58,405 {\an1}Life on Earth exists 652 00:28:58,438 --> 00:29:00,638 in a spectacular variety of forms, 653 00:29:00,671 --> 00:29:02,271 {\an8}but in the end, 654 00:29:02,305 --> 00:29:04,038 {\an7}it all depends on the arrangement 655 00:29:04,071 --> 00:29:08,038 {\an7}of a handful of different small molecules... 656 00:29:08,071 --> 00:29:10,105 {\an7}the nucleotides... 657 00:29:10,138 --> 00:29:14,771 {\an7}in the nucleic acids DNA and RNA. 658 00:29:14,805 --> 00:29:17,871 {\an1}And we are now arriving at the DNA aisle. 659 00:29:17,905 --> 00:29:18,905 All righty. 660 00:29:18,938 --> 00:29:20,205 And why strawberries? 661 00:29:20,238 --> 00:29:22,671 {\an1}Well, strawberries actually have eight copies 662 00:29:22,705 --> 00:29:24,771 {\an1}of each chromosome per cell. 663 00:29:24,805 --> 00:29:26,305 So relative to other fruits, 664 00:29:26,338 --> 00:29:28,205 {\an1}strawberries are actually very rich in DNA. 665 00:29:28,238 --> 00:29:29,205 {\an1}Wow, all right. 666 00:29:29,238 --> 00:29:31,971 {\an1}Here's our DNA-ey berries. 667 00:29:32,005 --> 00:29:34,238 ♪ 668 00:29:34,271 --> 00:29:39,405 Actually seeing DNA... you know, the code of life... 669 00:29:39,438 --> 00:29:43,471 {\an7}has always seemed beyond the reach of ordinary folks. 670 00:29:43,505 --> 00:29:47,738 {\an7}You can't just find some, can you? 671 00:29:49,338 --> 00:29:51,671 {\an1}When you said we were going to extract DNA 672 00:29:51,705 --> 00:29:54,671 {\an1}from strawberries, I figured we would go to some humming, 673 00:29:54,705 --> 00:29:56,971 {\an1}high-tech lab with millions of dollars of equipment... 674 00:29:57,005 --> 00:29:58,738 {\an1}(maniacal laughter) 675 00:29:58,771 --> 00:30:01,471 {\an1}No, actually DNA extraction from strawberries 676 00:30:01,505 --> 00:30:04,271 {\an1}is something that can be achieved at home. 677 00:30:05,738 --> 00:30:08,605 POGUE: As it turns out, 678 00:30:08,638 --> 00:30:11,071 {\an1}using some easily available household items 679 00:30:11,105 --> 00:30:12,671 {\an1}like plastic bags, 680 00:30:12,705 --> 00:30:14,905 {\an1}detergent, rubbing alcohol, 681 00:30:14,938 --> 00:30:17,538 {\an1}cheesecloth and strawberries, 682 00:30:17,571 --> 00:30:19,805 {\an1}(liquid dripping) 683 00:30:22,271 --> 00:30:24,305 {\an1}along with a little bit of waiting time, 684 00:30:24,338 --> 00:30:26,638 {\an1}you too can catch a glimpse 685 00:30:26,671 --> 00:30:30,205 {\an1}of the code of life... DNA. 686 00:30:31,638 --> 00:30:33,305 ♪ 687 00:30:33,338 --> 00:30:34,605 There it is. 688 00:30:35,971 --> 00:30:38,805 You'll see an accumulation 689 00:30:38,838 --> 00:30:41,638 of white, stringy substance. 690 00:30:41,671 --> 00:30:44,538 {\an1}That's actually a very crude prep of DNA. 691 00:30:44,571 --> 00:30:48,438 ♪ 692 00:30:48,471 --> 00:30:49,814 Basically, what's goingto happen is, 693 00:30:49,838 --> 00:30:51,971 it's going to clump on the endof your glass rod. 694 00:30:53,505 --> 00:30:56,705 Strawberry DNA slime, right there.(laughs) 695 00:30:56,738 --> 00:30:58,205 ♪ 696 00:30:58,238 --> 00:30:59,838 POGUE: Pretty amazing. 697 00:30:59,871 --> 00:31:01,871 {\an1}And so are the other three macromolecules 698 00:31:01,905 --> 00:31:04,805 {\an1}that make up my body. 699 00:31:06,438 --> 00:31:07,971 {\an1}But all their wondrous complexity 700 00:31:08,005 --> 00:31:11,205 raises a deeply mysterious question: 701 00:31:11,238 --> 00:31:15,305 {\an1}how did chemistry give rise to biology? 702 00:31:15,338 --> 00:31:17,705 {\an1}How did life get its start? 703 00:31:19,538 --> 00:31:22,038 ♪ 704 00:31:22,071 --> 00:31:24,205 {\an1}A famous experiment in 1952 705 00:31:24,238 --> 00:31:28,238 {\an1}suggested the answer might not be that hard to find. 706 00:31:29,805 --> 00:31:34,071 {\an1}At the University of Chicago, graduate student Stanley Miller, 707 00:31:34,105 --> 00:31:37,438 {\an1}with help from his doctoral advisor Harold Urey... 708 00:31:37,471 --> 00:31:39,305 (gas hissing) 709 00:31:39,338 --> 00:31:41,371 {\an7}Mixed what were then thought to be 710 00:31:41,405 --> 00:31:45,571 {\an7}the dominant ingredients of Earth's early atmosphere... 711 00:31:45,605 --> 00:31:50,671 {\an7}methane, ammonia, and hydrogen... Inside some sealed glassware. 712 00:31:50,705 --> 00:31:54,605 {\an7}Boiling water added water vapor to the mix. 713 00:31:58,471 --> 00:32:02,138 {\an7}Then Miller created sparks between electrodes 714 00:32:02,171 --> 00:32:04,371 {\an7}simulating lightning, 715 00:32:04,405 --> 00:32:07,705 {\an7}and let the mixture cool and condense. 716 00:32:07,738 --> 00:32:10,538 {\an7}After running the experiment for a week, 717 00:32:10,571 --> 00:32:14,105 {\an7}Miller found five amino acids... 718 00:32:16,005 --> 00:32:19,138 {\an7}some of them critical building blocks of proteins. 719 00:32:19,171 --> 00:32:22,538 JACK SZOSTAK: You know, it was a dramatic breakthrough at the time 720 00:32:22,571 --> 00:32:25,105 {\an1}for people to realize that amino acids could be made 721 00:32:25,138 --> 00:32:26,538 in such a simple way. 722 00:32:26,571 --> 00:32:27,771 ♪ 723 00:32:27,805 --> 00:32:30,038 POGUE: At Massachusetts General Hospital, 724 00:32:30,071 --> 00:32:33,138 {\an1}Jack Szostak runs one of the several research labs 725 00:32:33,171 --> 00:32:35,338 {\an1}around the world that are trying to figure out 726 00:32:35,371 --> 00:32:39,671 {\an1}how chemistry gave rise to biology. 727 00:32:39,705 --> 00:32:40,981 {\an1}So this is like increasingthe amount of sodium hydroxide, 728 00:32:41,005 --> 00:32:42,081 {\an1}and so increasing... Oh, okay. 729 00:32:42,105 --> 00:32:45,605 POGUE: Today, it's clear 730 00:32:45,638 --> 00:32:47,838 even the Miller Urey experiment, 731 00:32:47,871 --> 00:32:49,338 {\an1}while groundbreaking, 732 00:32:49,371 --> 00:32:51,438 {\an1}just scratched the surface of the problem. 733 00:32:51,471 --> 00:32:53,205 SZOSTAK: In retrospect, 734 00:32:53,238 --> 00:32:55,838 it kind of fooled people into thinking that 735 00:32:55,871 --> 00:32:57,371 the answers might be easier than 736 00:32:57,405 --> 00:32:59,705 they turned out to be, right? 737 00:32:59,738 --> 00:33:02,671 {\an7}Once you've got the right chemicals, then what? 738 00:33:02,705 --> 00:33:03,771 {\an7}POGUE: Right, right. 739 00:33:03,805 --> 00:33:05,014 {\an7}How do a bunch of chemicals get together 740 00:33:05,038 --> 00:33:06,871 {\an7}and start acting like a cell? 741 00:33:06,905 --> 00:33:09,371 {\an8}♪ 742 00:33:09,405 --> 00:33:13,405 POGUE: A key requirement seems to be a container. 743 00:33:13,438 --> 00:33:14,938 {\an7}All life on Earth, 744 00:33:14,971 --> 00:33:17,371 {\an7}from the simplest to the most complex, 745 00:33:17,405 --> 00:33:21,705 {\an1}is made of cells, with "outer membranes." 746 00:33:21,738 --> 00:33:24,738 {\an1}So on the road to life, 747 00:33:24,771 --> 00:33:26,871 {\an1}how did that happen? 748 00:33:26,905 --> 00:33:27,971 ♪ 749 00:33:28,005 --> 00:33:30,305 {\an1}Scientists like Anna Wang, 750 00:33:30,338 --> 00:33:33,271 {\an1}a former post-doc in Jack Szostak's lab, 751 00:33:33,305 --> 00:33:37,005 {\an1}now a professor at UNSW Sydney, 752 00:33:37,038 --> 00:33:39,005 {\an1}have been working with a simple molecule 753 00:33:39,038 --> 00:33:42,771 that is one of the prime suspects. 754 00:33:42,805 --> 00:33:44,138 {\an1}It's also present here. 755 00:33:44,171 --> 00:33:45,205 {\an3}Wow. 756 00:33:45,238 --> 00:33:47,838 ♪ 757 00:33:47,871 --> 00:33:52,371 {\an8}POGUE: Shaped into bars in a wide variety of colors and scents. 758 00:33:52,405 --> 00:33:54,305 {\an8}Smells good in here. Smells amazing. 759 00:33:54,338 --> 00:33:57,371 POGUE: At Molly's Apothecary outside of Boston. 760 00:33:57,405 --> 00:33:58,571 Oh, that's wonderful. 761 00:33:58,605 --> 00:34:02,238 {\an8}POGUE: That's right... soap! 762 00:34:02,271 --> 00:34:05,605 {\an1}Soap's interesting because a soap molecule 763 00:34:05,638 --> 00:34:08,238 {\an1}is a combination of two different types of molecules, 764 00:34:08,271 --> 00:34:11,205 {\an1}called polar and non-polar. 765 00:34:11,238 --> 00:34:13,738 ♪ 766 00:34:13,771 --> 00:34:17,205 For example, water molecules are polar. 767 00:34:17,238 --> 00:34:20,605 {\an1}Each one has a concentration of electrons in one part, 768 00:34:20,638 --> 00:34:25,271 {\an1}making it negative, which leaves another part more positive. 769 00:34:25,305 --> 00:34:27,871 That's polarity. 770 00:34:27,905 --> 00:34:30,471 {\an1}And it makes water molecules want to stick together, 771 00:34:30,505 --> 00:34:32,838 {\an1}each negative part attracted 772 00:34:32,871 --> 00:34:35,638 {\an1}to another molecule's positive part. 773 00:34:39,105 --> 00:34:42,138 An oil molecule, made up of carbon and hydrogen, 774 00:34:42,171 --> 00:34:45,505 {\an1}is an example of a non-polar molecule. 775 00:34:45,538 --> 00:34:48,371 {\an1}It has an even distribution of electrons... 776 00:34:48,405 --> 00:34:50,205 No polarity. 777 00:34:50,238 --> 00:34:53,471 {\an7}And less stickiness between molecules. 778 00:34:53,505 --> 00:34:59,571 {\an1}In fact, polarity is why oil and water don't mix. 779 00:34:59,605 --> 00:35:01,871 {\an1}The polar water molecules stick together, 780 00:35:01,905 --> 00:35:05,271 {\an1}keeping the oil molecules at bay. 781 00:35:05,305 --> 00:35:08,471 {\an1}The less dense oil floats on top. 782 00:35:10,138 --> 00:35:11,938 {\an1}That's also why trying to clean 783 00:35:11,971 --> 00:35:14,838 {\an1}oily grease off your hands with water alone, 784 00:35:14,871 --> 00:35:16,805 {\an1}doesn't work very well. 785 00:35:16,838 --> 00:35:19,471 {\an1}It actually won't come off, it's super oily. 786 00:35:19,505 --> 00:35:21,405 {\an1}The two just don't interact. 787 00:35:21,438 --> 00:35:23,605 {\an8}♪ 788 00:35:23,638 --> 00:35:26,605 {\an8}And that's where soap molecules come in. 789 00:35:26,638 --> 00:35:30,438 {\an1}They're hybrids; at one end are some negatively charged, 790 00:35:30,471 --> 00:35:33,538 {\an1}electron-rich oxygens, ready to interact 791 00:35:33,571 --> 00:35:36,205 {\an1}with polar molecules like water, 792 00:35:36,238 --> 00:35:40,571 {\an1}but the rest is a long, non-polar hydrocarbon tail, 793 00:35:40,605 --> 00:35:43,471 with no positive or negative charge. 794 00:35:43,505 --> 00:35:47,338 {\an1}It's more comfortable mixingwith other non-polar molecules, 795 00:35:47,371 --> 00:35:49,071 {\an1}like grease. 796 00:35:49,105 --> 00:35:52,105 {\an1}Put some soap on your greasy hands... 797 00:35:52,138 --> 00:35:53,371 Soapy! 798 00:35:55,438 --> 00:35:59,705 {\an1}And the soap's non-polar tails stick into the grease 799 00:35:59,738 --> 00:36:02,805 {\an1}while its polar heads act like handles, 800 00:36:02,838 --> 00:36:04,738 {\an1}ready to interact with the water 801 00:36:04,771 --> 00:36:08,205 {\an1}taking the grease along for the ride. 802 00:36:08,238 --> 00:36:10,938 {\an1}Here's another interesting soap fact. 803 00:36:10,971 --> 00:36:13,271 {\an1}Drop some soap into water, 804 00:36:13,305 --> 00:36:16,771 {\an1}and the molecules form little balls called micelles, 805 00:36:16,805 --> 00:36:20,771 {\an7}with their water-loving polar heads sticking out, 806 00:36:20,805 --> 00:36:26,171 {\an7}and their water-hating non-polar tails sticking in. 807 00:36:26,205 --> 00:36:28,938 {\an1}That naturally occurring little container 808 00:36:28,971 --> 00:36:31,738 {\an1}has piqued the interest of scientists like Anna. 809 00:36:31,771 --> 00:36:33,738 {\an8}♪ 810 00:36:33,771 --> 00:36:37,538 {\an7}Back at the lab, she adds some soap molecules to water 811 00:36:37,571 --> 00:36:40,638 {\an7}containing short fragments of RNA. 812 00:36:40,671 --> 00:36:45,271 {\an7}They've been tagged with a molecule that makes them glow. 813 00:36:45,305 --> 00:36:47,938 {\an8}Why RNA? 814 00:36:47,971 --> 00:36:49,738 {\an8}The current scientific consensus 815 00:36:49,771 --> 00:36:54,138 {\an8}is that a primitive form of RNAmay have been the first molecule 816 00:36:54,171 --> 00:36:57,271 {\an8}with the ability to replicate itself, 817 00:36:57,305 --> 00:37:00,205 {\an7}jump-starting evolution. 818 00:37:00,238 --> 00:37:01,605 Next stop... 819 00:37:01,638 --> 00:37:03,447 {\an1}Now we're going to go look at it under the microscope. 820 00:37:03,471 --> 00:37:05,671 POGUE: The microscope room... 821 00:37:06,938 --> 00:37:10,071 {\an1}where Anna loads up a sample she prepared yesterday. 822 00:37:10,105 --> 00:37:12,938 WANG: So this is what our soap molecules 823 00:37:12,971 --> 00:37:14,471 {\an1}have self-assembled into overnight. 824 00:37:14,505 --> 00:37:15,771 {\an1}POGUE: What are they, bubbles? 825 00:37:15,805 --> 00:37:18,138 WANG: Yeah, they're almost like bubbles 826 00:37:18,171 --> 00:37:19,405 {\an8}and so what we're looking here 827 00:37:19,438 --> 00:37:21,471 {\an7}is not the soap molecules themselves 828 00:37:21,505 --> 00:37:22,814 {\an8}but what they've been able to trap 829 00:37:22,838 --> 00:37:25,571 {\an8}inside these cell-sized structures. 830 00:37:25,605 --> 00:37:29,271 POGUE: Overnight, the soap micelles have self-assembled 831 00:37:29,305 --> 00:37:34,838 {\an1}into larger spheres, trapping the fluorescing RNA inside. 832 00:37:34,871 --> 00:37:38,571 {\an1}And if we could zoom into one of them... 833 00:37:38,605 --> 00:37:40,505 {\an7}we'd see that it actually consists 834 00:37:40,538 --> 00:37:43,171 {\an7}of two layers of soap molecules, 835 00:37:43,205 --> 00:37:45,405 {\an7}arranged with the water-loving heads 836 00:37:45,438 --> 00:37:48,138 {\an7}toward the inside and outside, 837 00:37:48,171 --> 00:37:51,971 {\an7}and the water-hating tails brought together. 838 00:37:52,005 --> 00:37:54,338 {\an7}When you have molecules that have a polar head group 839 00:37:54,371 --> 00:37:56,238 {\an1}and a non-polar tail 840 00:37:56,271 --> 00:37:58,838 {\an1}but you don't give themany oil to interact with, 841 00:37:58,871 --> 00:38:01,771 {\an1}the oily tails actually want to interact with each other. 842 00:38:01,805 --> 00:38:02,771 {\an1}And so you end up forming 843 00:38:02,805 --> 00:38:04,605 {\an1}these bilayer structures. 844 00:38:04,638 --> 00:38:06,305 Wait, so these are soap molecules 845 00:38:06,338 --> 00:38:08,271 and these are also soap molecules? 846 00:38:08,305 --> 00:38:09,771 Yeah. And they like to... 847 00:38:09,805 --> 00:38:10,881 assemble into this position? 848 00:38:10,905 --> 00:38:12,671 Yeah, that's right, so they like to form 849 00:38:12,705 --> 00:38:14,238 these really thin envelopes, 850 00:38:14,271 --> 00:38:16,147 and you can imagine thisstructure extending onwards 851 00:38:16,171 --> 00:38:19,205 and onwards and curvingaround and forming a sphere. 852 00:38:19,238 --> 00:38:20,381 {\an1}And that's what we're seeing here. 853 00:38:20,405 --> 00:38:22,338 {\an1}We're seeing this bilayer structure 854 00:38:22,371 --> 00:38:25,371 encapsulating some green-dyed RNA molecules. 855 00:38:25,405 --> 00:38:29,671 {\an8}POGUE: This lipid, bilayer structure isn't alive, 856 00:38:29,705 --> 00:38:32,471 {\an8}but it's familiar to biologists. 857 00:38:32,505 --> 00:38:35,638 {\an7}It's similar to the bilayer structure of the membranes 858 00:38:35,671 --> 00:38:39,938 {\an7}that surrounds something that is alive... cells. 859 00:38:39,971 --> 00:38:41,938 {\an7}Of course those are much more complicated 860 00:38:41,971 --> 00:38:44,005 {\an7}and more stable containers, 861 00:38:44,038 --> 00:38:46,371 {\an7}better at keeping things in or out, 862 00:38:46,405 --> 00:38:49,805 {\an7}though that feature comes at a price. 863 00:38:49,838 --> 00:38:51,905 {\an1}If you take the membranes that we have now 864 00:38:51,938 --> 00:38:55,271 {\an1}but get rid of all the highly evolved protein machinery, 865 00:38:55,305 --> 00:38:57,438 {\an1}what you're left with is just an inert sack. 866 00:38:57,471 --> 00:38:59,071 {\an1}It can't grow, it can't divide. 867 00:38:59,105 --> 00:39:00,705 {\an1}It can't even get nutrients in and out. 868 00:39:00,738 --> 00:39:04,471 {\an8}POGUE: That's why in the days of proto-life, 869 00:39:04,505 --> 00:39:08,471 {\an8}less-stable membranes built out of simpler molecules like soap 870 00:39:08,505 --> 00:39:11,338 {\an7}may have been an advantage. 871 00:39:11,371 --> 00:39:13,771 {\an1}Anna shows me an example. 872 00:39:13,805 --> 00:39:16,205 So what I'm about to do is I have 873 00:39:16,238 --> 00:39:18,347 some soapy water in here and I'm just going to add it. 874 00:39:18,371 --> 00:39:21,571 ♪ 875 00:39:21,605 --> 00:39:25,371 WANG: What happens is those soap molecules start incorporating 876 00:39:25,405 --> 00:39:27,047 {\an4}onto the existing membrane... Look at this, look at this! 877 00:39:27,071 --> 00:39:29,005 {\an5}Yeah! (chuckles) It just split! 878 00:39:29,038 --> 00:39:30,705 So they look pretty spherical now, 879 00:39:30,738 --> 00:39:32,571 but they're starting to wiggle a bit. 880 00:39:32,605 --> 00:39:34,538 And all of a sudden... 881 00:39:34,571 --> 00:39:38,071 {\an5}it looks like they might melt. Cell division! 882 00:39:38,105 --> 00:39:39,771 {\an5}POGUE: Wow. 883 00:39:39,805 --> 00:39:41,271 {\an1}Our cells grow and divide 884 00:39:41,305 --> 00:39:43,305 {\an1}because we have something giving instructions. 885 00:39:43,338 --> 00:39:44,571 {\an1}Yes. 886 00:39:44,605 --> 00:39:47,338 {\an7}But you're saying that billions of years ago, 887 00:39:47,371 --> 00:39:48,871 {\an7}none of that existed. 888 00:39:48,905 --> 00:39:50,781 {\an1}There's none of that in here, so what we're kind of simulating 889 00:39:50,805 --> 00:39:53,971 {\an1}is a condition where maybe these protocells have 890 00:39:54,005 --> 00:39:55,738 {\an7}floated somewhere down the stream, 891 00:39:55,771 --> 00:40:00,105 {\an7}and they've come across a pool of excess soap molecules, 892 00:40:00,138 --> 00:40:03,805 {\an7}and these soap molecules can join the membrane and grow it. 893 00:40:03,838 --> 00:40:05,238 {\an7}So I think what it means is that 894 00:40:05,271 --> 00:40:07,038 {\an1}we can still get simple cells 895 00:40:07,071 --> 00:40:09,471 {\an1}to divide by purely physical mechanisms, 896 00:40:09,505 --> 00:40:12,238 {\an1}and that's what we're trying to understand in the field, 897 00:40:12,271 --> 00:40:15,671 {\an1}like how do you get to do things that kind of seem like life 898 00:40:15,705 --> 00:40:18,205 and mimic life but without any biology? 899 00:40:18,238 --> 00:40:19,871 ♪ 900 00:40:19,905 --> 00:40:21,181 POGUE: In the early days of Earth, 901 00:40:21,205 --> 00:40:23,205 {\an1}soap or similar molecules 902 00:40:23,238 --> 00:40:27,605 {\an1}may have self-assembled into cell-like containers... 903 00:40:27,638 --> 00:40:28,981 {\an1}POGUE: Did they have the bilayerthing already? 904 00:40:29,005 --> 00:40:30,605 {\an1}They have a bilayer membrane.Yeah. 905 00:40:30,638 --> 00:40:33,871 POGUE: But Jack Szostak realizes that's just a start. 906 00:40:33,905 --> 00:40:38,471 There are many more steps on theroad from chemistry to biology. 907 00:40:38,505 --> 00:40:40,771 Once you got the right kinds of molecules, 908 00:40:40,805 --> 00:40:42,171 {\an1}which are pretty simple, 909 00:40:42,205 --> 00:40:44,638 they can assemble into membranes. 910 00:40:44,671 --> 00:40:48,805 {\an7}But they can't actually start to do anything interesting 911 00:40:48,838 --> 00:40:50,514 {\an7}in terms of, like, getting more complicated 912 00:40:50,538 --> 00:40:53,005 {\an1}and being more, like, more and more advanced life 913 00:40:53,038 --> 00:40:54,605 {\an1}until you have genetics.Yeah. 914 00:40:54,638 --> 00:40:58,938 {\an8}SZOSTAK: You need a hereditary material, something like RNA or DNA. 915 00:40:58,971 --> 00:41:02,505 {\an7}And once you've done that, you have cycles of replication, 916 00:41:02,538 --> 00:41:04,971 {\an7}because that's got to go on inside these protocells. 917 00:41:05,005 --> 00:41:08,071 {\an1}And it's got to happen just by chemistry and physics 918 00:41:08,105 --> 00:41:09,638 {\an1}because there were no enzymes. 919 00:41:09,671 --> 00:41:11,505 {\an1}There was no evolved machinery, right? 920 00:41:11,538 --> 00:41:13,471 So, in a sense, 921 00:41:13,505 --> 00:41:15,471 {\an4}the answer has to be simple.Yeah. 922 00:41:15,505 --> 00:41:18,305 {\an1}And we just have to figure out how it works. 923 00:41:18,338 --> 00:41:19,871 (chuckling) 924 00:41:19,905 --> 00:41:22,038 ♪ 925 00:41:22,071 --> 00:41:23,738 POGUE: Scientists like Jack and Anna 926 00:41:23,771 --> 00:41:25,838 are searching for the mysterious road 927 00:41:25,871 --> 00:41:27,738 {\an1}that led not only to life 928 00:41:27,771 --> 00:41:30,038 {\an1}but to the mechanism that's allowed it 929 00:41:30,071 --> 00:41:32,971 {\an1}to overcome adversity... Evolution. 930 00:41:33,005 --> 00:41:37,905 ♪ 931 00:41:37,938 --> 00:41:40,538 {\an1}Today, some scientists wonder 932 00:41:40,571 --> 00:41:43,938 {\an1}what if we could harness evolution's creative power 933 00:41:43,971 --> 00:41:47,971 {\an1}to solve some of our own challenges? 934 00:41:48,005 --> 00:41:49,105 {\an3}Wow. 935 00:41:49,138 --> 00:41:51,405 FRANCES ARNOLD: Nature is constantly changing. 936 00:41:51,438 --> 00:41:52,705 Hi, boys. 937 00:41:52,738 --> 00:41:56,071 Because there is this tremendous effort to survive. 938 00:41:56,105 --> 00:41:59,938 {\an1}If you can harness that power, that innovation 939 00:41:59,971 --> 00:42:01,871 {\an7}that nature is doing 940 00:42:01,905 --> 00:42:05,671 {\an7}and direct it in a beneficial way, 941 00:42:05,705 --> 00:42:07,505 {\an8}then we can use that power of innovation 942 00:42:07,538 --> 00:42:11,405 {\an1}to solve some of our really tough problems. 943 00:42:11,438 --> 00:42:14,938 POGUE: Harnessing the innovative power of evolution 944 00:42:14,971 --> 00:42:16,405 {\an1}is at the heart of the work 945 00:42:16,438 --> 00:42:19,671 {\an1}of chemical engineer Frances Arnold of Caltech 946 00:42:19,705 --> 00:42:21,705 {\an1}in Pasadena, California. 947 00:42:21,738 --> 00:42:23,638 {\an1}That could be a huge deal in the world. 948 00:42:23,671 --> 00:42:25,171 {\an1}I hope so. 949 00:42:25,205 --> 00:42:28,471 POGUE: And she's used it to engineer new molecules 950 00:42:28,505 --> 00:42:31,538 {\an1}to solve a wide range of problems. 951 00:42:31,571 --> 00:42:34,371 {\an7}From the search for new antibiotics, 952 00:42:34,405 --> 00:42:37,671 {\an7}or methods to convert waste into biofuels, 953 00:42:37,705 --> 00:42:40,171 {\an7}to teaching cells to bond elements 954 00:42:40,205 --> 00:42:42,838 {\an7}in ways never before seen in nature. 955 00:42:43,771 --> 00:42:45,338 ARNOLD: So do come if you're interested 956 00:42:45,371 --> 00:42:47,838 in the process of protein engineering, 957 00:42:47,871 --> 00:42:50,038 {\an1}because that's the future, so all of you 958 00:42:50,071 --> 00:42:51,671 {\an1}who are going to do... 959 00:42:51,705 --> 00:42:53,138 POGUE: She's achieved her successes 960 00:42:53,171 --> 00:42:56,205 {\an1}by discovering new catalysts, 961 00:42:56,238 --> 00:42:58,305 {\an1}the materials that speed up chemical reactions 962 00:42:58,338 --> 00:43:00,738 {\an1}without getting consumed by them. 963 00:43:00,771 --> 00:43:02,705 {\an1}In C edge functionalization... 964 00:43:02,738 --> 00:43:07,971 POGUE: In living things, catalysts are called enzymes... 965 00:43:08,005 --> 00:43:10,838 For example, the protein rubisco. 966 00:43:10,871 --> 00:43:13,338 {\an1}Enzymes help facilitate the reactions 967 00:43:13,371 --> 00:43:15,305 {\an1}that make life possible. 968 00:43:15,338 --> 00:43:18,205 ARNOLD: The reason that you and I can sit here and talk 969 00:43:18,238 --> 00:43:22,638 {\an1}is that we have thousands of catalysts in us, proteins, 970 00:43:22,671 --> 00:43:24,871 that can convert the food we eat 971 00:43:24,905 --> 00:43:27,605 {\an1}into the thoughts that you think... 972 00:43:27,638 --> 00:43:29,505 {\an1}and the motor mouth, right? (chuckles) 973 00:43:29,538 --> 00:43:32,205 {\an1}These are catalysts that do all this chemistry. 974 00:43:32,238 --> 00:43:34,205 These are chemical transformations 975 00:43:34,238 --> 00:43:36,205 that make life possible. 976 00:43:36,238 --> 00:43:37,738 {\an8}♪ 977 00:43:37,771 --> 00:43:39,705 POGUE: In fact they work so well, 978 00:43:39,738 --> 00:43:42,338 {\an1}engineers and scientists have wanted to find a way 979 00:43:42,371 --> 00:43:44,305 {\an1}to co-opt the idea, 980 00:43:44,338 --> 00:43:47,871 {\an1}to create new enzymes that would do our bidding, 981 00:43:47,905 --> 00:43:50,871 {\an1}assisting reactions that aren't found in nature at all. 982 00:43:50,905 --> 00:43:53,771 {\an1}The question is how? 983 00:43:53,805 --> 00:43:59,271 ARNOLD: Many scientists and engineers feel that 984 00:43:59,305 --> 00:44:01,605 {\an1}in order to design a new product, 985 00:44:01,638 --> 00:44:03,771 {\an1}you sit down and you calculate, 986 00:44:03,805 --> 00:44:07,938 {\an1}you know, the right anglesand the right weights and loads. 987 00:44:07,971 --> 00:44:09,238 {\an1}I come from a different 988 00:44:09,271 --> 00:44:12,538 {\an1}point of view, that these very complicated things 989 00:44:12,571 --> 00:44:14,305 are the products of evolution. 990 00:44:14,338 --> 00:44:17,938 {\an1}So I say, "Let's just go straight to the answer, 991 00:44:17,971 --> 00:44:21,371 {\an1}using this gift given to us." 992 00:44:21,405 --> 00:44:25,105 ♪ 993 00:44:25,138 --> 00:44:26,505 POGUE: Frances uses an approach 994 00:44:26,538 --> 00:44:28,005 {\an1}called directed evolution. 995 00:44:28,038 --> 00:44:31,838 ARNOLD: One way to think about directing evolution, 996 00:44:31,871 --> 00:44:34,505 {\an1}is it's like breeding. 997 00:44:34,538 --> 00:44:37,138 {\an1}It's like breeding cats or dogs. 998 00:44:37,171 --> 00:44:38,771 {\an8}♪ 999 00:44:38,805 --> 00:44:42,705 POGUE: With a specific end goal in mind, 1000 00:44:42,738 --> 00:44:44,538 {\an1}She starts with DNA 1001 00:44:44,571 --> 00:44:46,838 {\an1}that encodes for some protein catalysts 1002 00:44:46,871 --> 00:44:49,271 {\an1}that have some promising traits, 1003 00:44:49,305 --> 00:44:51,071 {\an1}depending on what she's looking for. 1004 00:44:51,105 --> 00:44:57,305 {\an1}The DNA gets copied in a waythat produces random mutations. 1005 00:44:57,338 --> 00:45:00,471 {\an1}She puts that into microorganisms that multiply 1006 00:45:00,505 --> 00:45:04,105 {\an1}and produce a variety of slightly different proteins. 1007 00:45:04,138 --> 00:45:05,905 ARNOLD: So you have a gene, 1008 00:45:05,938 --> 00:45:08,938 {\an1}the organism reads the gene, makes the proteins, 1009 00:45:08,971 --> 00:45:10,338 and they're all slightly different, 1010 00:45:10,371 --> 00:45:12,271 {\an1}just like your children... (laughs) 1011 00:45:12,305 --> 00:45:16,338 but now I can decide who goes on to parent the next generation 1012 00:45:16,371 --> 00:45:20,171 {\an1}because I measure what those proteins do. 1013 00:45:20,205 --> 00:45:22,371 POGUE: Frances tests the results 1014 00:45:22,405 --> 00:45:25,038 {\an1}to see if any represent a step in the right direction. 1015 00:45:25,071 --> 00:45:26,738 {\an1}If so, that becomes 1016 00:45:26,771 --> 00:45:31,571 {\an1}the new starting point, and she repeats the process. 1017 00:45:33,738 --> 00:45:36,738 ARNOLD: To see how quickly you can train 1018 00:45:36,771 --> 00:45:39,038 {\an1}enzymes, that's what we're doing, we're training them, 1019 00:45:39,071 --> 00:45:40,305 {\an1}we're breeding them... 1020 00:45:40,338 --> 00:45:45,005 {\an1}to do something that perhaps nature never did before. 1021 00:45:45,038 --> 00:45:48,205 {\an1}When you discover that they've learned how to do that 1022 00:45:48,238 --> 00:45:52,771 {\an1}and they do it better than anyhuman can do, it is so exciting. 1023 00:45:52,805 --> 00:45:55,038 {\an1}♪ 1024 00:45:55,071 --> 00:45:59,605 POGUE: To see how directed evolution can work outside the lab... 1025 00:45:59,638 --> 00:46:01,481 {\an1}Farming has always been about increasing productivity. 1026 00:46:01,505 --> 00:46:03,271 POGUE: Frances suggested that I contact 1027 00:46:03,305 --> 00:46:06,905 {\an1}one of her former students, Pedro Coelho. 1028 00:46:06,938 --> 00:46:08,838 {\an1}Along with a partner, 1029 00:46:08,871 --> 00:46:12,138 {\an1}she and Pedro founded a company Provivi, 1030 00:46:12,171 --> 00:46:13,905 {\an1}based in Santa Monica. 1031 00:46:13,938 --> 00:46:17,405 {\an1}Pedro is the CEO. 1032 00:46:17,438 --> 00:46:21,538 {\an1}Provivi makes a chemical to fight this agricultural pest, 1033 00:46:21,571 --> 00:46:24,471 {\an1}the fall army worm. 1034 00:46:24,505 --> 00:46:26,605 COELHO: It's a pest that is native to the Americas, 1035 00:46:26,638 --> 00:46:30,505 {\an1}but in the last three years, it's invaded all of Africa 1036 00:46:30,538 --> 00:46:31,838 and now, all of Asia, 1037 00:46:31,871 --> 00:46:33,938 {\an7}going from India to China, 1038 00:46:33,971 --> 00:46:36,438 {\an7}and it's a very difficult pest to control 1039 00:46:36,471 --> 00:46:38,871 because once it infests the corn, 1040 00:46:38,905 --> 00:46:41,438 {\an1}it hides inside the corn plant 1041 00:46:41,471 --> 00:46:44,538 {\an1}where the insecticides can't touch it. 1042 00:46:44,571 --> 00:46:45,938 ♪ 1043 00:46:45,971 --> 00:46:49,171 POGUE: But Provivi's chemical isn't a pesticide, 1044 00:46:49,205 --> 00:46:50,871 {\an1}it doesn't kill anything. 1045 00:46:52,405 --> 00:46:56,838 {\an1}Instead it disrupts the way fall army worms mate. 1046 00:46:56,871 --> 00:46:58,871 {\an1}Here's how it works: 1047 00:46:58,905 --> 00:47:03,005 {\an7}Fall army worms eventually become adult moths, 1048 00:47:03,038 --> 00:47:05,338 {\an7}and that's when they mate. 1049 00:47:05,371 --> 00:47:09,571 {\an7}To attract males, female moths release a pheromone, 1050 00:47:09,605 --> 00:47:14,305 {\an7}a molecule that acts as a chemical signal. 1051 00:47:14,338 --> 00:47:17,005 {\an7}So the female moth will release a little bit of pheromone, 1052 00:47:17,038 --> 00:47:20,171 {\an1}and then the male will pick up that signal with his antenna 1053 00:47:20,205 --> 00:47:24,338 {\an1}and will fly towards her to mate and reproduce. 1054 00:47:24,371 --> 00:47:30,171 POGUE: She uses only a small amount, but it's incredibly potent. 1055 00:47:30,205 --> 00:47:34,105 {\an1}It can attract males from up to a mile away. 1056 00:47:34,138 --> 00:47:35,871 ARNOLD: These are complicated molecules. 1057 00:47:35,905 --> 00:47:38,071 These are the Chanel No. 5 1058 00:47:38,105 --> 00:47:40,471 of insects. (laughter) 1059 00:47:40,505 --> 00:47:44,705 POGUE: But such a powerful "sex perfume" 1060 00:47:44,738 --> 00:47:47,838 {\an1}can become a means of control. 1061 00:47:47,871 --> 00:47:51,438 {\an1}So imagine, now, you come with a bottle of Chanel No. 5 1062 00:47:51,471 --> 00:47:53,171 {\an1}and you spray it everywhere. 1063 00:47:53,205 --> 00:47:55,138 {\an1}(spritzing sound effect) 1064 00:47:55,171 --> 00:47:56,938 ARNOLD: Then he can't find her, 1065 00:47:56,971 --> 00:48:01,671 {\an1}and they don't mate and have caterpillars. 1066 00:48:01,705 --> 00:48:02,938 ♪ 1067 00:48:02,971 --> 00:48:04,671 POGUE: Provivi has figured out 1068 00:48:04,705 --> 00:48:08,038 how to replicate the fall army pheromone, 1069 00:48:08,071 --> 00:48:11,705 {\an1}and put it into a slow release spray for crops. 1070 00:48:11,738 --> 00:48:13,571 {\an1}Which you have to imagine 1071 00:48:13,605 --> 00:48:16,638 {\an1}is very confusing for the male moths. 1072 00:48:16,671 --> 00:48:19,605 {\an1}They have so much trouble finding females 1073 00:48:19,638 --> 00:48:23,771 {\an1}that in the end there are fewer eggs, and worms. 1074 00:48:23,805 --> 00:48:26,005 {\an7}So you're not killing these things, 1075 00:48:26,038 --> 00:48:28,338 {\an7}and you're not driving them away, 1076 00:48:28,371 --> 00:48:29,805 {\an7}you're just confusing them? 1077 00:48:29,838 --> 00:48:34,271 {\an1}Yeah, so it's not a repellant, and it's not a kill agent, 1078 00:48:34,305 --> 00:48:36,871 {\an1}it's simply a mating disruptor. 1079 00:48:36,905 --> 00:48:39,305 ♪ 1080 00:48:39,338 --> 00:48:43,371 POGUE: Pedro tells me using pheromones to combat pests isn't new. 1081 00:48:45,438 --> 00:48:47,105 But until now, it's been expensive, 1082 00:48:47,138 --> 00:48:50,838 {\an1}and therefore limited to high-value smaller crops 1083 00:48:50,871 --> 00:48:53,838 {\an1}like apples or grapes. 1084 00:48:53,871 --> 00:48:57,338 {\an1}So the real breakthrough at Provivi isn't using pheromones 1085 00:48:57,371 --> 00:49:00,371 {\an1}but making them inexpensively. 1086 00:49:00,405 --> 00:49:04,971 {\an1}They've studied the enzyme catalysts the insect uses 1087 00:49:05,005 --> 00:49:06,605 {\an1}to make the pheromone, 1088 00:49:06,638 --> 00:49:12,471 {\an1}and moved the genes for those enzyme catalysts into yeast. 1089 00:49:12,505 --> 00:49:14,905 {\an1}Then, through directed evolution, 1090 00:49:14,938 --> 00:49:17,971 {\an1}they optimize those little yeast cell factories 1091 00:49:18,005 --> 00:49:21,438 {\an1}for larger scale production in vessels similar 1092 00:49:21,471 --> 00:49:24,138 {\an1}to those used for brewing beer. 1093 00:49:24,171 --> 00:49:25,638 (machine beeps) 1094 00:49:25,671 --> 00:49:28,338 COELHO: And the key is that by just changing the microbe, 1095 00:49:28,371 --> 00:49:29,905 {\an1}we can make many different pheromones 1096 00:49:29,938 --> 00:49:31,438 {\an1}but using the same infrastructure, 1097 00:49:31,471 --> 00:49:33,171 {\an1}which gives us the economies of scale 1098 00:49:33,205 --> 00:49:35,305 {\an1}and should make this cost effective. 1099 00:49:35,338 --> 00:49:37,505 POGUE: Making it possible to use 1100 00:49:37,538 --> 00:49:39,738 on staple crops grown around the world, 1101 00:49:39,771 --> 00:49:41,138 like corn, 1102 00:49:41,171 --> 00:49:42,938 and rice. 1103 00:49:42,971 --> 00:49:44,771 COELHO: Our mission very much 1104 00:49:44,805 --> 00:49:46,871 {\an1}is to take this proven tool of pheromones 1105 00:49:46,905 --> 00:49:49,138 {\an1}to the largest markets of agriculture, 1106 00:49:49,171 --> 00:49:51,305 {\an1}which are the staples of humankind. 1107 00:49:51,338 --> 00:49:54,538 ♪ 1108 00:49:54,571 --> 00:49:57,205 POGUE: Companies like Provivi aren't the only sign 1109 00:49:57,238 --> 00:50:00,038 {\an1}that directed evolution and cell factories 1110 00:50:00,071 --> 00:50:03,738 {\an1}are having a big impact on manufacturing. 1111 00:50:03,771 --> 00:50:08,071 {\an1}Well, I teach this course called Reaction Engineering 1112 00:50:08,105 --> 00:50:10,205 which is how do you take chemical reactions 1113 00:50:10,238 --> 00:50:11,871 and scale them up? 1114 00:50:11,905 --> 00:50:17,405 POGUE: In 2018, Frances Arnold won the Nobel Prize in Chemistry, 1115 00:50:17,438 --> 00:50:21,638 {\an1}for her pioneering work in directed evolution. 1116 00:50:21,671 --> 00:50:22,938 Is this idea 1117 00:50:22,971 --> 00:50:25,205 of chemistry and biology 1118 00:50:25,238 --> 00:50:27,405 to manufacture stuff, 1119 00:50:27,438 --> 00:50:30,538 is that catchingon these days? 1120 00:50:30,571 --> 00:50:33,005 It is, it most definitely is. 1121 00:50:33,038 --> 00:50:36,705 {\an1}I think the future is so exciting, 1122 00:50:36,738 --> 00:50:39,771 {\an1}because now what happens is with these tools 1123 00:50:39,805 --> 00:50:43,238 {\an1}of being able to manipulate DNA, 1124 00:50:43,271 --> 00:50:45,571 {\an1}and the code of life, really, 1125 00:50:45,605 --> 00:50:50,071 we can now merge all these beautiful mechanisms 1126 00:50:50,105 --> 00:50:51,705 of the biological world 1127 00:50:51,738 --> 00:50:54,471 with the inventions of human chemistry. 1128 00:50:54,505 --> 00:50:58,638 And that way, it merges in new innovations. 1129 00:50:58,671 --> 00:51:02,005 ♪ 1130 00:51:02,038 --> 00:51:05,305 POGUE: That both chemists and biologists have a lot to learn 1131 00:51:05,338 --> 00:51:08,771 {\an1}from each other should come as no surprise. 1132 00:51:10,138 --> 00:51:12,271 {\an1}But what is surprising is that 1133 00:51:12,305 --> 00:51:15,271 {\an1}biology would arise out of chemistry at all. 1134 00:51:15,305 --> 00:51:16,638 {\an1}Look at this, look at this! 1135 00:51:16,671 --> 00:51:18,038 {\an1}Cell division! 1136 00:51:18,071 --> 00:51:20,871 {\an1}(dramatic voice): The blueprints of life! 1137 00:51:20,905 --> 00:51:24,138 {\an1}The origin of life remains one of the great 1138 00:51:24,171 --> 00:51:27,205 {\an1}unsolved mysteries of science. 1139 00:51:27,238 --> 00:51:29,571 {\an1}Was the mix of chemicals on early Earth 1140 00:51:29,605 --> 00:51:32,271 {\an1}destined to give rise to life? 1141 00:51:32,305 --> 00:51:33,638 {\an1}And once it started, 1142 00:51:33,671 --> 00:51:36,905 {\an1}was the road that lead to the chemical complexity 1143 00:51:36,938 --> 00:51:38,371 {\an1}of photosynthesis 1144 00:51:38,405 --> 00:51:41,471 {\an1}and the harnessing of the power of the sun... 1145 00:51:41,505 --> 00:51:43,314 {\an1}Probably the most important process on the planet. 1146 00:51:43,338 --> 00:51:46,405 POGUE: the only road to be taken? 1147 00:51:46,438 --> 00:51:51,071 {\an1}Are we alone in the universe? 1148 00:51:51,105 --> 00:51:56,005 {\an1}Or just the local branch of cosmic bio-chem? 1149 00:51:56,038 --> 00:51:59,705 {\an1}The answers to questions like these will be found 1150 00:51:59,738 --> 00:52:02,405 {\an1}only through science... 1151 00:52:02,438 --> 00:52:05,838 {\an1}as we go beyond the elements. 1152 00:52:05,871 --> 00:52:08,971 ♪ 1153 00:52:33,105 --> 00:52:37,738 {\an8}♪ 1154 00:52:48,805 --> 00:52:52,738 {\an7}To order this program on DVD, visit ShopPBS 1155 00:52:52,771 --> 00:52:56,105 {\an7}or call 1-800-PLAY-PBS. 1156 00:52:56,138 --> 00:52:58,771 {\an7}Episodes of "NOVA" are available with Passport. 1157 00:52:58,805 --> 00:53:02,571 {\an7}"NOVA" is also available on Amazon Prime Video. 1158 00:53:02,605 --> 00:53:07,705 {\an8}♪ 91744