0:00:00.167,0:00:03.181 Recently I visited Beloit, Wisconsin. 0:00:03.181,0:00:06.829 And I was there to honor a great 20th century explorer, 0:00:06.829,0:00:08.871 Roy Chapman Andrews. 0:00:08.871,0:00:11.715 During his time at the American Museum of Natural History, 0:00:11.715,0:00:15.815 Andrews led a range of expeditions to uncharted regions, 0:00:15.815,0:00:17.550 like here in the Gobi Desert. 0:00:17.550,0:00:18.958 He was quite a figure. 0:00:18.958,0:00:22.632 He was later, it's said, the basis of the Indiana Jones character. 0:00:22.632,0:00:24.829 And when I was in Beloit, Wisconsin, 0:00:24.829,0:00:28.962 I gave a public lecture to a group of middle school students. 0:00:28.962,0:00:30.531 And I'm here to tell you, 0:00:30.531,0:00:33.235 if there's anything more intimidating than talking here at TED, 0:00:33.235,0:00:35.067 it'll be trying to hold the attention 0:00:35.067,0:00:38.960 of a group of a thousand 12-year-olds for a 45-minute lecture. 0:00:38.960,0:00:40.839 Don't try that one. 0:00:40.839,0:00:44.381 At the end of the lecture they asked a number of questions, 0:00:44.381,0:00:47.683 but there was one that's really stuck with me since then. 0:00:47.683,0:00:49.600 There was a young girl who stood up, 0:00:49.600,0:00:50.931 and she asked the question: 0:00:50.931,0:00:52.979 "Where should we explore?" 0:00:52.979,0:00:55.110 I think there's a sense that many of us have 0:00:55.110,0:00:57.929 that the great age of exploration on Earth is over, 0:00:57.929,0:00:59.461 that for the next generation 0:00:59.461,0:01:02.879 they're going to have to go to outer space or the deepest oceans 0:01:02.879,0:01:05.429 in order to find something significant to explore. 0:01:05.429,0:01:07.929 But is that really the case? 0:01:07.929,0:01:10.925 Is there really nowhere significant for us to explore 0:01:10.925,0:01:12.650 left here on Earth? 0:01:12.650,0:01:13.833 It sort of made me think back 0:01:13.833,0:01:16.583 to one of my favorite explorers in the history of biology. 0:01:16.583,0:01:19.917 This is an explorer of the unseen world, Martinus Beijerinck. 0:01:19.917,0:01:22.375 So Beijerinck set out to discover the cause 0:01:22.375,0:01:24.740 of tobacco mosaic disease. 0:01:24.740,0:01:28.292 What he did is he took the infected juice from tobacco plants 0:01:28.292,0:01:31.229 and he would filter it through smaller and smaller filters. 0:01:31.229,0:01:32.795 And he reached the point 0:01:32.795,0:01:35.806 where he felt that there must be something out there 0:01:35.806,0:01:39.250 that was smaller than the smallest forms of life that were ever known -- 0:01:39.250,0:01:41.294 bacteria, at the time. 0:01:41.294,0:01:44.682 He came up with a name for his mystery agent. 0:01:44.682,0:01:46.708 He called it the virus -- 0:01:46.708,0:01:48.983 Latin for "poison." 0:01:48.983,0:01:51.760 And in uncovering viruses, 0:01:51.760,0:01:55.381 Beijerinck really opened this entirely new world for us. 0:01:55.381,0:01:57.375 We now know that viruses make up the majority 0:01:57.375,0:01:59.667 of the genetic information on our planet, 0:01:59.667,0:02:01.333 more than the genetic information 0:02:01.333,0:02:03.083 of all other forms of life combined. 0:02:03.083,0:02:06.177 And obviously there's been tremendous practical applications 0:02:06.177,0:02:07.431 associated with this world -- 0:02:07.431,0:02:09.833 things like the eradication of smallpox, 0:02:09.833,0:02:13.488 the advent of a vaccine against cervical cancer, 0:02:13.488,0:02:17.087 which we now know is mostly caused by human papillomavirus. 0:02:17.087,0:02:18.760 And Beijerinck's discovery, 0:02:18.760,0:02:21.481 this was not something that occurred 500 years ago. 0:02:21.481,0:02:24.160 It was a little over 100 years ago 0:02:24.160,0:02:26.580 that Beijerinck discovered viruses. 0:02:26.580,0:02:28.467 So basically we had automobiles, 0:02:28.467,0:02:30.710 but we were unaware of the forms of life 0:02:30.710,0:02:33.716 that make up most of the genetic information on our planet. 0:02:33.716,0:02:35.898 We now have these amazing tools 0:02:35.898,0:02:38.208 to allow us to explore the unseen world -- 0:02:38.208,0:02:40.221 things like deep sequencing, 0:02:40.221,0:02:43.785 which allow us to do much more than just skim the surface 0:02:43.785,0:02:46.875 and look at individual genomes from a particular species, 0:02:46.875,0:02:49.370 but to look at entire metagenomes, 0:02:49.370,0:02:53.550 the communities of teeming microorganisms in, on and around us 0:02:53.550,0:02:57.071 and to document all of the genetic information in these species. 0:02:57.071,0:02:58.542 We can apply these techniques 0:02:58.542,0:03:03.052 to things from soil to skin and everything in between. 0:03:03.052,0:03:06.042 In my organization we now do this on a regular basis 0:03:06.042,0:03:08.421 to identify the causes of outbreaks 0:03:08.421,0:03:11.710 that are unclear exactly what causes them. 0:03:11.710,0:03:14.042 And just to give you a sense of how this works, 0:03:14.042,0:03:17.042 imagine that we took a nasal swab from every single one of you. 0:03:17.042,0:03:18.404 And this is something we commonly do 0:03:18.404,0:03:21.398 to look for respiratory viruses like influenza. 0:03:21.398,0:03:23.250 The first thing we would see 0:03:23.250,0:03:26.300 is a tremendous amount of genetic information. 0:03:26.300,0:03:28.708 And if we started looking into that genetic information, 0:03:28.708,0:03:31.043 we'd see a number of usual suspects out there -- 0:03:31.043,0:03:32.836 of course, a lot of human genetic information, 0:03:32.836,0:03:35.708 but also bacterial and viral information, 0:03:35.708,0:03:38.875 mostly from things that are completely harmless within your nose. 0:03:38.875,0:03:41.787 But we'd also see something very, very surprising. 0:03:41.787,0:03:43.862 As we started to look at this information, 0:03:43.862,0:03:48.208 we would see that about 20 percent of the genetic information in your nose 0:03:48.208,0:03:51.125 doesn't match anything that we've ever seen before -- 0:03:51.125,0:03:54.296 no plant, animal, fungus, virus or bacteria. 0:03:54.296,0:03:57.800 Basically we have no clue what this is. 0:03:57.800,0:04:01.920 And for the small group of us who actually study this kind of data, 0:04:01.920,0:04:05.635 a few of us have actually begun to call this information 0:04:05.635,0:04:08.037 biological dark matter. 0:04:08.037,0:04:10.985 We know it's not anything that we've seen before; 0:04:10.985,0:04:14.092 it's sort of the equivalent of an uncharted continent 0:04:14.092,0:04:16.810 right within our own genetic information. 0:04:16.810,0:04:18.187 And there's a lot of it. 0:04:18.187,0:04:21.673 If you think 20 percent of genetic information in your nose is a lot 0:04:21.673,0:04:23.292 of biological dark matter, 0:04:23.292,0:04:25.042 if we looked at your gut, 0:04:25.042,0:04:28.738 up to 40 or 50 percent of that information is biological dark matter. 0:04:28.738,0:04:30.977 And even in the relatively sterile blood, 0:04:30.977,0:04:33.958 around one to two percent of this information is dark matter -- 0:04:33.958,0:04:38.706 can't be classified, can't be typed or matched with anything we've seen before. 0:04:38.706,0:04:41.333 At first we thought that perhaps this was artifact. 0:04:41.333,0:04:44.585 These deep sequencing tools are relatively new. 0:04:44.585,0:04:46.658 But as they become more and more accurate, 0:04:46.658,0:04:50.246 we've determined that this information is a form of life, 0:04:50.246,0:04:52.833 or at least some of it is a form of life. 0:04:52.833,0:04:57.198 And while the hypotheses for explaining the existence of biological dark matter 0:04:57.198,0:04:59.136 are really only in their infancy, 0:04:59.136,0:05:02.813 there's a very, very exciting possibility that exists: 0:05:02.813,0:05:06.292 that buried in this life, in this genetic information, 0:05:06.292,0:05:10.780 are signatures of as of yet unidentified life. 0:05:10.780,0:05:14.715 That as we explore these strings of A's, T's, C's and G's, 0:05:14.715,0:05:18.050 we may uncover a completely new class of life 0:05:18.050,0:05:20.462 that, like Beijerinck, will fundamentally change 0:05:20.462,0:05:22.658 the way that we think about the nature of biology. 0:05:22.658,0:05:27.087 That perhaps will allow us to identify the cause of a cancer that afflicts us 0:05:27.087,0:05:30.619 or identify the source of an outbreak that we aren't familiar with 0:05:30.619,0:05:33.513 or perhaps create a new tool in molecular biology. 0:05:33.513,0:05:35.198 I'm pleased to announce that, 0:05:35.198,0:05:40.140 along with colleagues at Stanford and Caltech and UCSF, 0:05:40.140,0:05:41.779 we're currently starting an initiative 0:05:41.779,0:05:45.752 to explore biological dark matter for the existence of new forms of life. 0:05:45.752,0:05:47.896 A little over a hundred years ago, 0:05:47.896,0:05:50.600 people were unaware of viruses, 0:05:50.600,0:05:54.839 the forms of life that make up most of the genetic information on our planet. 0:05:54.839,0:05:57.421 A hundred years from now, people may marvel 0:05:57.421,0:06:00.875 that we were perhaps completely unaware of a new class of life 0:06:00.875,0:06:04.179 that literally was right under our noses. 0:06:04.179,0:06:07.502 It's true, we may have charted all the continents on the planet 0:06:07.502,0:06:10.583 and we may have discovered all the mammals that are out there, 0:06:10.583,0:06:14.139 but that doesn't mean that there's nothing left to explore on Earth. 0:06:14.139,0:06:16.144 Beijerinck and his kind 0:06:16.144,0:06:19.831 provide an important lesson for the next generation of explorers -- 0:06:19.831,0:06:23.163 people like that young girl from Beloit, Wisconsin. 0:06:23.163,0:06:26.958 And I think if we phrase that lesson, it's something like this: 0:06:26.958,0:06:31.187 Don't assume that what we currently think is out there is the full story. 0:06:31.187,0:06:36.250 Go after the dark matter in whatever field you choose to explore. 0:06:36.250,0:06:38.369 There are unknowns all around us 0:06:38.369,0:06:40.750 and they're just waiting to be discovered. 0:06:40.750,0:06:42.419 Thank you. 0:06:42.419,0:06:47.367 (Applause)