[Script Info]
Title: 
[Events]
Format: Layer, Start, End, Style, Name, MarginL, MarginR, MarginV, Effect, Text
Dialogue: 0,0:00:02.42,0:00:03.64,Default,,0000,0000,0000,,I live in Utah,
Dialogue: 0,0:00:03.67,0:00:06.58,Default,,0000,0000,0000,,a place known for having some\Nof the most awe-inspiring
Dialogue: 0,0:00:06.60,0:00:09.14,Default,,0000,0000,0000,,natural landscapes on this planet.
Dialogue: 0,0:00:09.17,0:00:12.62,Default,,0000,0000,0000,,It's easy to be overwhelmed\Nby these amazing views,
Dialogue: 0,0:00:12.65,0:00:16.51,Default,,0000,0000,0000,,and to be really fascinated by these\Nsometimes alien-looking formations.
Dialogue: 0,0:00:16.54,0:00:20.20,Default,,0000,0000,0000,,As a scientist, I love\Nobserving the natural world.
Dialogue: 0,0:00:20.22,0:00:21.97,Default,,0000,0000,0000,,But as a cell biologist,
Dialogue: 0,0:00:21.100,0:00:24.79,Default,,0000,0000,0000,,I'm much more interested\Nin understanding the natural world
Dialogue: 0,0:00:24.82,0:00:27.08,Default,,0000,0000,0000,,at a much, much smaller scale.
Dialogue: 0,0:00:27.93,0:00:30.71,Default,,0000,0000,0000,,I'm a molecular animator,\Nand I work with other researchers
Dialogue: 0,0:00:30.74,0:00:33.63,Default,,0000,0000,0000,,to create visualizations\Nof molecules that are so small,
Dialogue: 0,0:00:33.66,0:00:35.25,Default,,0000,0000,0000,,they're essentially invisible.
Dialogue: 0,0:00:35.28,0:00:38.14,Default,,0000,0000,0000,,These molecules are smaller\Nthan the wavelength of light,
Dialogue: 0,0:00:38.16,0:00:40.41,Default,,0000,0000,0000,,which means that we can\Nnever see them directly,
Dialogue: 0,0:00:40.43,0:00:42.50,Default,,0000,0000,0000,,even with the best light microscopes.
Dialogue: 0,0:00:42.52,0:00:44.64,Default,,0000,0000,0000,,So do I create visualizations of things
Dialogue: 0,0:00:44.67,0:00:46.64,Default,,0000,0000,0000,,that are so small we can't see them?
Dialogue: 0,0:00:46.66,0:00:48.82,Default,,0000,0000,0000,,Scientists, like my collaborators,
Dialogue: 0,0:00:48.85,0:00:50.93,Default,,0000,0000,0000,,can spend their entire\Nprofessional careers
Dialogue: 0,0:00:50.95,0:00:53.52,Default,,0000,0000,0000,,working to understand\None molecular process.
Dialogue: 0,0:00:53.55,0:00:56.01,Default,,0000,0000,0000,,To do this, they carry out\Na series of experiments
Dialogue: 0,0:00:56.04,0:00:59.14,Default,,0000,0000,0000,,that each can tell us\Na small piece of the puzzle.
Dialogue: 0,0:00:59.16,0:01:01.95,Default,,0000,0000,0000,,One kind of experiment can tell us\Nabout the protein shape,
Dialogue: 0,0:01:01.98,0:01:03.19,Default,,0000,0000,0000,,while another can tell us
Dialogue: 0,0:01:03.20,0:01:05.50,Default,,0000,0000,0000,,about what other proteins\Nit might interact with
Dialogue: 0,0:01:05.53,0:01:08.44,Default,,0000,0000,0000,,and another can tell us\Nabout where it can be found in a cell.
Dialogue: 0,0:01:08.46,0:01:12.47,Default,,0000,0000,0000,,And all of these bits of information\Ncan be used to come up with a hypothesis,
Dialogue: 0,0:01:12.50,0:01:15.60,Default,,0000,0000,0000,,a story, essentially,\Nof how a molecule might work.
Dialogue: 0,0:01:16.99,0:01:20.95,Default,,0000,0000,0000,,My job is to take these ideas\Nand turn them into an animation.
Dialogue: 0,0:01:20.97,0:01:22.16,Default,,0000,0000,0000,,This can be tricky,
Dialogue: 0,0:01:22.18,0:01:25.49,Default,,0000,0000,0000,,because it turns out that molecules\Ncan do some pretty crazy things.
Dialogue: 0,0:01:25.51,0:01:28.84,Default,,0000,0000,0000,,But these animations\Ncan be incredibly useful for researchers
Dialogue: 0,0:01:28.86,0:01:31.66,Default,,0000,0000,0000,,to communicate their ideas\Nof how these molecules work.
Dialogue: 0,0:01:32.02,0:01:34.77,Default,,0000,0000,0000,,They can also allow us\Nto see the molecular world
Dialogue: 0,0:01:34.79,0:01:36.06,Default,,0000,0000,0000,,through their eyes.
Dialogue: 0,0:01:36.38,0:01:38.30,Default,,0000,0000,0000,,I'd like to show you some animations,
Dialogue: 0,0:01:38.32,0:01:41.87,Default,,0000,0000,0000,,a brief tour of what I consider to be\Nsome of the natural wonders
Dialogue: 0,0:01:41.90,0:01:43.57,Default,,0000,0000,0000,,of the molecular world.
Dialogue: 0,0:01:43.59,0:01:45.56,Default,,0000,0000,0000,,First off, this is an immune cell.
Dialogue: 0,0:01:45.58,0:01:48.46,Default,,0000,0000,0000,,These kinds of cells need to go\Ncrawling around in our bodies
Dialogue: 0,0:01:48.48,0:01:51.54,Default,,0000,0000,0000,,in order to find invaders\Nlike pathogenic bacteria.
Dialogue: 0,0:01:51.56,0:01:54.65,Default,,0000,0000,0000,,This movement is powered\Nby one of my favorite proteins
Dialogue: 0,0:01:54.67,0:01:55.84,Default,,0000,0000,0000,,called actin,
Dialogue: 0,0:01:55.86,0:01:58.43,Default,,0000,0000,0000,,which is part of what's known\Nas the cytoskeleton.
Dialogue: 0,0:01:58.45,0:02:00.08,Default,,0000,0000,0000,,Unlike our skeletons,
Dialogue: 0,0:02:00.11,0:02:03.85,Default,,0000,0000,0000,,actin filaments are constantly\Nbeing built and taken apart.
Dialogue: 0,0:02:03.87,0:02:07.27,Default,,0000,0000,0000,,The actin cytoskeleton plays\Nincredibly important roles in our cells.
Dialogue: 0,0:02:07.29,0:02:09.05,Default,,0000,0000,0000,,They allow them to change shape,
Dialogue: 0,0:02:09.08,0:02:11.47,Default,,0000,0000,0000,,to move around, to adhere to surfaces,
Dialogue: 0,0:02:11.49,0:02:13.93,Default,,0000,0000,0000,,and also to gobble up bacteria.
Dialogue: 0,0:02:13.95,0:02:16.57,Default,,0000,0000,0000,,Actin is also involved\Nin a different kind of movement.
Dialogue: 0,0:02:16.59,0:02:19.78,Default,,0000,0000,0000,,In our muscle cells, actin structures\Nform these regular filaments
Dialogue: 0,0:02:19.80,0:02:21.32,Default,,0000,0000,0000,,that look kind of like fabric.
Dialogue: 0,0:02:21.35,0:02:24.26,Default,,0000,0000,0000,,When our muscles contract,\Nthese filaments are pulled together
Dialogue: 0,0:02:24.28,0:02:26.30,Default,,0000,0000,0000,,and they go back\Nto their original position
Dialogue: 0,0:02:26.32,0:02:27.82,Default,,0000,0000,0000,,when our muscles relax.
Dialogue: 0,0:02:27.85,0:02:31.05,Default,,0000,0000,0000,,Other parts of the cytoskeleton,\Nin this case microtubules,
Dialogue: 0,0:02:31.07,0:02:33.78,Default,,0000,0000,0000,,are responsible for long-range\Ntransportation.
Dialogue: 0,0:02:33.80,0:02:36.42,Default,,0000,0000,0000,,They can be thought of\Nas basically cellular highways
Dialogue: 0,0:02:36.45,0:02:39.80,Default,,0000,0000,0000,,that are used to move things\Nfrom one side of the cell to the other.
Dialogue: 0,0:02:39.82,0:02:42.61,Default,,0000,0000,0000,,Unlike our roads,\Nmicrotubules grow and shrink,
Dialogue: 0,0:02:42.63,0:02:44.05,Default,,0000,0000,0000,,appearing when they're needed
Dialogue: 0,0:02:44.08,0:02:46.45,Default,,0000,0000,0000,,and disappearing when their job is done.
Dialogue: 0,0:02:46.47,0:02:48.89,Default,,0000,0000,0000,,The molecular version of semitrucks
Dialogue: 0,0:02:48.92,0:02:51.47,Default,,0000,0000,0000,,are proteins aptly named motor proteins,
Dialogue: 0,0:02:51.50,0:02:53.96,Default,,0000,0000,0000,,that can walk along microtubules,
Dialogue: 0,0:02:53.98,0:02:56.68,Default,,0000,0000,0000,,dragging sometimes huge cargoes,
Dialogue: 0,0:02:56.70,0:02:58.51,Default,,0000,0000,0000,,like organelles, behind them.
Dialogue: 0,0:02:58.54,0:03:01.41,Default,,0000,0000,0000,,This particular motor protein\Nis known as dynein,
Dialogue: 0,0:03:01.43,0:03:03.84,Default,,0000,0000,0000,,and its known to be able\Nto work together in groups
Dialogue: 0,0:03:03.86,0:03:07.32,Default,,0000,0000,0000,,that almost look, at least to me,\Nlike a chariot of horses.
Dialogue: 0,0:03:07.34,0:03:11.17,Default,,0000,0000,0000,,As you see, the cell is this incredibly\Nchanging, dynamic place,
Dialogue: 0,0:03:11.20,0:03:14.32,Default,,0000,0000,0000,,where things are constantly\Nbeing built and disassembled.
Dialogue: 0,0:03:14.68,0:03:16.03,Default,,0000,0000,0000,,But some of these structures
Dialogue: 0,0:03:16.05,0:03:18.16,Default,,0000,0000,0000,,are harder to take apart\Nthan others, though.
Dialogue: 0,0:03:18.18,0:03:20.09,Default,,0000,0000,0000,,And special forces need to be brought in
Dialogue: 0,0:03:20.12,0:03:23.56,Default,,0000,0000,0000,,in order to make sure that structures\Nare taken apart in a timely manner.
Dialogue: 0,0:03:23.59,0:03:26.30,Default,,0000,0000,0000,,That job is done in part\Nby proteins like these.
Dialogue: 0,0:03:26.33,0:03:27.86,Default,,0000,0000,0000,,These donut-shaped proteins,
Dialogue: 0,0:03:27.88,0:03:29.89,Default,,0000,0000,0000,,of which there are many types in the cell,
Dialogue: 0,0:03:29.92,0:03:31.100,Default,,0000,0000,0000,,all seem to act to rip apart structures
Dialogue: 0,0:03:32.02,0:03:35.38,Default,,0000,0000,0000,,by basically pulling individual proteins\Nthrough a central hole.
Dialogue: 0,0:03:35.41,0:03:37.96,Default,,0000,0000,0000,,When these kinds of proteins\Ndon't work properly,
Dialogue: 0,0:03:37.99,0:03:40.72,Default,,0000,0000,0000,,the types of proteins\Nthat are supposed to get taken apart
Dialogue: 0,0:03:40.74,0:03:43.18,Default,,0000,0000,0000,,can sometimes stick together and aggregate
Dialogue: 0,0:03:43.20,0:03:47.08,Default,,0000,0000,0000,,and that can give rise\Nto terrible diseases, such as Alzheimer.
Dialogue: 0,0:03:47.42,0:03:49.43,Default,,0000,0000,0000,,And now let's take a look at the nucleus,
Dialogue: 0,0:03:49.45,0:03:52.40,Default,,0000,0000,0000,,which houses our genome\Nin the form of DNA.
Dialogue: 0,0:03:52.43,0:03:53.85,Default,,0000,0000,0000,,In all of our cells,
Dialogue: 0,0:03:53.87,0:03:58.16,Default,,0000,0000,0000,,our DNA is cared for and maintained\Nby a diverse set of proteins.
Dialogue: 0,0:03:58.19,0:04:01.01,Default,,0000,0000,0000,,DNA is wound around proteins\Ncalled histones,
Dialogue: 0,0:04:01.03,0:04:05.34,Default,,0000,0000,0000,,which enable cells to pack\Nlarge amounts of DNA into our nucleus.
Dialogue: 0,0:04:05.36,0:04:08.44,Default,,0000,0000,0000,,These machines are called\Nchromatin remodelers
Dialogue: 0,0:04:08.46,0:04:11.20,Default,,0000,0000,0000,,and the way they work\Nis that they basically scoot the DNA
Dialogue: 0,0:04:11.23,0:04:12.43,Default,,0000,0000,0000,,around these histones
Dialogue: 0,0:04:12.45,0:04:16.35,Default,,0000,0000,0000,,and they allow new pieces of DNA\Nto become exposed.
Dialogue: 0,0:04:16.37,0:04:19.31,Default,,0000,0000,0000,,This DNA can then be recognized\Nby other machinery.
Dialogue: 0,0:04:19.33,0:04:21.86,Default,,0000,0000,0000,,In this case, this large molecular machine
Dialogue: 0,0:04:21.88,0:04:23.57,Default,,0000,0000,0000,,is looking for a segment of DNA
Dialogue: 0,0:04:23.59,0:04:25.90,Default,,0000,0000,0000,,that tells it it's at\Nthe beginning of a gene.
Dialogue: 0,0:04:25.93,0:04:27.62,Default,,0000,0000,0000,,Once it finds a segment,
Dialogue: 0,0:04:27.64,0:04:30.40,Default,,0000,0000,0000,,it basically undergoes a series\Nof shape changes
Dialogue: 0,0:04:30.43,0:04:32.53,Default,,0000,0000,0000,,which enables it to bring in\Nother machinery
Dialogue: 0,0:04:32.55,0:04:36.24,Default,,0000,0000,0000,,that in turn allows a gene\Nto get turned on or transcribed.
Dialogue: 0,0:04:36.70,0:04:39.79,Default,,0000,0000,0000,,This has to be a very\Ntightly regulated process
Dialogue: 0,0:04:39.82,0:04:42.62,Default,,0000,0000,0000,,because turning on the wrong gene\Nat the wrong time
Dialogue: 0,0:04:42.64,0:04:45.28,Default,,0000,0000,0000,,can have disastrous consequences.
Dialogue: 0,0:04:45.31,0:04:48.12,Default,,0000,0000,0000,,Scientists are now able\Nto use protein machines
Dialogue: 0,0:04:48.14,0:04:49.54,Default,,0000,0000,0000,,to edit genomes.
Dialogue: 0,0:04:49.57,0:04:52.01,Default,,0000,0000,0000,,I'm sure all of you have heard of CRISPR.
Dialogue: 0,0:04:52.04,0:04:54.86,Default,,0000,0000,0000,,CRISPR takes advantage\Nof a protein known as Cas9,
Dialogue: 0,0:04:54.89,0:04:57.82,Default,,0000,0000,0000,,which can be engineered\Nto recognize and cut
Dialogue: 0,0:04:57.85,0:05:00.21,Default,,0000,0000,0000,,a very specific sequence of DNA.
Dialogue: 0,0:05:00.24,0:05:01.40,Default,,0000,0000,0000,,In this example,
Dialogue: 0,0:05:01.42,0:05:05.51,Default,,0000,0000,0000,,two Cas9 proteins are being used\Nto excise a problematic piece of DNA.
Dialogue: 0,0:05:05.54,0:05:09.02,Default,,0000,0000,0000,,For example, a part of a gene\Nthat may give rise to a disease.
Dialogue: 0,0:05:09.04,0:05:10.53,Default,,0000,0000,0000,,Cellular machinery is then used
Dialogue: 0,0:05:10.55,0:05:14.07,Default,,0000,0000,0000,,to basically glue two ends\Nof the DNA back together.
Dialogue: 0,0:05:14.09,0:05:15.34,Default,,0000,0000,0000,,As a molecular animator,
Dialogue: 0,0:05:15.36,0:05:18.38,Default,,0000,0000,0000,,one of my biggest challenges\Nis visualizing uncertainty.
Dialogue: 0,0:05:18.72,0:05:22.03,Default,,0000,0000,0000,,All of the animations I've shown to you\Nrepresent hypotheses,
Dialogue: 0,0:05:22.05,0:05:24.29,Default,,0000,0000,0000,,how my collaborators think\Na process works,
Dialogue: 0,0:05:24.32,0:05:26.68,Default,,0000,0000,0000,,based on the best information\Nthat they have.
Dialogue: 0,0:05:26.70,0:05:28.67,Default,,0000,0000,0000,,But for a lot of molecular processes,
Dialogue: 0,0:05:28.70,0:05:31.67,Default,,0000,0000,0000,,we're still really at the early stages\Nof understanding things,
Dialogue: 0,0:05:31.70,0:05:33.04,Default,,0000,0000,0000,,and there's a lot to learn.
Dialogue: 0,0:05:33.06,0:05:34.21,Default,,0000,0000,0000,,The truth is,
Dialogue: 0,0:05:34.24,0:05:38.77,Default,,0000,0000,0000,,that these invisible molecular worlds\Nare vast and largely unexplored.
Dialogue: 0,0:05:39.47,0:05:41.51,Default,,0000,0000,0000,,To me, these molecular landscapes
Dialogue: 0,0:05:41.53,0:05:44.93,Default,,0000,0000,0000,,are just as exciting to explore\Nas a natural world
Dialogue: 0,0:05:44.95,0:05:46.88,Default,,0000,0000,0000,,that's visible all around us.
Dialogue: 0,0:05:47.38,0:05:48.53,Default,,0000,0000,0000,,Thank you.
Dialogue: 0,0:05:48.55,0:05:51.76,Default,,0000,0000,0000,,(Applause)