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The wacky history of cell theory - Lauren Royal-Woods

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    One of the great things about science
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    is that when scientists make a discovery,
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    it's not always in a prescribed manner,
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    as in, only in a laboratory
    under strict settings,
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    with white lab coats
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    and all sorts of neat
    science gizmos that go, "Beep!"
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    In reality,
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    the events and people involved
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    in some of the major
    scientific discoveries
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    are as weird and varied as they get.
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    My case in point:
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    The Weird History of the Cell Theory.
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    There are three parts to the cell theory.
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    One: all organisms are composed
    of one or more cells.
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    Two: the cell is the basic
    unit of structure
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    and organization in organisms.
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    And three: all cells come
    from preexisting cells.
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    To be honest, this all sounds
    incredibly boring
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    until you dig a little deeper
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    into how the world
    of microscopic organisms,
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    and this theory came to be.
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    It all started in the early 1600s
    in the Netherlands,
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    where a spectacle maker
    named Zacharias Janssen
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    is said to have come up
    with the first compound microscope,
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    along with the first telescope.
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    Both claims are often disputed,
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    as apparently he wasn't the only bored guy
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    with a ton of glass lenses
    to play with at the time.
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    Despite this,
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    the microscope soon became a hot item
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    that every naturalist or scientist
    at the time wanted to play with,
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    making it much like the iPad of its day.
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    One such person
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    was a fellow Dutchman by the name
    of Anton van Leeuwenhoek,
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    who heard about
    these microscope doohickeys,
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    and instead of going out and buying one,
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    he decided to make his own.
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    And it was a strange
    little contraption indeed,
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    as it looked more like a tiny paddle
    the size of a sunglass lens.
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    If he had stuck two together,
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    it probably would have made
    a wicked set of sunglasses
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    that you couldn't see much out of.
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    Anyhoo, once Leeuwenhoek
    had his microscope ready,
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    he went to town,
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    looking at anything and everything
    he could with them,
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    including the gunk on his teeth.
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    Yes, you heard right.
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    He actually discovered bacteria
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    by looking at dental scrapings,
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    which, when you keep in mind
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    that people didn't brush their teeth
    much -- if at all -- back then,
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    he must have had a lovely bunch
    of bacteria to look at.
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    When he wrote about his discovery,
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    he didn't call them bacteria,
    as we know them today.
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    But he called them "animalcules,"
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    because they looked
    like little animals to him.
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    While Leeuwenhoek was staring
    at his teeth gunk,
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    he was also sending letters
    to a scientific colleague in England,
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    by the name of Robert Hooke.
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    Hooke was a guy who really loved
    all aspects of science,
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    so he dabbled in a little bit
    of everything, including physics,
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    chemistry and biology.
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    Thus it is Hooke who we can thank
    for the term "the cell,"
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    as he was looking at a piece of cork
    under his microscope,
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    and the little chambers he saw
    reminded him of cells,
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    or the rooms monks slept in
    in their monasteries.
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    Think college dorm rooms,
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    but without the TVs, computers
    and really annoying roommates.
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    Hooke was something
    of an underappreciated scientist
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    of his day --
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    something he brought upon himself,
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    as he made the mistake of locking horns
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    with one of the most famous
    scientists ever, Sir Isaac Newton.
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    Remember when I said Hooke
    dabbled in many different fields?
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    Well, after Newton published
    a groundbreaking book
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    on how planets move due to gravity,
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    Hooke made the claim
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    that Newton had been inspired
    by Hooke's work in physics.
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    Newton, to say the least,
    did not like that,
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    which sparked a tense
    relationship between the two
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    that lasted even after Hooke died,
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    as quite a bit of Hooke's research --
    as well as his only portrait --
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    was ... misplaced, due to Newton.
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    Much of it was rediscovered,
    thankfully, after Newton's time,
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    but not his portrait,
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    as, sadly, no one knows
    what Robert Hooke looked like.
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    Fast-forward to the 1800s,
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    where two German scientists
    discovered something
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    that today we might find rather obvious,
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    but helped tie together
    what we now know as the cell theory.
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    The first scientist
    was Matthias Schleiden,
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    a botanist who liked to study
    plants under a microscope.
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    From his years of studying
    different plant species,
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    it finally dawned on him
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    that every single plant he had looked at
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    were all made of cells.
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    At the same time,
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    on the other end of Germany
    was Theodor Schwann,
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    a scientist who not only
    studied slides of animal cells
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    under the microscope
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    and got a special type
    of nerve cell named after him,
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    but also invented rebreathers
    for firefighters,
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    and had a kickin' pair of sideburns.
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    After studying animal cells for a while,
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    he, too, came to the conclusion
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    that all animals were made of cells.
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    Immediately, he reached out
    via snail mail,
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    as Twitter had yet to be invented,
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    to other scientists working
    in the same field with Schleiden,
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    who got back to him,
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    and the two started working
    on the beginnings of the cell theory.
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    A bone of contention arose between them.
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    As for the last part of the cell theory --
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    that cells come from preexisting cells --
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    Schleiden didn't exactly
    subscribe to that thought,
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    as he swore cells came
    from free-cell formation,
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    where they just kind of spontaneously
    crystallized into existence.
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    That's when another scientist
    named Rudolph Virchow,
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    stepped in with research showing
    that cells did come from other cells,
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    research that was actually --
    hmm ... How to put it? --
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    "borrowed without permission"
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    from a Jewish scientist
    by the name of Robert Remak,
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    which led to two more feuding scientists.
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    Thus, from teeth gunk
    to torquing off Newton,
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    crystallization to Schwann cells,
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    the cell theory came to be
    an important part of biology today.
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    Some things we know
    about science today may seem boring,
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    but how we came to know them
    is incredibly fascinating.
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    So if something bores you,
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    dig deeper.
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    It's probably got a really weird
    story behind it somewhere.
Title:
The wacky history of cell theory - Lauren Royal-Woods
Description:

View full lesson: http://ed.ted.com/lessons/the-wacky-history-of-cell-theory

Scientific discovery isn't as simple as one good experiment. The weird and wonderful history of cell theory illuminates the twists and turns that came together to build the foundations of biology.

"The Wacky History of Cell Theory" is a lesson by Lauren Royal-Woods and was animated by Augenblick Studios (http://augenblickstudios.com/).

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Video Language:
English
Team:
closed TED
Project:
TED-Ed
Duration:
06:12
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