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What is a coronavirus? - Elizabeth Cox

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    For almost a decade, scientists chased
    the source of a deadly new virus
  • 0:13 - 0:17
    through China’s tallest mountains
    and most isolated caverns.
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    They finally found it here:
    in the bats of Shitou Cave.
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    The virus in question was a coronavirus
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    that caused an epidemic
    of severe acute respiratory syndrome,
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    or SARS, in 2003.
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    Coronaviruses are a group of viruses
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    covered in little protein spikes
    that look like a crown—
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    or "corona" in Latin.
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    There are hundreds
    of known coronaviruses.
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    Seven of them infect humans,
    and can cause disease.
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    The coronavirus SARS-CoV causes SARS,
    MERS-CoV causes MERS,
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    and SARS-CoV-2 causes
    the disease COVID-19.
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    Of the seven human coronaviruses,
    four cause colds,
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    mild, highly contagious infections
    of the nose and throat.
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    Two infect the lungs,
    and cause much more severe illnesses.
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    The seventh, which causes COVID-19,
    has features of each:
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    it spreads easily,
    but can severely impact the lungs.
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    When an infected person coughs,
    droplets containing the virus spray out.
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    The virus can infect a new person when
    the droplets enter their nose or mouth.
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    Coronaviruses transmit best
    in enclosed spaces,
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    where people are close together.
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    Cold weather keeps their delicate casing
    from drying out,
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    enabling the virus to survive
    for longer between hosts,
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    while UV exposure from sunlight
    may damage it.
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    These seasonal variations matter more
    for established viruses.
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    But because no one is yet immune
    to a new virus,
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    it has so many potential hosts that it
    doesn’t need ideal conditions to spread.
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    In the body, the protein spikes embed
    in the host’s cells and fuse with them—
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    enabling the virus to hijack
    the host cell’s machinery
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    to replicate its own genes.
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    Coronaviruses store their genes on RNA.
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    All viruses are either RNA viruses
    or DNA viruses.
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    RNA viruses tend to be smaller,
    with fewer genes,
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    meaning they infect many hosts
    and replicate quickly in those hosts.
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    In general, RNA viruses don’t have
    a proofreading mechanism,
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    whereas DNA viruses do.
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    So when an RNA virus replicates,
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    it’s much more likely to have
    mistakes called mutations.
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    Many of these mutations are useless
    or even harmful.
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    But some make the virus better suited
    for certain environments—
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    like a new host species.
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    Epidemics often occur when a virus
    jumps from animals to humans.
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    This is true of the RNA viruses
    that caused
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    the Ebola, Zika, and SARS epidemics,
    and the COVID-19 pandemic.
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    Once in humans, the virus still mutates—
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    usually not enough to create a new virus,
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    but enough to create variations,
    or strains, of the original one.
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    Coronaviruses have a few key differences
    from most RNA viruses.
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    They’re some of the largest,
    meaning they have the most genes.
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    That creates more opportunity
    for harmful mutations.
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    To counteract this risk,
    coronaviruses have a unique feature:
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    an enzyme that checks for replication
    errors and corrects mistakes.
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    This makes coronaviruses
    much more stable,
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    with a slower mutation rate,
    than other RNA viruses.
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    While this may sound formidable,
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    the slow mutation rate
    is actually a promising sign
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    when it comes to disarming them.
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    After an infection, our immune systems
    can recognize germs
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    and destroy them more quickly
    if they infect us again
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    so they don’t make us sick.
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    But mutations can make a virus
    less recognizable to our immune systems—
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    and therefore more difficult to fight off.
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    They can also make antiviral drugs
    and vaccines less effective,
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    because they’re tailored
    very specifically to a virus.
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    That’s why we need a new flu vaccine
    every year—
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    the influenza virus mutates so quickly
    that new strains pop up constantly.
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    The slower mutation rate
    of coronaviruses means
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    our immune systems, drugs,
    and vaccines
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    might be able to recognize them
    for longer after infection,
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    and therefore protect us better.
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    Still, we don’t know how long our bodies
    remain immune to different coronaviruses.
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    There’s never been an approved treatment
    or vaccine for a coronavirus.
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    We haven’t focused on treating
    the ones that cause colds,
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    and though scientists began developing
    treatments for SARS and MERS,
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    the epidemics ended before those
    treatments completed clinical trials.
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    As we continue to encroach
    on other animals’ habitats,
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    some scientists say a new coronavirus
    jumping to humans is inevitable—
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    but if we investigate these unknowns,
    it doesn’t have to be devastating.
Title:
What is a coronavirus? - Elizabeth Cox
Speaker:
Elizabeth Cox
Description:

View full lesson: https://ed.ted.com/lessons/what-is-a-coronavirus-elizabeth-cox

For almost a decade, scientists chased the source of a deadly new virus through China's tallest mountains and most isolated caverns. They finally found it in the bats of Shitou Cave. The virus in question was a coronavirus that caused an epidemic of severe acute respiratory syndrome, or SARS, in 2003. So what exactly is a coronavirus, and how does it spread? Elizabeth Cox explains.

Lesson by Elizabeth Cox, directed by Anton Bogaty.
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Video Language:
English
Team:
closed TED
Project:
TED-Ed
Duration:
04:55
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Tara Ahmadinejad edited English subtitles for What is a coronavirus?
Tara Ahmadinejad edited English subtitles for What is a coronavirus?

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