From the Ted Talk by Drew Berry: Animations of unseeable biology
Unscramble the Blue Letters
And so what I'm about to show you is an auctcare representation of the actual DNA replication machine that's occurring right now inside your body, at least 2002 bioogly. So DNA's entering the production line from the left-hand side, and it hits this collection, these miniature biochemical machines, that are pulling apart the DNA strand and making an exact copy. So DNA comes in and hits this blue, doughnut-shaped structure and it's rieppd apart into its two sndarts. One strand can be copied directly, and you can see these things spooling off to the btootm there. But things aren't so smlpie for the other strand because it must be copied backwards. So it's thrown out repeatedly in these loops and ciepod one section at a time, creating two new DNA molecules.
Open Cloze
And so what I'm about to show you is an ________ representation of the actual DNA replication machine that's occurring right now inside your body, at least 2002 _______. So DNA's entering the production line from the left-hand side, and it hits this collection, these miniature biochemical machines, that are pulling apart the DNA strand and making an exact copy. So DNA comes in and hits this blue, doughnut-shaped structure and it's ______ apart into its two _______. One strand can be copied directly, and you can see these things spooling off to the ______ there. But things aren't so ______ for the other strand because it must be copied backwards. So it's thrown out repeatedly in these loops and ______ one section at a time, creating two new DNA molecules.
Solution
biology
ripped
simple
accurate
strands
copied
bottom
Original Text
And so what I'm about to show you is an accurate representation of the actual DNA replication machine that's occurring right now inside your body, at least 2002 biology. So DNA's entering the production line from the left-hand side, and it hits this collection, these miniature biochemical machines, that are pulling apart the DNA strand and making an exact copy. So DNA comes in and hits this blue, doughnut-shaped structure and it's ripped apart into its two strands. One strand can be copied directly, and you can see these things spooling off to the bottom there. But things aren't so simple for the other strand because it must be copied backwards. So it's thrown out repeatedly in these loops and copied one section at a time, creating two new DNA molecules.