These genes determine where the (answer) and the (answer) of the animal's going to be; the top, the bottom; the left, the right; the inside, the outside; where the eyes are going to be; where the legs are going to be; where the gut's going to be; how many fingers they're going to have.
  • related; changed
  • unchanged
  • front; back
  • finch; tortosie
Basically, you can make (answer) changes, just changing those switches. So a (answer) change, a couple of D.N.A. letters, could have a profound effect.
  • massive; small
  • fish; legs
  • natural selection
  • timing; intensity
It all goes back to Darwin's idea of the tree of life, that all life-forms are ultimately (answer), and from the earliest common ancestor, over billions of years, they have (answer) and diversified, so that creatures that started out looking the same, evolved to become completely different.
  • related; changed
  • Galapagos islands
  • front; back
  • finch; tortosie
Switches are not (answer). They don't make stuff like hair, cartilage or muscle, but they turn on and off the genes that do.
  • genes
  • adapted
  • beagle
  • species
But eventually, hunting through the vast stretch of D.N.A. that does not code for proteins, he found it, a section of D.N.A. that had (answer) in the lake stickleback. These mutations meant that the switch was broken. It didn't turn on the gene that makes spikes.
  • adapted
  • mutation
  • unchanged
  • mutated
Amazingly, in all four limbed animals, even us, exactly the same (answer) create the long, upper arm bone.
  • genes
  • beagle
  • species
  • diversity
The pattern that Darwin saw was that the creatures that survived were those best (answer) to the specific environments they lived in.
  • creature
  • beagle
  • adapted
  • mutation
People were freaked out by the relatively small number of genes. It's down to something like (answer) protein-coding genes in a human genome
  • adapted
  • 30 million
  • fish; legs
  • 22000-23000
Scientists now realize that not all genes are created equal. Some make the stuff of our bodies, and (answer) are needed to turn many of these stuff genes on and off. The (answer) genes are what throw these switches, which tell the stuff genes what to do and when.
  • body plan
  • switches; body plan
  • finch; tortosie
  • mutation; variation
This was a revelation. The same genes were responsible for the beaks in all types of finch. Any differences were in (answer) and (answer).
  • timing; intensity
  • natural selection
  • fish; legs
  • massive; small
(answer) is a critical ingredient in the recipe for evolution. Without mutation, everything would stay constant, generation after generation. Mutation generate (answer) differences between individuals.
  • massive; small
  • mutation; variation
  • related; changed
  • Galapagos islands
Darwin realized that (answer) must be the starting point for change in nature. In any generation, the animals in a litter are never quite the same. And in the wild, such a tiny (answer) might make all the difference between life and death.
  • mutation
  • unchanged
  • variation
  • creature
Hox genes have been found in all complex animals, from the velvet worm that dates back some 600 million years, to the modern human. And in all that time, the letters of their D.N.A. have remained virtually (answer).
  • front; back
  • variation
  • mutated
  • unchanged
In total, he has found some 21 different mutations responsible for microscopically. Sometimes, one of the D.N.A.'s chemical letters is (answer) with another letter, sometimes letters are (answer) entirely, but whatever the defect is, they all stop the brain cells from dividing at a very early stage of development.
  • replaced; missing
  • two; eighteen
  • related; changed
  • finch; tortosie
These variations accumulate and eventually new species branch off. This is evolution by (answer). It is one of the keys to how new species are formed.
  • timing; intensity
  • natural selection
  • Galapagos islands
  • massive; small
If Darwin were right, somewhere out there, there had to be a transitional form, a fossil that was part (answer), but had the beginning of (answer).
  • fish; legs
  • creature
  • timing; intensity
  • 22000-23000
Darwin had this amazingly bold idea: the tree of life—that all (answer) were connected.
  • genes
  • adapted
  • species
  • diversity
Originally, there must have been just one type of (answer) on the Galapagos, but over time it had diversified into many kinds, with different beak shapes; the same for the tortoises. One type of (tortoise) must have turned into many kinds, with different shells depending on which island they lived on.
  • related; changed
  • finch; tortosie
  • front; back
  • timing; intensity
It's not the genes you have but how you use them that creates (answer) in the animal kingdom.
  • 30 million
  • diversity
  • species
  • mutation
When she looked at that D.N.A. in chimps and compared it to the same D.N.A. in a chicken, it was different in just (answer) letters. But in humans it was different by (answer) letters. A massive mutation.
  • replaced; missing
  • variation
  • two; eighteen
  • unchanged
The gene in humans was radically different from that found in chimps. There had been a large series of (mutation).
  • mutation
  • creature
  • adapted
  • 30 million
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