It’s often said that we humans share 50
percent of our DNA with bananas, 80 percent with dogs, and 99 percent with chimpanzees. Taken literally, those numbers make it sound
like we could pluck one cell from a chimp and one from a human, pull out the tangled
bundles of DNA known as chromosomes, unroll each one like a scroll, and read off two nearly
identical strings of letters. But in reality, the human and chimp scrolls
don’t sync up so easily. In the six to eight million years since we
split from our last common ancestor, chance mutations and natural selection have changed
each of our genomes in radical – and unique – ways. Two human scrolls fused, leaving us with 23
pairs of chromosomes to chimps’ 24. Other large mutations revised huge sections
of text – duplicating a chunk of a human DNA here, erasing a chunk of chimp DNA there
– while, throughout the scrolls, tiny mutations swapped one letter for another. When researchers sat down to compare the chimp
and human genomes, those single-letter differences were easy to tally. But the big mismatched sections...weren’t. For example, if a genetic paragraph - thousands
of letters long - appears twice in a human scroll, but only once in its chimp counterpart,
should the second copy count as thousands of changes, or just one? And what about identical paragraphs that appear
in both genomes, but in different places, or in reverse order, or broken up into pieces? Rather than monkey around with these difficult
questions, the researchers simply excluded all the large mismatched sections – a whopping
1.3 billion letters of DNA – and performed a letter-by-letter comparison on the remaining
2.4 billion, which turned out to be 98.77% identical. So, yes, we share 99% of our DNA with chimps
- if we ignore 18 percent of their genome and 25 percent of ours. And there's another problem: just as a small
tweak to a sentence can alter its meaning entirely or not at all, a few mutations in
DNA sometimes produce big changes in a creature's looks or behavior, whereas other times lots
of mutations make very little difference. So just counting up the number of genetic
changes doesn't really tell us that much about how similar or different two creatures are. But that doesn’t mean we can’t learn anything
by comparing their genomes. DNA contains a record of the evolutionary
relationships between all organisms. It’s a garbled record – but by reading
closely, we’ve been able to glean enough information to refine the evolutionary trees
we started drawing long before genome sequencing was around. We may not actually be 99 percent chimp, but
we are 100 percent great ape...and at least a little bananas. Hi, this is Emily. This episode was brought to you in part by
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