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AP Bio 3.4 Evolution 38 Views


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AP Bio 3.4 Evolution. What does gene flow do?

Language:
English Language

Transcript

00:03

Here’s your shmoop du jour, brought to you by gene flow.

00:07

It has nothing to do with how awesomely your skinny jeans fit. [Girls in dressing room]

00:11

Gene flow does…what?

00:13

And here are the potential answers…

00:18

Gene flow is like dandelions being blown into your neighbor’s yard because you napped [Person napping on a hammock]

00:23

instead of mowing the lawn like you promised.

00:25

When genes migrate, stuff usually…happens.

00:28

However, most DNA mutations occur naturally and not because of gene flow. [Man transforms into the Hulk]

00:34

When a cell divides, it makes a copy of the DNA.

00:36

It’s not entirely like “cut and paste”.

00:40

More like “keep your fingers crossed” and hope for a perfect copy. [Girl crossing her fingers]

00:44

Otherwise, you have a mutation.

00:47

Gene flow is not the culprit here.

00:49

So…

00:50

Answer “A’ is wrong.

00:51

How about “B”?

00:52

Well, in the case of human organisms, we normally select mates on a non-random basis… based [Girl flirts with guy sat on a bench]

00:57

instead on easily observable traits.

00:59

Fortunately, as we mature, more thought will go into the non-random selection process.

01:04

It’s all about the vibes.

01:05

And not gene flow.

01:06

“B” is incorrect.

01:08

With natural selection, certain phenotypes are better able than others to contribute [Man bench pressing]

01:13

their genes to the next generation.

01:14

They’re more fit and uh…pumped up for action. [People working out in a gym]

01:18

The end result is a gradual change in the gene frequencies of that population.

01:23

None of which is caused by gene flow.

01:25

“C” is out.

01:26

As for “D”, gene flow is the transfer of alleles from one population to [Alleles transfer from one circle to another]

01:31

another.

01:32

This transfer knocks the Hardy-Weinberg equilibrium out of whack, because it could change the

01:37

allelic frequencies.

01:38

And, when those frequencies are the least bit disrupted…well, prepare for some potentially

01:43

hairy moments. [Man transforms into a caveman]

01:44

“D” is definitely the correct answer.

01:46

A word to the wise: you may want to avoid the…deep end of the gene pool… [Man jumps into deep end of a gene pool]

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