ShmoopTube

Where Monty Python meets your 10th grade teacher.

Search Thousands of Shmoop Videos


Science Videos 686 videos

AP Biology 1.1 Biological System Interactions
1180 Views

AP Biology: Biological System Interactions Drill 1, Problem 1. Complete the sentence about a saturated fatty acid.

AP Biology 1.1 Essential Life Process Information
606 Views

AP Biology: Essential Life Process Information Drill 1, Problem 1. If one parent is heterozygous for the sickle cell trait while the other par...

AP Biology 1.1 Evolution Drives the Diversity and Unity of Life
626 Views

AP Biology: Evolution Drives the Diversity and Unity of Life Drill 1, Problem 1. The first cells on planet Earth were likely what?

See All

Molecular Genetics: Cloning 244 Views


Share It!


Description:

In this video from our course on molecular genetics, learn all about cloning.

Language:
English Language

Transcript

00:14

Okay, we're on...next lesson: DNA technology, with Dr. Ruth Tennen.

00:19

So Ruth, tell us, what does cloning mean when we're talking about genes?

00:24

Like, we hear about cloning all the time in the press, and there's like frogs and sheep and congressmen who've all been cloned.

00:30

How does cloning work?

00:33

Run us through what that means.

00:36

So cloning in the context of DNA basically means isolating a piece of DNA or a gene...

00:41

...from an organism, and then putting it into another context, like into another piece of DNA or into another organism in many copies.

00:49

How do we isolate a gene?

00:53

That sounds very...technical.

00:57

Yeah, so the basics of doing that is like...let's say you've got your chromosome...

01:02

...and there's a gene that's somewhere on there...

01:04

There are special enzymes, called restriction enzymes, that can chop out the gene of interest.

01:09

And we can manipulate the restriction enzyme? We can actually inject that into a gene and ourselves pull out that code?

01:17

Yeah, basically you isolate the DNA from whatever source you want and then you just add the enzyme in a tube and it does its thing

01:24

Enzymes are derived from bacteria, so we didn't actually make them in most cases, but we figured out what they do.

01:30

So we've pulled out that isolated gene...and then...what do we do with it? What happens?

01:40

Usually, before you can do anything -- a gene by itself can't do much -- you usually have to put it into some sort of carrier or vector.

01:46

This is called a plasmid, which is basically a circular piece of DNA that you can put other DNA into.

01:51

So you can stick your gene of interest into this plasmid, and then you can do cool things with your plasmid like...

01:55

...put it into bacteria or put it into other cells, and kind of study the function of your gene.

Related Videos

Marine Flashcard
32734 Views

In this video, we dive beneath the sea to review the kinds of interesting animals that live in the deep blue.

Phenotype
948 Views

Don't like how someone looks? Blame their phenotypes.

Phospholipids
7339 Views

Anything that has a cell (bacteria, listen up!) has phospholipids that keep the cell contained and give it form and shape. Phospholipids protect us...

What Would Mary Shelley Think of GMOs?
1343 Views

GMOs. Now that’s a scary word. Or is it? Guess it’s time to ask ourselves: WWMST? ...For those of us who don’t constantly ask ourselves “wh...

GED Science 1.2 Life Science
399 Views

GED Science 1.2 Life Science