Introduction to DNA-Based Technology - Online Tutor, Practice Problems & Exam Prep

This video, we're going to begin our introduction to DNA-based technology. And so DNA-based technology is really just a term that's used to describe the techniques used to manipulate DNA or change the DNA sequence and to study gene expression. There are many different reasons to study DNA, and some of those reasons are listed here in parentheses, such as developing vaccines, genetically modifying plants, and tracking inheritance within families. Down below in our example, we're showing you some images of some of the many reasons why researchers use DNA-based technologies to study gene expression. Over here on the far left-hand side, this is showing you the development of vaccines, such as for example the COVID-19 vaccine. Now DNA-based technologies can also be used to genetically modify plants to give plants specific characteristics, such as maybe modifying the DNA of a plant so that it has more resistance to pesticides. In this image down below, notice that this plant is having a problem with these pests, and it's got this little whacker here to try to get rid of them. Whereas this plant is not having that same problem, and that's because this plant has been genetically modified to have specific characteristics that allow it to resist pesticides. And he's saying, you got to have the right genes, buddy, to resolve this pest problem. Last but not least, another of the many reasons to study DNA is to track inheritance patterns within families. Down below, what we're showing you here is just an image of a little pedigree to show you that DNA-based technologies can be really important for tracking inheritance patterns. This is just some of the very many reasons why it's so important to study DNA and to use DNA-based technology. As we move in our course, we're going to talk about a lot of different technologies. This here concludes our brief introduction to DNA-based technology and I'll see you all in our next video.

In this video, we're going to introduce our map of the lesson on DNA-based technologies, which is down below right here. This image really is and can be used like a map to help guide you as we move forward through our lesson on DNA-based technologies. Notice at the very top we have our DNA-based technologies, and we've got these branches. The way this map is going to work is we are always going to be following the leftmost branches first and explore them to their end. We'll start off over here exploring all of this, then once we finish exploring all of that we'll zoom out and explore the next leftmost branch. Then we'll continue on in this pattern as you see like this. And last but not least, we'll cover this last region over here.

First, as we cover DNA-based technologies, we are going to talk about DNA cloning, which you can see over here. We've got DNA cloning lesson broken up into two parts. The first part is creating the recombinant DNA molecule, which involves using restriction enzymes to cut the DNA, which pretty much act like little tiny molecular scissors. We'll talk about that more as we move forward. It also involves the ligation enzymes that are going to help paste the DNA. Here we have some DNA, and we are going to cut and paste to create a recombinant DNA. The second step is going to be transforming that recombinant DNA into bacteria. Again, we're going to talk all about this in more detail as we move forward in our course.

After discussing DNA cloning, we'll talk about the next branch here, which is going to be polymerase chain reaction, abbreviated as PCR, and we'll discuss the steps of PCR, which includes denaturation, annealing, and extension.

Following that, we'll move on to talk about DNA-based technologies that are used for the separation of DNA samples. This includes gel electrophoresis, southern blotting, and DNA fingerprinting. After we discuss the separation of DNA samples, we'll move on to the final section here of our map of the lesson, and that is going to be about DNA sequencing.

We're going to talk specifically about dideoxy sequencing, involving chain termination PCR and also determining the DNA sequence. This is really the map of our entire lesson on DNA-based technologies. Again, you can use this map as you move forward as a guide to help you make predictions about what we're going to talk about next, and to help make sure that you know where we are within our lesson. This here concludes our introduction to our map of DNA-based technology lesson, and I'll see you all in our next video.