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Types of Nucleic Acids

Types of Nucleic Acids
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  • 0:02 The Forms of Nucleic Acid
  • 0:50 The Structure of Nucleic Acid
  • 4:01 Lesson Summary
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Lesson Transcript
Instructor: Dominic Corsini
This lesson addresses the types of nucleic acids and their structures. It contains illustrations and detailed descriptions about the various components that form these molecules. A summary and brief quiz are also included.

The Forms of Nucleic Acid

What makes people look physically different from one another? Why do some people have dark hair while others have light hair? What about height? Why can it vary so drastically from one person to the next? The answer to these questions resides in our DNA. DNA, or deoxyribonucleic acid, is the genetic material that codes for particular traits. All organisms contain either DNA or RNA, ribonucleic acid. Ribonucleic acid is another form of genetic material that is used within living organisms. Both DNA and RNA are forms of nucleic acids. Nucleic acids are large molecules used by living organisms to code for specific characteristics.

The Structure of Nucleic Acid

Since we now know that DNA and RNA are the two types of nucleic acids, we can focus our attention on their respective structures. To begin, let's look at DNA. Below is a simple illustration to get us started:

DNA Structure
DNA Structure

DNA is often described as having a double helix structure. Essentially it resembles a twisted ladder. The sides of this ladder are made of a sugar and phosphate backbone. The rungs are composed of four different compounds called nitrogenous bases. Nitrogenous bases are the specific compounds that spell out the genetic code for particular traits. They are often referred to using the letters A, T, C, and G rather than their chemical names.

The bases of DNA are arranged in a specific manner. This is depicted in the graphic below. Notice how A (adenine), which is green, always lines up with T (thymine), which is purple. In a similar manner C (cytosine), which is red, always pairs with G (guanine), which is blue. So, to recap, A bonds with T, and C bonds with G. This bonding pattern is known as base pairing. These bond patterns always exist within the nucleic acid DNA.

How the bases of DNA are arranged
How the bases of DNA are arranged

Now that we've examined the structure of DNA, let's shift our attention to RNA. RNA is very similar to DNA. Therefore, let's look again at this illustration containing both DNA and RNA for comparison purposes:

DNA and RNA Structures
DNA and RNA Structures

On the right of this image, you have the double helix design of DNA. Again there are four bases shown, along with their chemical structures. For the purposes of this lesson, we can ignore those structures. Instead, focus your attention on the RNA molecule on the left. There are three primary differences between DNA and RNA.

First, notice the similar nitrogenous bases making up an RNA molecule. C, G, and A (cytosine, guanine, and adenine) are all represented in RNA, just as they were in DNA. The noticeable difference between DNA and RNA is the nitrogenous base U (uracil). In RNA, U (uracil) replaces T (thymine).

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