DNA: Chemical Structure of Nucleic Acids & Phosphodiester Bonds
- Track Progress
- 0:24 Nucleic Acids
- 1:42 The Functions of DNA
- 2:29 The Structure of a Nucleotide
- 3:47 Phosphodiester Bonds
- 5:13 Lesson Summary
In this lesson, you'll discover what nucleotides look like and how they come together to form polynucleotides. We'll also explore nucleic acids and focus on DNA in particular.
In a cell, nucleic acids are represented by two separate yet equally important forms: the DNA that stores information in the nucleus and RNA that is used to translate that information into proteins. These are their stories.
Miss Crimson: Good day, ladies and gentlemen of the jury. My name is Miss Crimson, and I'm here to prove to you without a shadow of a doubt that my client, Colonel Custard, is not guilty of the most heinous crime of murdering poor Mr. Bones. The host of the International Cookbook Writers Convention was cruelly murdered with a lead pipe in a spiral staircase while on his way to deliver his award-winning cookbook to the kitchen. However, the defendant, Colonel Custard, was not responsible. The testimony of my expert witness will not only clear my client of all wrong-doing but will also reveal the identity of the true killer of our poor departed Mr. Bones.
Your honor, I call to the stand Professor Pear, an expert in DNA structure and function! Professor, could you please explain to us what DNA is?
Professor Pear: Why, yes. I'd be happy to tell you about DNA. DNA stands for 'deoxyribonucleic acid,' and it's a fascinating molecule. It's one of two basic types of nucleic acids, the other being RNA, or 'ribonucleic acid.' Nucleic acids are the molecules that cells use to store, transfer and express genetic information.
The Functions of DNA
Miss Crimson: That's very nice, Professor, but could you elaborate on the DNA molecule?
Professor Pear: Yes, yes, of course. It's the molecule that stores genetic information in an organism. It's essentially providing directions… like a recipe, if you will… for pretty much everything that makes us, well, us. If proteins are like the building blocks for structures, enzymes and other cool things in a cell, DNA is like a recipe that tells a cell how to create those building blocks.
Miss Crimson: So, you're saying that everyone has this DNA stuff inside his or her body?
The Structure of a Nucleotide
Professor Pear: Oh my, yes. DNA is an integral part of every organism, just like other types of organic molecules found in our body, such as carbohydrates, lipids and proteins.But the structure of DNA is very distinct from those other types of organic molecules. Deoxyribonucleic acid gets its name from the fact that DNA possesses a sugar called deoxyribose. That sounds like a fancy name, but really it's very easy to remember that it's a sugar like other sugars you may have encountered, such as sucrose and fructose. Just remember that all sugars end in '-ose.' A monomer of DNA is called a nucleotide.
Miss Crimson: Professor, can you please restate that definition in simpler terms?
Professor Pear: Oh, I'm sorry. A monomer is just the most basic subunit of a complex molecule. That makes the nucleotide the most basic subunit of DNA, or, more generally, of any nucleic acid. A nucleotide is composed of three things: a sugar (in the case of DNA, the deoxyribose I mentioned earlier), a phosphate group and a nitrogenous base. As you can see in this diagram, the phosphate group and nitrogenous base are both attached to the sugar. When a nucleotide is part of a polynucleotide chain, it is often referred to as a base.
Oh, um, did I forget to tell you what a polynucleotide is? A polynucleotide is simply a long chain of nucleotides. 'Poly-' means 'many', so 'polynucleotide' literally means 'many nucleotides.' Now, you're probably wondering how these nucleotides are held together. Nucleotides in a polynucleotide molecule are held together by the bond between the phosphate group of one nucleotide and the sugar of a second nucleotide. A hydroxyl group (or -OH) in the sugar and one of the oxygen atoms in the phosphate group form what's called a diester bond. For this reason, the bond between the phosphate group and the sugar in a polynucleotide molecule is called a phosphodiester bond.
Linking nucleotides together forms a structure that looks like half of a ladder that was cut down the middle with an axe. The phosphate groups and sugars form the backbone of the ladder, while the nitrogenous bases provide the rungs. There are four different types of nitrogenous bases, and the order of the bases in a polynucleotide is what tells a cell how to make a structural protein, an enzyme or any other number of important components of a healthy, functioning organism.
Miss Crimson: Okay, Professor Pear, let me stop you right there. You've been throwing around a lot of fancy jargon. Before you go any further, let me see if I can summarize for the jury what you've told us so far.
Nucleic acids are the molecules cells use to store, transfer and express genetic or hereditary information. Nucleic acids can be categorized into DNA, or deoxyribonucleic acid, and RNA, or ribonucleic acid. DNA is the molecule that stores genetic information in an organism.
A single monomer subunit of a nucleic acid is called a nucleotide. A DNA nucleotide is composed of a sugar, called deoxyribose, a phosphate group and a nitrogenous base. A polynucleotide is a nucleic acid molecule consisting of a long chain of nucleotides. Nucleotides in a polynucleotide molecule are held together by a bond between the phosphate group of one nucleotide and the sugar of a second nucleotide, which is called a phosphodiester bond.
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Chapters in Biology 101: Intro to Biology
- 1. Science Basics (6 lessons)
- 2. Review of Inorganic Chemistry For Biologists (14 lessons)
- 3. Introduction to Organic Chemistry (8 lessons)
- 4. Nucleic Acids: DNA and RNA (4 lessons)
- 5. Enzymatic Biochemistry (4 lessons)
- 6. Cell Biology (14 lessons)
- 7. DNA Replication: Processes and Steps (5 lessons)
- 8. The Transcription and Translation Process (10 lessons)
- 9. Genetic Mutations (4 lessons)
- 10. Metabolic Biochemistry (9 lessons)
- 11. Cell Division (13 lessons)
- 12. Plant Biology (12 lessons)
- 13. Plant Reproduction and Growth (10 lessons)
- 14. Physiology I: The Circulatory, Respiratory, Digestive,... (12 lessons)
- 15. Physiology II: The Nervous, Immune, and Endocrine Systems (13 lessons)
- 16. Animal Reproduction and Development (12 lessons)
- 17. Genetics: Principles of Heredity (10 lessons)
- 18. Principles of Ecology (18 lessons)
- 19. Principles of Evolution (9 lessons)
- 20. The Origin and History of Life On Earth (4 lessons)
- 21. Phylogeny and the Classification of Organisms (7 lessons)
- 22. Social Biology (6 lessons)
- 23. Basic Molecular Biology Laboratory Techniques (13 lessons)
- 24. Analyzing Scientific Data (3 lessons)
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