DNA

1. DNA • The common thread of life. Dr. J.J.Timmel

2. What are the functions of DNA? • There are two main functions of DNA • It is the molecule of heredity. • It contains the information needed to construct proteins.

3. What is heredity? • Heredity is the term used to explain the transfer of genetic information from one generation to the next. • You inherited half of your DNA (your genes) from Mom, and the other half from Dad. • DNA is the molecule that allows this to happen.

4. Structure of DNA • As you surely remember the basic building blocks of DNA are nucleotides. • Here we see the phosphate group and 5-Carbon Sugar.

5. The third part of a nucleotide is the nitrogen base. There are two types of nitrogen bases: Purines: A and G which have a double ring structure. Pyrimidines: T and C which have a single ring. Nitrogen bases.

7. Genes to Proteins. • Your DNA is housed in the nucleus of every cell in your body. • Most of the time, the DNA is in long twisted strands called Chromatin. Very thin, and cannot be seen using a regular compound light microscope. • The Chromatin condenses to form Chromosomes prior to cell division. These can be seen.

8. Genes to proteins cont. • These strands of chromatin are made up of many genes. A gene can be hundreds or thousands of nucleotides long. (The entire human genome consists of 3 BILLION nucleotides). • Each gene is a series of nucleotides which contains the information to make a protein. • 1 gene = 1 protein.

9. The genetic code • Genetists (Scientists who study genetics) were interested in determining how information in your genes was used to create proteins. • They knew that there were 20 different amino acids and that there were 4 types of nucleotide.

10. Cracking the code. • Since there were twenty amino acids and only 4 nucleotide types, they knew that the genetic code had to consist of more than one nucleotide. 41= 4 Ex. The nucleotide Adenine by itself does not code of the amino acid Threonine.

11. Cracking the code (cont.) • By applying the same logic, they realized that the genetic code could not consist of two nucleotides either. 42=16 Adenine and Cytosine together does not code for the amino acid Threonine.

12. Cracking the code • Expanding on the theme, they realized that sequences of 3 nucleotides would give more than enough combinations to code for all 20 amino acids. 43=64 Adenine, Cytosine and Guanine DO code for the amino acid Threonine. They call these 3-nucleotide sequences CODONS. We will be using the actual genetic code later in this unit.

13. The Genetic Code Lets take a look. DNA genetic code

14. DNA Replication • Prior to cell division (mitosis or meiosis) the cell must make another copy of, or replicate it’s DNA. • The DNA molecule basically unzips itself by breaking the hydrogen bonds holding the two strands of nucleotides together. • Each strand then forms a second strand by using free nucleotides which are found in the nucleus. • DNA replication simple • DNA replication complex

15. DNA and RNA • Both are nucleic acids, and are very similar to each other. • There are some differences. DNA RNA Sugar: Deoxyribose Ribose Strands: 2 1 Nitrogen Base: Thymine Uracil Location Nucleus Nucleus & Cytoplasm

16. RNA transcription • While DNA contains an entire library’s worth of information, it is a big, big molecule. • It is so big, it cannot fit through the pores of the nuclear membrane. • To get the information needed to make proteins to the ribosomes, the DNA needs some help.

17. Enter the messenger • In order to get the information stored in a gene to the ribosome, messenger RNA (mRNA) is transcripted. • First, the DNA will partially unzip itself to expose one gene’s worth of code. • An enzyme called RNA polymerase then copies a strand of RNA based on the template strand of the DNA.

18. mRNA transcription • RNA transcription simple • RNA transcription complex