Protein Synthesis

1. Protein Synthesis

3. Why is protein synthesis so important? • Protein is the key bio-molecule behind all of your traits that are expressed. • Hair, skin, eye color, muscle, ETC….

4. Where does it all begin? • Starts in the nucleus • mRNA finds the coding section of DNA. • Coding section of DNA gets unwound by an enzyme (RNA polymerase)

5. http://www.lewport.wnyric.org/jwanamaker/animations/protein%20synthesis%20-%20long.htmlhttp://www.lewport.wnyric.org/jwanamaker/animations/protein%20synthesis%20-%20long.html

6. Genetic Engineering Transfer of genetic information from one organism to another. Genetic engineering, recombinant DNA technology, genetic modification/manipulation (GM) and gene splicing are terms that are applied to the direct manipulation of an organism's genes.

7. Recombinant DNA GloFish are a type of zebrafish with recombinant DNA. Genes for fluorescent proteins have been inserted into their genome to produce their fluorescent colors.

8. Recombinant DNA • The use of cloning is interrelated with Recombinant DNA in classical biology, as the term "clone" refers to a cell or organism derived from a parental organism

9. What is recombinant DNA • The attaching of a section of DNA to another organisms DNA.

12. How does this work? • The first step is for a restriction enzyme to cut the desired DNA sequence from the donor DNA.

14. Step 2 • A vector is needed on an area of bacterial DNA where the donor DNA can be placed. • Must be on a plasmid (circular section of DNA)

15. Step 3 • Ligase is used to attach the donor DNA to the vector DNA.

17. Why is this so important? • some of the areas where Recombinant DNA will have an impact. • Better Crops (drought & heat resistance) • Recombinant Vaccines (ie. Hepatitis B) • Prevention and cure of sickle cell anemia • Prevention and cure of cystic fibrosis • Production of clotting factors • Production of insulin • Production of recombinant pharmaceuticals • Plants that produce their own insecticides • Germ line and somatic gene therapy

19. What can we do if everyone has different DNA • Every single person has different DNA. • You get half your DNA from each parent. • By looking at DNA we can tell who peoples parents are. • We can tell if some one committed a crime. • We can check and compare individuals genetic make-ups.

20. What is the process for doing this? • Gel Electrophoresis: • This method uses specific restriction enzymes which cut the DNA into sections at highly specific sites. • Such as AAAGGG • The size of the fragments will vary depending on where the sequence of bases is located on the DNA.

22. What is the process for doing this? • Once the DNA has been cut it gets loaded into wells on the gel electrophoresis machine. • This machine uses electric current to push the negatively charged DNA through a gel. • The DNA will start at the negative end and move towards the positive end. • As this occurs smaller pieces will move faster than larger pieces. • The once the process is finished each section of DNA will have stopped at a specific area.

25. What is the process for doing this? • Once stopped scientists add a stain so the DNA fragments can be seen. • Now you are able to compare some ones DNA with some one else's. • Also called DNA fingerprinting.