Warm-Up 3/12/12

1. Warm-Up 3/12/12 • What is the purpose of gel electrophoresis? • To which end of a gel box (+ or -) will DNA travel? Why? Answers: The purpose is to separate molecules by size and charge in an agarose gel. DNA travels to the positive end of a gel box because it is negatively charged. Turn in your purple GE Virtual Lab and yellow GE Pre-Lab to be stamped/returned at my leisure.

2. Goals for this week • Review stem cells, gene therapy, and gel electrophoresis basic content • Learn about cloning • Learn the Dye Lab procedure and practice micropipetting skills for next week’s gel electrophoresis labs

3. Put a new entry in your lab book table of contents: Biotechnology Practice Questions Also, take out your Gene Therapy and Stem Cells Guided Notes

4. Gel Electrophoresis Practice Question • Copy the drawing of the agarose gel from the board. • For each sample (A-D), predict which direction and relatively how far each sample will travel through the gel. Draw your prediction on the gel. A = positively charged, small B = positively charged, large C = negatively charged, small D = negatively charged, large

5. Stem Cells Practice Question • What is the difference between a totipotent, pluripotent, and multipotent stem cell? Which is used most by researchers in attempting to re-grow dead cells?

6. Stem Cells Answer • Totipotent stem cells are fertilized eggs (0-1 days old). They can become any cell type. • Pluripotent stem cells are 4 day old embryos that can become over 200 cell types. • Multipotent stem cells are ‘adult’ stem cells that regenerate skin, blood cells, etc. • Most research is done using pluripotent stem cells- they are easiest to ‘catch’ and have the most possibility

7. Gene Therapy Practice Question • Explain how gene therapy could be used to: a: cure a genetic disorder in an adult b: change the genes present in human embryos to create a ‘designer baby’

8. Gene Therapy Answer • In gene therapy, beneficial human genes are cloned inside bacteria and then loaded into empty virus shells. The virus is injected into people with genetic disorders. The beneficial genes should join the DNA of the patient when the virus injects its DNA into host cells, replacing the defective gene causing the disorder. • Gene therapy could be used to deliver genes for beneficial and/or desired traits directly to embryos. The virus would infect the embryo cells with the desired genes just like described above.

9. Designer Babies Practice Question • A couple decides they want to produce a disease-free male heir. Explain how In-Vitro fertilization can be used to select for this child • http://www.flickclip.com/flicks/jurassicpark3.html

10. Designer Babies Answer • First, sperm from the father and eggs from the mother would be united in a Petri dish, making multiple embryos to select from. Then, each embryos DNA would be run through a computer program comparing it to normal DNA to find which embryos have which genetic disorders. Also, each embryo would be screened for a Y chromosome. Disease-free embryos with the chromosome combination XY would be selected and implanted back into the mother’s uterus.

11. How We Clone Animals • Cells from desired animal are stored in petri dish • An egg from another animal is used to grow the desired clone • Egg’s nucleus is removed • Nucleus from desired cell is inserted • Egg grows into blastocyst • Blastocyst is implanted into surrogate mother

12. This is called Somatic Cell Nuclear Transfer

13. Cloning Clips • http://www.pbs.org/wgbh/nova/nature/t-rex-blood.html

14. Biotechnology Practice Question • Of the three biotechnology advances you have learned about (designer babies, gene therapy, stem cells), which do you find the most promising for improving human existence? Why?