1. SACCONE POWERPOINT NYS LAB Relationships and Biodiversity

2. SACCONE POWERPOINT Click on the Electrophoresis Links below: http://www.dnalc.org/ddnalc/res ources/electrophoresis.htmlhttp://www.dnalc.org/ddnalc/res ources/electrophoresis.html http://bcs.whfreeman.com/bioch em5/cat_040/ch04/ch04xd02.ht mhttp://bcs.whfreeman.com/bioch em5/cat_040/ch04/ch04xd02.ht m http://www.sumanasinc.com/we bcontent/anisamples/majorsbiol ogy/gelelectrophoresis.htmlhttp://www.sumanasinc.com/we bcontent/anisamples/majorsbiol ogy/gelelectrophoresis.html http://www.tvdsb.on.ca/westmin /science/sbioac/genetics/Electr o.htmhttp://www.tvdsb.on.ca/westmin /science/sbioac/genetics/Electr o.htm NYS LAB Relationships & Biodiversity

3. SACCONE POWERPOINT Simulated Gel Electrophoresis http://www.tvdsb.on.ca/westmin/science/sbioac/genetics/Electro.htm http://www.sumanasinc.com/webcontent/anisamples/majorsbiology/gelelectrophoresis.html

4. SACCONE POWERPOINT Chromatography click on the link below! http://www.wooster.edu/chemistry/analytical/gc/de fault.html Chemical characteristics of plants used to compare & determine relationships.

5. SACCONE POWERPOINT Chromatography is also used to separate chemicals.

6. SACCONE POWERPOINT DNA Hybridization

7. SACCONE POWERPOINT DNA Hybridization shows that the Red panda & the Giant Panda are related as a result of convergent evolution.

8. SACCONE POWERPOINT Physical characteristics of plants used to compare & determine relationships Botana curus

9. SACCONE POWERPOINT Physical characteristics of plants used to compare & determine relationships

10. SACCONE POWERPOINT Botana curus Physical characteristics of plants used to compare & determine relationships

11. SACCONE POWERPOINT Botana curus

12. SACCONE POWERPOINT Botana curus

13. SACCONE POWERPOINT Botana curus

14. SACCONE POWERPOINT Physical characteristics of plants used to compare & determine relationships

15. SACCONE POWERPOINT Physical characteristics of plants used to compare & determine relationships

16. SACCONE POWERPOINT Species X Physical characteristics of plants used to compare & determine relationships

17. SACCONE POWERPOINT Physical characteristics of plants used to compare & determine relationships

18. SACCONE POWERPOINT Species X

19. SACCONE POWERPOINT Physical characteristics of plants used to compare & determine relationships

20. SACCONE POWERPOINT Species Y Physical characteristics of plants used to compare & determine relationships

21. SACCONE POWERPOINT Species Z Physical characteristics of plants used to compare & determine relationships

22. SACCONE POWERPOINT Physical characteristics of plants used to compare & determine relationships

23. SACCONE POWERPOINT Species Z Physical characteristics of plants used to compare & determine relationships

24. SACCONE POWERPOINT Microscopic Stem Structure Physical characteristics of plants used to compare & determine relationships

25. SACCONE POWERPOINT Complete the DNA compliment T C A T G C

26. SACCONE POWERPOINT Genetic Code A genetic code contains the information for the sequence of amino acids in a particular protein This code is present in mRNA molecules and is three bases long. This is known as a codon Ex: UAG - is a codon

27. SACCONE POWERPOINT mRNA Genetic codes

28. SACCONE POWERPOINT Messenger RNA (mRNA) 1.When portions of DNA molecules unwind and separate, RNA nucleotides pair with complimentary bases on the DNA strand. This forms a mRNA that is complimentary to the DNA strand 2.The sequence of nucleotides in the mRNA contain the genetic code 3.The genetic code for each amino acid is a sequence of three nucleotides forming a codon

29. SACCONE POWERPOINT Messenger RNA (mRNA) 1.Example: Here the mRNA is complimentary to the DNA. 1. The DNA serves as the original template. DNAmRNA T A A U C G (A:T & G:C in RNA use U instead of T)

30. SACCONE POWERPOINT