Chem of Life

1. Chem of Life Macromolecules: Nucleic Acids

2. Nucleic Acids • Biomolecules • Store and Transmit Hereditary Information

3. Examples (Types) of Nucleic Acids • Deoxyribonucleic Acid (DNA) • Ribonucleic Acid (RNA)

4. DNA Functions • Provides directions for its own replication • Direct RNA synthesis • & through RNA controls protein synthesis

5. Genes • Consist of DNA (a nucleic acid polymer) • Molecules that enable living organisms to reproduce their complex components from one generation to the next.

6. DNA • Inherited from parents • Each chromosome contains one long DNA molecule with several hundred to more than a thousand genes) • Copied before cell division to be passed onto next generation.

7. Molecular Structure: • Monomer: nucleotide • Each nucleotide monomer consists of: • A phosphate group • Pentose sugar • Nitrogenous base

8. RNA Structure • Polynucleotide: • Pentose Sugar = Ribose • Nitrogenous base (a purine or a pyrimidine) • Phosphate group • Simple polynucleotide (single strand)

9. RNA

10. DNA Structure • Polynucleotide: • Pentose Sugar = deoxyribose • Nitrogenous base (a purine or a pyrimidine) • Phosphate group • Double Stranded

11. DNA

14. Ribose vs. Deoxyribose • Deoxyribose lacks an Oxygen atom on the second C in the ring

15. FYI • Numbered Carbons have a prime (‘) after them, note the 5’ C end is the one that sticks out from the ring. • The phosphate group attached to the 5’ C of the ring

16. Recap • Nucleic Acid Polymer = polynucleotides • Examples: DNA & RNA • Nucleic Acid Monomer = nucleotide • Nucleoside (nitrogenous base & pentose) • Phosphate group

17. Nitrogenous Bases • Two families: • Pyrimidine • Purine

18. Pyrimidine: • 6-membered ring & N atoms • N atoms take up the H+ from solution (base) • Members include: • Cytosine (C) • Thymine (T) • (found only in DNA) • Uracil (U) • (found only in RNA)

19. Pyrimidine:

20. Purines • Larger 6-membered ring fused to a 5-membered ring • Members include: • Adenine (A) • Guanine (G)

21. Purines

22. Nitrogenous BaseFunctional Groups • Vary • Attached to the rings (Handout)

23. Polymerization • Adjacent nucleotides are joined by covalent bonds (phosphodiester linkages) • Involves the –OH group on 3’ C of one nucleotide to the phosphate group on the 5’ C of another nucleotide

24. Polymerization • Result = backbone with repeating sugar-phosphate with a distinct 3’ and 5’ ends • DNA (The 2 sugar phosphate strands run in opposite directions = antiparallel) • The nitrogenous bases stick out like appendages and are complementary in DNA.

25. Biological Staining: • Acridine orange (AO) is a nucleic acid selective fluorescent cationic dye useful for cell cycle determination. It is cell-permeable, and interacts with DNA and RNA by intercalation or electrostatic attractions. When bound to DNA, it is very similar spectrally to fluorescein. Like fluorescein, it is also useful as a non-specific stain for backlighting conventionally stained cells on the surface of a solid sample of tissue (fluorescence backlighted staining[4]). Wells J. (1988) A Technique for Staining the Superficial Cells of Plucked Hair Follicles and Other Solid Tissues, Stain Technology, Vol 63, No3.

26. Resources: • http://www.millerandlevine.com/chapter/12/bases.html • http://www.biologycorner.com/bio1/DNA.html • 2006 Miller & Levine Prentice Hall Biology • 2005 Campbell & Reece Biology 7thed