1. The Chemistry of Microbiology
Chapter 2

2. Atoms Matter – anything that takes up space and has mass
Atoms – the smallest chemical units of matter
Atomic Structure
Electrons – negatively charged subatomic particles circling a nucleus
Nucleus – structure containing neutrons and protons
Neutrons – uncharged particles
Protons – positively charged particles

3. Atoms Atomic Structure Element – composed of a single type of atom
Atomic number – equal to the number of protons in the nucleus
Atomic mass (atomic weight) – sum of masses of protons, neutrons, and electrons

4. 4

5. Atoms
Isotopes
Atoms of a given element that differ in the number of neutrons in their nuclei
Stable isotopes
Unstable isotopes
Radioactive isotopes
Release energy during radioactive decay

6. Atoms Electron Configurations
Only the electrons of atoms interact, so they determine atom's chemical behavior
Electrons occupy electron shells
Valence electrons – electrons in outermost shell that interact with other atoms

7. Figure 2.4 Bohr diagrams of the first 20 elements and their places within the chart known as the periodic table of the elements.

8. Chemical Bonds Valence – combining capacity of an atom
Positive if atom has electrons to give up
Negative if atom has spaces to fill
Stable when outer electron shells contain eight electrons
Chemical bonds – atoms combine by sharing or transferring valence electrons
Molecule – two or more atoms held together by chemical bonds
Compound – a molecule composed of more than one element

9. Chemical Bonds
Covalent bond – sharing of a pair of electrons by two atoms
Electronegativity – attraction of atom for electrons
The more electronegative an atom, the greater the pull its nucleus exerts on electrons

10. Chemical Bonds Nonpolar covalent bonds
Shared electrons spend equal amounts of time around each nucleus
Atoms with similar electronegativities
No poles exist
Carbon atoms form four nonpolar covalent bonds with other atoms
Organic compounds contain carbon and hydrogen atoms

11. Figure 2.6 Electronegativity values of selected elements.

12. Chemical Bonds Polar Covalent Bonds
Unequal sharing of electrons due to significantly different electronegativities
Most important polar covalent bonds involve hydrogen
Allow for hydrogen bonding

13. Chemical Bonds Ionic Bonds
Occur when two atoms with vastly different electronegativities come together
Atoms have either positive (cation) or negative (anion) charges
Cations and anions attract each other and form ionic bonds (no electrons shared)
Typically form crystalline ionic compounds known as salts

14. Chemical Bonds Hydrogen Bonds
Electrical attraction between partially charged H+ and full or partial negative charge on same or different molecule
Weaker than covalent bonds but essential for life
Help to stabilize 3-D shapes of large molecules

15. Chemical Reactions The making or breaking of chemical bonds
Involve reactants and products
Biochemistry involves chemical reactions of living things

16. Chemical Reactions Synthesis Reactions
Involve the formation of larger, more complex molecules
Require energy (endothermic)
Common type is dehydration synthesis
Water molecule formed
All the synthesis reactions in an organism are called anabolism

17. Chemical Reactions Decomposition Reactions
Break bonds within larger molecules to form smaller atoms, ions, and molecules
Release energy (exothermic)
Common type is hydrolysis
Ionic components of water are added to products
All the decomposition reactions in an organism are called catabolism

18. Chemical Reactions Exchange Reactions
Involve breaking and forming covalent bonds
Have endothermic and exothermic steps
Involve atoms moving from one molecule to another
Sum of all chemical reactions in an organism is called metabolism

19. Water, Acids, Bases, and Salts
Most abundant substance in organisms
Many special characteristics due to two polar covalent bonds
Cohesive molecules – surface tension
Excellent solvent
Remains liquid across wide range of temperatures
Can absorb significant amounts of energy without changing temperature
Participates in many chemical reactions

20. Figure 2.12 The cohesiveness of liquid water.
Hydrogen
bonds
Aquarius remigis, a water strider

21. Water, Acids, Bases, and Salts
Acids and Bases
Dissociated by water into component cations and anions
Acid – dissociates into one or more H+ and one or more anions
Base – binds with H+ when dissolved into water; some dissociate into cations and OH–

22. Buffers prevent drastic changes in internal pH
Figure The pH scale.
Concentration of H+ in solution expressed using the pH scale
Metabolism requires relatively constant balance of acids and bases
Buffers prevent drastic changes in internal pH

23. Water, Acids, Bases, and Salts
Compounds that dissociate in water into cations and anions other than H+ and OH–
Cations and anions of salts are electrolytes
Create electrical differences between inside and outside of cell
Transfer electrons from one location to another
Form important components of many enzymes

24. Organic Macromolecules
Functional Groups
Contain carbon and hydrogen atoms
Atoms often appear in arrangements called functional groups
Macromolecules – large molecules used by all organisms
Lipids
Carbohydrates
Proteins
Nucleic acids
Monomers – basic building blocks of macromolecules

25. 25

26. Organic Macromolecules
Lipids
Not composed of regular subunits
Are all hydrophobic
Four groups
Fats
Phospholipids
Waxes
Steroids

27. Figure 2.15 Fats (triglycerides).3
Ester bond
Dehydration
synthesis
Glycerol +
3 fatty acids
Fat (triglyceride)
Saturated fatty acid
Monounsaturated fatty acid

28. Organic group Cell Unsaturated fatty acid Hydrophilic (polar)
Figure Phospholipids.
Organic group
Cell
Unsaturated
fatty acid
Hydrophilic
(polar)
head
Phosphate group
Glycerol
Symbol
Phospholipid bilayer
Hydrophobic
(nonpolar)
tails
Double
bond
Saturated
fatty acid
Unsaturated
fatty acid
Phospholipid

29. Organic Macromolecules
Lipids
Waxes
Contain one long-chain fatty acid covalently linked to long-chain alcohol by ester bond
Lack hydrophilic head
Completely insoluble in water

30. Organic Macromolecules
Carbohydrates
Organic molecules composed of carbon, hydrogen, and oxygen (CH2O)n
Functions
Long-term storage of chemical energy
Ready energy source
Part of backbones of nucleic acids
Converted to amino acids
Form cell wall
Involved in intracellular interactions between animal cells

31. Organic Macromolecules
Carbohydrates
Types
Monosaccharides
Disaccharides
Polysaccharides

32. Figure Disaccharides.

33. Figure 2.20 Polysaccharides.
-1,4 bonds
Hydrogen
bonds
Hydrogen
bond
Cellulose
-1,4 bonds
Amylose
(unbranched)
-1,4 bond
-1,6 bond
-1,6 bond
-1,4 bond
Glycogen

34. Organic Macromolecules
Proteins
Mostly composed of carbon, hydrogen, oxygen, nitrogen, and sulfur
Functions
Structure
Enzymatic catalysis
Regulation
Transportation
Defense and offense

35. Organic Macromolecules
Proteins
Amino acids
The monomers that make up proteins
Most organisms use only 21 amino acids in protein synthesis
Side groups affect how amino acids interact with one another and how a protein interacts with other molecules
A covalent peptide bond is formed between amino acids

36. Figure 2.22 Stereoisomers, molecules that are mirror images of one another.

37. Dehydration synthesis Carboxyl group Amino group Peptide bond
Figure The linkage of amino acids by peptide bonds via a dehydration reaction.
Dehydration
synthesis
Carboxyl
group
Amino
group
Peptide bond
Amino acid 1
Amino acid 2
Dipeptide

38. Figure 2.24 Levels of protein structure.
Amino
acid 1
Peptide
bond
-pleated sheet
Amino
acid 2
-helix
Hydrogen bond
Amino
acid 3
Secondary structure
Amino
acid 4
-pleated sheets
Primary structure
-helix
Tertiary structure
Quaternary structure

39. Organic Macromolecules
Nucleic Acids
DNA and RNA are the genetic material of organisms and viruses
RNA also acts as enzyme, binds amino acids, and helps form polypeptides

40. Organic Macromolecules
Nucleic Acids
Nucleotides and nucleosides
Nucleotides
Monomers that make up nucleic acids
Composed of three parts
Phosphate
Pentose sugar – deoxyribose or ribose
One of five cyclic nitrogenous bases
Nucleosides are nucleotides lacking phosphate

41. Organic Macromolecules
Nucleic Acids
Nucleic acid structure
Three H bonds form between C and G
Two H bonds form between T and A (DNA) or U and A (RNA)
DNA is double stranded in most cells and viruses
The two strands are complementary
The two strands are antiparallel

42. Organic Macromolecules
Nucleic Acids
Nucleic acid function
DNA is genetic material of all organisms and of many viruses
Carries instructions for synthesis of RNA and proteins
Controls synthesis of all molecules in an organism

43. Figure ATP.