1. Prokaryote Cell Structure & Function
Cell Diagram: Mariana Ruiz, pub domain

2. 1 m = 100 cm = 1,000mm = 1,000,000 µm = 1,000,000,000nm
1mm = 1000 µm = nm
1 µm = 1000nm

3. The Cellular Level of Organization
Living things are constructed of cells.
Living things may be unicellular or multicellular.
Cell structure is diverse but all cells share common characteristics.
Cells are small so they can exchange materials with their surroundings.
Surface area relative to the volume decreases as size of cell increases.
- limits the size of cells
___________________ states:
1. All organisms are composed of one or more cells.
2. Cells are the basic unit of structure and function in organisms.
3. All cells come only from other cells.
Cell Theory

4. Two basic types of cells
Prokaryotic Cells (Prokaryotes)
Eukaryotic Cells (Eukaryotes)
_____________________
_____________________
Diagrams:
Prokaryotic & Eukaryotic Cell, Mariana Ruiz

5. Prokaryotes Tell me about Prokaryotes… Binary Fission Prokaryotes
Almost always single-celled (except for prokaryote colonies).
Always reproduces by means of binary fission.
Does not have a cell nucleus or any other organelles within membranes.
DNA travels openly around the cell.
- All bacteria are prokaryotes.
Diagrams:
Prokaryotic Mariana Ruiz
Binary Fission, JW Schmidt

6. Prokaryotes ______________ Also known as proto-plasm.
Gel-like matrix of water, enzymes, nutrients, wastes, and gases and contains cell structures.
Location of growth, metabolism, and replication.
Cytoplasm
Granules

7. Prokaryotes _______________
Found within cytoplasm or attached to plasma membrane.
What are they made of?
What do they do?
Composed of a small (30S) subunit and a large (50S) subunit.
Cell may contain thousands of ribosomes.
_________________
Cellular "scaffolding" or "skeleton" within the cytoplasm.
Major advance in prokaryotic cell biology in the last decade has been discovery of the prokaryotic cytoskeleton.
Previously thought to be a feature only of eukaryotic cells.
Eukaryotic Cells
Ribosome
Cytoskeleton
Diagrams/Photos:
Fluorescent Cell: NIH, Pub Domain

8. Prokaryotes - Plasma Membrane
Separates the cell from its environment.
Phospholipid molecules oriented so that hydrophilic (__________) heads directed outward and hydrophobic (__________) tails directed inward.
Proteins embedded in two layers of lipids (lipid bilayer).
___________________ to allow substances to pass into and out of the cell.
Water loving
Water hating
Semi Permiable
Diagrams:
Prokaryotic Cell, Mariana Ruiz
Membrane: NIST

9. Prokaryotes – Plasma Membrane as a Barrier
Primary function of plasma membrane → regulate movement of molecules entering or leaving cell.
Movement of molecules across plasma membrane requires energy.
Diffusion
Temperature: molecules are always moving, and move faster at higher temperatures.
Size: small molecules move faster than large molecules.
Concentration Gradient: difference in concentration of a substance between two areas

10. Prokaryotes – Cell Wall
Peptidoglycan is a huge polymer of interlocking chains of identical peptidoglycan monomers.
Peptidoglycan
- Rigid mechanical support
- Freely permeable to solutes
Image:
Peptindoglycan Structure: NicolasGrandjean

11. Prokaryotes - Cell Wall
From the peptidoglycan inwards all bacteria are very similar. Going further out, the bacterial world divides into two major classes (plus a couple of odd types). These are:
Gram-positive Gram-negative
Images: PHIL Public Health Image Library

12. Prokaryotes - Cell Wall: Gram-Negative & Gram-Positive
Peptidoglycan makes up as much as 90% of the thick, compact cell wall.
Gram-negative
More chemically complex and thinner.
Peptidoglycan only 5 – 20% of the cell wall.
Peptidoglycan not outermost layer, between the plasma membrane and the outer membrane.
Outer membrane is similar to the plasma membrane, but is less permeable and composed of lipopolysaccharides (LPS).
LPS is a harmful substance classified as an endotoxin,
The space between the cell wall and the plasma membrane is called the periplasm.
Image:
Prokaryotic Cell, Mariana Ruiz
Gram +-, Julian Onions

13. Why are these differences in cell wall structure so important?
Gram-negative bacteria: fewer interpeptide bridges but have an outer membrane made of lipopolysaccharides LPS.
Penicillins and cephalosporins interfere with linking of interpeptides, but can’t easily get to in gram- bacteria.
Cell walls without enough of these intact cross-links are structurally weak, and disintegrate when cells divide. This is how penicillins and cephalosporins work.
Since the eukaryotic cells of humans do not have cell walls, our cells are not damaged by these drugs.
Microorganisms that do not contain peptidoglycan are not susceptible to these drugs.
Images: Sources unknown

14. Prokaryotes - Glycocalyx
Some bacteria have an additional layer outside of the cell wall called the glycocalyx.
This additional layer can come in one of two forms:
Slime Layer
Capsule
Slime layer
Capsule
STRUCTURE OF MICOBIAL CELLS

15. Prokaryotes - Glycocalyx
Some bacteria have an additional layer outside of the cell wall called the glycocalyx.
This additional layer can come in one of two forms:
1. ______________________
glycoproteins loosely associated with the cell wall.
Slime layers cause bacteria to adhere to solid surfaces and help prevent the cell from drying out.
Streptococcus
The slime layer of Gram+ Streptococcus mutans allows it to accumulate on tooth enamel (yuck mouth and one of the causes of cavities).
Other bacteria in the mouth become trapped in the slime and form a biofilm & eventually a buildup of plaque.
Staphylococcus
The slime layer of Gram+ Staphylococcus allows it to thrive in the salty, hypertonic environment of the skin.
Glycocalyces are not specific to Gram+ or Gram- bacteria, sometimes only some members of a certain species (strains) have a glycocalyx, whereas others don’t.
Slime layer
Capsule
STRUCTURE OF MICOBIAL CELLS

16. Prokaryotes - Glycocalyx
2. ___________________
polysaccharides firmly attached to the cell wall.
Capsules adhere to solid surfaces and to nutrients in the environment.
Adhesive power of capsules is a major factor in the initiation of some bacterial diseases. Capsule also protect bacteria from being phagocitized by cells of the hosts immune system.
Slime layer
Capsule
STRUCTURE OF PROKAROTIC CELLS

17. Prokaryotes - Glycocalyx
Bacterial Capsule and Meningococcal Infection
Meningococcal infection is caused by meningococcal bacteria (Neisseria meningitidis).
Causes:
meningococcal meningitis (infection of the meninges/spinal cord)
meningococcal septicaemia (blood poisoning).
Of the two forms, meningococcal septicaemia is the most dangerous.
Meningococcal bacteria are the most common cause of bacterial meningitis.
Approximately 5% of people who suffer from meningococcal meningitis will die.
Meningococcal bacteria grow in pairs called diplococci often surrounded by a capsule coat. Over a million of these would fit on the head of a pin.
Slime layer
Capsule
STRUCTURE OF PROKAROTIC CELLS