Functional Anatomy of Prokaryotic and Eukaryotic Cells Chapter 4 Functional Anatomy of Prokaryotic and Eukaryotic Cells
Definition of “prokaryotic” Refers to organisms, typically 1-celled, having cells which: lack a nucleus lack membrane-bound organelles contain 1 chromosome may contain extra-chromomal DNA (plasmids) contain 70S ribosomes contain peptidoglycan cell walls
Prokaryotic vs. Eukaryotic cells
Bacterial cell size, shapes and arrangements 2.0 – 10.0 uM in length Eukaryotic cells ~10x larger 3 common morphologies bacillus = rod-shaped coccus = spherical shaped spirillum = spiral shaped Many arrangements diplo- strepto- Staphylo- ***spirochetes**
Bacterial morphologies Morphology can be used as an initial identifier However, shape can change in some bacteria depending on environs “pleomorphic” cells
Bacterial ultrastructure
1) Cell wall structure Alternating NAM & NAG amine sugars produce layers of block units NAM = n-acetylmuramic acid NAG = n-acetylglucosamine Layers connected by tetrapeptide chains linked to NAM’s Penta-glycine interbridges connect tetrapeptides in Gram + cells (sensitive to penicillin) Direct peptide bonds connect tetrapeptides in Gram – cells (not sensitive to penicillin) Make up peptidoglycan
Alternating NAM-NAG with tetrapeptide connections
Gram positive cell wall structure Ok, not too bad – now for something completely different – Gram negative cell walls!
Gram negative cell wall structure Gram neg. cell walls are composed of peptidoglycan AND an outer membrane; it is multi-layered!!
Gram negative LPS* *Lipopolysaccharide contains 3 parts: Antigen O – can change shape in dif’t environs Core polysaccharide – contains neg. charge Lipid A – also called ‘endotoxin A’; released upon cell death and can have toxic affect on nearby cell membranes
Gram pos. vs Gram neg cell walls Two part structure Thin peptidoglycan (10-20 nm) Outer membrane Outer membrane contains LPS LPS imparts a negative charge Thick peptidoglycan 20-80 nm thick Retains CV-I complex of Gram stain Teichoic acid anchors cell wall to cell membrane and imparts a negative charge Glycerol-P polymer
The Gram stain
2) Bacterial flagella Composed of: 1) basal body, 2) filament, 3) hook Basal body connects to cell wall and to cell membrane Uses ATP to spin
Arrangements of flagella
Bacteria are hampered to some extent by flagellar rotation