III. Cell wall, peptidoglycan structure & synthesis

A. Functions of the Cell Wall

• confers a shape to the bacteria
• directly in contact with the environment. Its interaction w/the outside world may determine the successful survival of the cell
• involved in many pathogenic properties of the bacteria
• acts as a barrier to some molecules

Q. What does this mean?

• a cell wall protects cells from osmotic lysis

B. General Properties of the Cell Wall

• a thick rigid layer that is found in both G+ and G- cells
• glycan strands - 2 sugars crosslinked by peptide chains
• 2 sugars are N-acetyl glucosamine (NAG) & N-acetyl muramic acid (NAM)
• attached to NAM is a peptide side chain generally of 4 amino acids

• 1 NAM, NAG, & aa side chain form a single peptidoglycan unit that can link w/ other units via covalent bonds to form a repeating polymer
• the polymer is further strengthened by cross links between aa 3 (DPA or L-Lys) of one unit and aa 4 (D-Ala) of the next glycan tetrapeptide

C. G+ Cell Wall

• 20-80nm
• A thick peptidoglycan layer constitutes most of the G+ cell wall (> 50%)
• As a result, the G+ cell wall is very sensitive to the action of lysozyme and penicillin
• Teichoic acid - alcohol phosphates. Covalently linked to muramic acid, links various layers of the peptidoglycan mesh together

D. G- Cell Wall

• 10nm
• a more complicated structure

• 2 separate areas w/ an additional membrane besides the cellular membrane - outer membrane (OM)
• a thin layer of peptidoglycan (10-20%)
• an open area - the periplasmic space

• less cross-linking with no peptide interbridge
• covalently bound to the peptidoglycan is Braun's lipoprotein, which has a hydrophobic anchor in the OM that strongly binds the peptidoglycan to the OM

• role in the virulence of G- bacteria
• a lipid bilayer like the cell membrane, containing lipids & proteins, but it also contains lipopolysaccharides (LPS)
• has distinctive sides, w/ the side that faces the outside containing the LPS

• composed of 2 parts, Lipid A & a polysaccharide chain that reaches out into the environment
• Lipid A is a derivative of 2 NAG units w/ up to 7 fa connected to it that anchor the LPS in the membrane
• attached to Lipid A is a conserved core polysaccharide that contains, KDO, heptose, glucose & glucosamine sugars
• rest of the polysaccharide consists of repeating sugar units called the O-antigen

• O-antigen gets its name from the fact that it is exposed to the outer environment
• G- protect themselves from hosts defenses by varying the make-up of the O-antigen
• LPS is biologically very impt because it has activities in humans - LPS is why G- septicemia kills

• Ex. porins - proteins that form pores in the OM wide enough to allow passage of most small hydrophilic molecules

• negative charge to cell
• pores for entrance of hydrophilic molecules
• phage receptors
• pathogenic properties
• keeps enzymes in periplasm

• a hydrated gel in between PG and OM, contains many different proteins
• proteins function to detect the environ. & transport needed nutrients into the cell

A comparison of G- and G+ cell wall types

E. Synthesis of Peptidoglycan

• multi-step process
• inside & outside the cell

• synth. of precursors into NAM-UDP & NAG-UDP
• addition of aa to form pentapeptides

• peptide bonds are synth. by enz. & not on ribosomes

• requires ATP

Q. How will cell get sugars through cytoplasmic membrane to growing cell wall?

• NAM-pentapeptide is transferred to a carrier molecule called C₅₅ carrier lipid or bactoprenol on inner cytoplasmic membrane

• NAG is transferred to the bactoprenol-NAM to form a bactoprenol-NAG-NAM (2 glycan repeat)

• this molecule moves across cytoplamic membrane to outside of the cell

• transferred from bactoprenol to NAG end of a growing chain called nascent peptidoglycan

• nascent peptidoglycan is covalently linked to existing cell wall by formation of cross-bridges between nascent peptidoglycan & existing cell wall peptidoglycan - by enz transamidase - called transpeptidation