bacterial cell wall

This is a potential drug target involved in bacterial cell wall synthesis.

Its mechanism of action is to inhibit bacterial cell wall synthesis.

First, the polymer must adsorb onto the bacterial cell wall.

They are vital to bacterial cell wall synthesis and antibiotic resistance.

Around the outside of the cell membrane is the bacterial cell wall.

This drug acts by inhibiting the synthesis of bacterial cell walls.

Peptidoglycan is an essential structural component of the bacterial cell wall.

The second type uses lysozymes; these enzymes break down the bacterial cell wall.

This enzyme is most commonly known as being responsible for the synthesis of bacterial cell walls.

For example, hopanoids are just parts of the bacterial cell wall present in oil as contaminant.

Nearly all of these antibiotics work by inhibiting bacterial cell wall biosynthesis.

VanY is involved in bacterial cell wall biosynthesis and metabolism.

As in other organisms, the bacterial cell wall provides structural integrity to the cell.

This inhibition stops the assembly of peptidoglycan network in bacterial cell wall.

It seems that the bacterial cell wall grows helically, twisting as it does.

The lysozyme enzyme can also damage bacterial cell walls.

This has been demonstrated in the rat after injection with bacterial cell wall components to produce an immune reaction.

This pathway also produces diaminopimelate which plays an essential role in bacterial cell wall formation.

Muramyl dipeptide, a component of bacterial cell walls with inflammatory properties.

Catalyses carboxypeptidation but not transpeptidation reactions involved in bacterial cell wall metabolism.

Peptidoglycan, found in some bacterial cell walls contains some -amino acids.

Extremely large molecular weight polymers will have trouble diffusing through the bacterial cell wall and cytoplasm.

These glycoconjugates are virulence factors and components of the fungal and bacterial cell wall.

MurI is an enzyme which is primarily known for its role in synthesizing bacterial cell walls.

Unlike most bacterial cell walls, Chlamydial cell wall lacks muramic acid.