In a nutshell Scientists have solved the 3D structure of EspC, a powerful toxin produced by EPEC, a diarrheal E. coli strain ...

Scientists at La Trobe University have discovered how a diarrhoea-causing strain of bacteria uses “molecular scissors” to cut ...

"It binds to a protein that helps maintain the proper structure of the DNA ... This is reflected in the bacteria changing ...

In this study, we describe the 1.9 Å resolution structure of E. coli FhuD in complex with gallichrome. FhuD adopts a novel fold and represents a new class of iron binding ABC-type transport proteins.

Scientists at La Trobe University have discovered how a diarrhoea-causing strain of bacteria uses “molecular scissors” to cut ...

After further tests to optimize the process, Lee and colleagues used glucose as a key ingredient to produce the polymers within E. coli. They also investigated how the amount and structure of the ...

This toxin, called EspC, acts like “molecular scissors” to cut into and destroy the cells that line the gut. This damage ...

There is much more to the story, however, particularly with regard to chromosomal structure and organization. Supercoiling explains how chromosomes fit into a small corner of the cell, but how do ...

They function in vivo to repair a break in E. coli tRNA Lys triggered by phage-activation of ... and (iv) solving the crystal structure of the kinase domains of Candida tRNA ligase. tRNA Ligase as ...