Tailspike protein from Shigella phage Sf6 specifically mediates the attachment to their hosts. Its structure revealed a conserved architecture with a central, right-handed beta-helix. The C-terminal domain adopts a beta-sandwich fold, is represented ...
Tailspike protein from Shigella phage Sf6 specifically mediates the attachment to their hosts. Its structure revealed a conserved architecture with a central, right-handed beta-helix. The C-terminal domain adopts a beta-sandwich fold, is represented in this entry, and is reminiscent of viral capsid proteins [1,2].
The head binding domain found in the Phage P22 tailspike protein contains two regular beta-sheets, A and B, oriented nearly perpendicular to each other and composed of five and three strands respectively. The topology of the strands is exclusively an ...
The head binding domain found in the Phage P22 tailspike protein contains two regular beta-sheets, A and B, oriented nearly perpendicular to each other and composed of five and three strands respectively. The topology of the strands is exclusively antiparallel. The tailspike protein trimerises through this domain, and the direction of the strands with respect to the molecular triad is almost parallel for beta-sheet A, whereas beta-sheet B is perpendicular to the triad, forming a dome-like structure. This domain is dispensable for thermostability and SDS resistance of the intact protein, and its deletion has only minor effects on tailspike folding kinetics [1].