This entry represents the C-terminal domain 2 (C2) of TarS from Staphylococcus aureus [1], the enzyme responsible for polyribitol phosphate beta-O-GlcNAcylation of wall teichoic acid polymers [1], a process that has been shown to be specifically resp ...
This entry represents the C-terminal domain 2 (C2) of TarS from Staphylococcus aureus [1], the enzyme responsible for polyribitol phosphate beta-O-GlcNAcylation of wall teichoic acid polymers [1], a process that has been shown to be specifically responsible for methicillin resistance. This domain is involved in formation of extensive trimerization interface [1].
Beta-glycosyltransferase TarS is an enzyme responsible for the glycosylation of wall teichoic acid polymers of the S. aureus cell wall, a process that has been shown to be specifically responsible for methicillin resistance in MRSA. It contains a tri ...
Beta-glycosyltransferase TarS is an enzyme responsible for the glycosylation of wall teichoic acid polymers of the S. aureus cell wall, a process that has been shown to be specifically responsible for methicillin resistance in MRSA. It contains a trimerization domain composed of tandem carbohydrate binding motifs.The two C-terminally localized regions composed of a series of beta-sheets participate in an extensive trimerization interface and they assume an immunoglobulin-like fold. It is suggested that both carbohydrate binding domains may be involved in polyRboP binding, however unlike pullulanase, the CBMs of TarS are involved in the formation of an extensive trimerization interface [1].
TarS is an enzyme responsible for the glycosylation of wall teichoic acid polymers of the S. aureus cell wall, a process that has been shown to contribute for methicillin resistance in MRSA. TarS consist of three domains: catalytic, linker and trimer ...
TarS is an enzyme responsible for the glycosylation of wall teichoic acid polymers of the S. aureus cell wall, a process that has been shown to contribute for methicillin resistance in MRSA. TarS consist of three domains: catalytic, linker and trimerisation [1]. This entry represents the linker domain that bridges the catalytic and trimerisation domains.