Biosynthetic enzymes of unusual microbial sugars

The biological importance of proteins and nucleic acids in the natural world is undeniable, and research efforts on these macromolecules have often overshadowed those directed at carbohydrates It is now known, however, that carbohydrates not only play roles in energy storage and plant cell wall structure, but are also intimately involved in such processes as fertilization, the immune response and cell adhesion Indeed, recent years have seen an explosion in research efforts directed at uncovering and understanding new sugar moieties The dideoxysugars and trideoxysugars, which are synthesized by a variety of bacteria fungi, and plants, represent an especially intriguing class of carbohydrates They are found, for example on the lipopolysaccharides of some Gram-negative bacteria or on antibacterial agents such as erythromycin Many of them are formed from simple monosaccharides such as glucose-6-phosphate or fructose-6-phosphate via a myriad of enzymatic reactions including acetylations aminations, dehydrations epimerizations, reductions and methylations In this review we focus on the recent structural investigations of the bacterial N-acetyltransferases and the PLP-dependent aminotransferases that function on nucleotide-linked sugar substrates