Abstract

When a derivatized oligosaccharide isolated from ovalbumin and containing 6 mannose residues was incubated with yeast membranes and GDP-mannose, two sets of products were obtained, a high molecular weight one containing about 25 mannose residues and a low molecular weight one consisting of compounds with 7, 8, and 9 mannose residues, respectively. When the low molecular weight products were reincubated with the yeast membranes and GDP-mannose, no further mannose incorporation was observed, showing that these compounds must be of the wrong structure as substrates for yeast glycan processing enzymes. The structures were investigated by 1H NMR spectroscopy. The high molecular weight products contained an outer chain of an average length of 18 1----6-linked mannose residues attached to a core structure made up of the original 6 mannose residues with one additional 1----2-linked mannose added. The low molecular weight product with 8 mannose residues was deduced to contain a terminal 1----6-linked mannose (on the 1----6 arm) substituted by mannose at the 2-position, and the ones with 7 and 9 mannose residues were identified as having an additional 1----3-linked mannose on the starting Man6 substrate and on the Man8 product, respectively. The results lend further support to the picture that the processing steps must occur in proper sequence for specific products to form.

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