Abstract
The mannolipid synthesized from GDP-mannose and lipid acceptors in a particulate enzyme preparation from the yeast Hansenula holstii (R. K. Bretthauer, S. Wu, and W. E. Irwin, (1973) Biochim. Biophys. Acta, 304, 736–747) has the properties of dolicholmonophosphate mannose. Transfer of [ 14C]mannose from exogenously supplied, purified mannolipid to endogenous protein acceptors of the particulate enzyme fraction has now been demonstrated. The synthesis of radioactive products which are insoluble in chloroform-methanol and water is dependent upon time and concentrations of substrate, particulate fraction protein, and detergent. Addition of MgCl 2 or MnCl 2 to incubation mixtures prepared in the absence of these ions had only small stimulatory effects (20–25%), suggesting that the reaction is not dependent upon metal ions. Relatively high concentrations (0.005 m-0.05 m) of EDTA did partially inhibit the reaction, but this is considered to be due to secondary effects. Seventy percent of the radioactivity in the chloroform-methanol insoluble residue was solubilized with hot, neutral citrate buffer. The Chromatographic properties of this material on Sephadex gels and on DEAE-Sephadex were very similar to the properties of glycoprotein products derived from GDP-[ 14C]mannose. The chloroform-methanol insoluble products were also solubilized with Pronase which subsequently resulted in the isolation of a radioactive glycopeptide that contained 25% of the radioactivity transferred from mannolipid. The radioactive component of this glycopeptide was shown by β-elmination experiments and by amino acid analyses to be [ 14C]mannose residues linked O-glycosidically to serine and threonine residues. It was concluded, therefore, that one function of the mannolipid is to serve as mannosyl donor in the synthesis of the mannosyl- O-serine (threonine) linkage region of glycoproteins which may be part of the cell wall mannan-protein complex. Other mannose-containing products may also be synthesized from the mannolipid, as β-elimination of the chloroform-methanol insoluble fraction or of the Pronase soluble fraction did not result in recovery of all of the radioactivity as [ 14C]mannose.
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