Exocellular glycopeptide from a Penicillium charlesii mutant incapable of growth on D-galactose.

The compositions of exocellular saccharide-containing polymers from six mutants of Penicillium charlesii incapable of growing on galactose were investigated. The polymers from the mutants contain a much smaller percentage of galactose than that reported for the peptidophosphogalactomannan (PPGM) from the wild-type organism (Gander et al. 1974). A polymer containing only one galactosyl residue per 49 mannosyl residues was investigated in detail. This polymer is a glycopeptide (peptidomannan) with an amino acid composition similar to that of peptidophospogalactomannan and a mass of about 23,000 daltons. Treatment of peptidomannan with 0.4 N NaOH releases mannan, mannopentaose, mannotetraose, mannotriose, mannobiose, and mannose residues, which are attached to the peptide by O-glycosidic linkage to seryl and threonyl groups. The quantity of glycerol and threitol, derived from mannosyl and internal galactofuranosyl residues, respectively, following Smith degradation, showed that peptidomannan contains 2 mol of internal galactofuranosyl residues per mol of polymer. The polymer contains only 3 mol of (1 yields 5)-linked galactofuranosyl residues per mol of polymer, as described by analysis of the methylation products. Methylation analysis also indicates that the polysaccharide contains primarily (1 yields 2)-linked (67.5%) and (1 yields 6)-linked (20.2%) mannopyranosyl residues. However, acetolysis of the polymer suggests that 37% of the residues are (1 yields 6)-linked. Mannopentaose, mannotetraose, mannotriose, mannobiose, and mannose in a molar ratio of 0.30:0.11:0.15:0.39:0.06, respectively, are released by acetolysis. This result is similar to that obtained with peptidophosphogalactomannan. We conclude that the occurrence of large numbers of galactofuranosyl residues in the major extracellular glycopeptide is not an obligatory requirement for glycopeptide formation.