Extraction of mesophyll cell walls from leaves of perennial ryegrass w
ith CDTA, a chelating agent, removed 25 mg uronic acid g(-1), largely
in the form of a polymer which spontaneously precipitated on removal o
f the CDTA or during subsequent purification. Methylation analysis, be
fore and after reduction, showed that the precipitated polymer was a 1
,4-linked homogalacturonan essentially free from neutral sugar residue
s, with a low degree of acetylation (3.6%) and methyl esterification (
3.3%). Hot water (HW) extracted further acidic material (5 mg uronide
g(-1) cell wall) which could be resolved by ion-exchange chromatograph
y into neutral mixed-linked glucan and bound rhamnogalacturonan fracti
ons. The latter co-chromatographed with sugar residues typical of 3-,
4- and 6-linked galactan and arabinoxylan. Pectin esterase promoted th
e release from cell walls of HW-soluble rhamnogalacturonan by polygala
cturonase, but had no effect on the release of CDTA-soluble uronide. T
he presence of both homogalacturonan and rhamnogalcturonan, typical of
dicotyledons, suggested that the pectic polysaccharides of the Gramin
eae differed from those of other plants in amount only, rather than na
ture.