CELL-FREE SYNTHESIS OF PECTIN - IDENTIFICATION AND PARTIAL CHARACTERIZATION OF POLYGALACTURONATE 4-ALPHA-GALACTURONOSYLTRANSFERASE AND ITS PRODUCTS FROM MEMBRANE PREPARATIONS OF TOBACCO CELL-SUSPENSION CULTURES
Rl. Doong et al., CELL-FREE SYNTHESIS OF PECTIN - IDENTIFICATION AND PARTIAL CHARACTERIZATION OF POLYGALACTURONATE 4-ALPHA-GALACTURONOSYLTRANSFERASE AND ITS PRODUCTS FROM MEMBRANE PREPARATIONS OF TOBACCO CELL-SUSPENSION CULTURES, Plant physiology, 109(1), 1995, pp. 141-152
Polygalacturonate 4-alpha-galacturonosyltransferase (EC 2.4.1.43) acti
vity has been identified in microsomal membranes isolated from tobacco
(Nicotiana tabacum L. cv Samsun) cell-suspension cultures. Incubation
of UDP-[C-14]galacturonic acid with tobacco membranes results in a ti
me-dependent incorporation of [C-14]galacturonic acid into a chlorofor
m-methanol-precipitable and 65% ethanol-insoluble product. The optimal
synthesis of product occurs at a pH of 7.8, 25 to 30 degrees C, an ap
parent K-m for UDP-D-galacturonic acid of approximately 8.9 mu M, and
a V-max of approximately 150 pmol min(-1) mg(-1) protein. The product
was characterized by scintillation counting, thin-layer chromatography
, high-performance anion-exchange chromatography, and gel-filtration c
hromatography in combination with enzymatic and chemical treatments. T
he intact product has a molecular mass of approximately 105,000 D base
d on dextran molecular standards. The product was treated with base to
hydrolyze ester linkages (e.g. methyl esters), digested with a homoge
neous endopolygalacturonase (EPGase), or base and EPGase treated. Base
and EPGase treatment results in cleavage of 34 to 89% of C-14-labeled
product into components that co-chromatograph with mono-, di-, and tr
igalacturonic acid, indicating that a large portion of product contain
s contiguous 1,4-linked alpha-D-galactosyluronic acid residues. Optima
l EPGase fragmentation of the product requires base treatment prior to
enzymatic digestion, suggesting that 45 to 67% of the galacturonic ac
id residues in the synthesized homogalacturonan are esterified. At lea
st 40% of the base-sensitive linkages were shown to be methyl esters b
y comparing the sensitivity of base-treated and pectin methylesterase-
treated products to fragmentation by EPGase.