Metabolism of L-arabinose in plants.

L-Arabinose (L-Ara) is a plant-specific sugar accounting for 5-10 % of cell wall saccharides in Arabidopsis (Arabidopsis thaliana) and rice (Oryza sativa). L-Ara occurs in pectic arabinan, rhamnogalacturonan II, arabinoxylan, arabinogalactan-protein (AGP), and extensin in the cell walls, as well as in glycosylated signaling peptides like CLAVATA3 and small glycoconjugates such as quercetin 3-O-arabinoside. This review focuses on recent advances towards understanding the generation of L-Ara and the metabolism of L-Ara-containing molecules in plants.

Chain elongation of pectic beta-(1-->4)-galactan by a partially purified galactosyltransferase from soybean (Glycine max Merr.) hypocotyls.

Pectin is one of the major cell wall polysaccharides found in dicotyledonous plants. We have solubilized and partially purified a beta-(1-->4)-galactosyltransferase (GalT) involved in the synthesis of the beta-(1-->4)-galactan side chains of pectin. The enzyme protein was almost completely solubilized by mixing a crude microsomal preparation of etiolated 6-day-old soybean (Glycine max Merr.) hypocotyls with a detergent, Triton X-100 (0.75%, w/v), in buffer. The solubilized enzyme was partially purified by ion-exchange chromatography. The crude membrane-bound GalT transferred Gal from UDP-Gal onto 2-aminobenzamide (AB)-derivatized beta-(1-->4)-galactoheptaose (Gal(7)-AB), leading to the formation of Gal(8-11)-AB by attachment of a series of one to four galactosyl residues; this is similar to what has previously been observed for 2-aminopyridine-derivatized beta-(1-->4)-galactooligomer acceptors (Konishi et al. in Planta 218:833-842, 2004). The partially purified GalT, by contrast, was able to transfer more than 25 galactosyl residues and elongated the chains to about Gal(35)-AB, thus almost reaching the length (43-47 Gal units) of native beta-(1-->4)-galactan side chains found in pectic polysaccharides from soybean cotyledons (Nakamura et al. in Biosci Biotechnol Biochem 66:1301-1313, 2002). Enzyme activity increased with increasing chain length of beta-(1-->4)-galactooligomers and reached maximal activity at heptaose, whereas galactooligomers higher than heptaose showed lower acceptor efficiency.

Properties and physiological functions of UDP-sugar pyrophosphorylase in Arabidopsis.

UDP-sugar pyrophosphorylase catalyzes the conversion of various monosaccharide 1-phosphates to the respective UDP-sugars in the salvage pathway. Using the genomic database, we cloned a putative gene for UDP-sugar pyrophosphorylase from Arabidopsis. Although relatively stronger expression was detected in the vascular tissue of leaves and the pollen, AtUSP is expressed in most cell types of Arabidopsis, indicating a housekeeping function in nucleotide sugar metabolism. Recombinant AtUSP expressed in Escherichia coli exhibited broad specificity toward monosaccharide 1-phosphates, resulting in the formation of various UDP-sugars such as UDP-glucose, -galactose, -glucuronic acid, -xylose and -L-arabinose. A loss-of-function mutation in the AtUSP gene caused by T-DNA insertion completely abolished male fertility. These results indicate that AtUSP functions as a UDP-sugar pyrophosphorylase in the salvage pathway, and that the generation of UDP-sugars from monosaccharide 1-phosphates catalyzed by AtUSP is essential for pollen development in Arabidopsis.

Biosynthesis of pectic galactan by membrane-bound galactosyltransferase from soybean ( Glycine max Merr) seedlings.

We investigated the properties of a galactosyltransferase (GalT) that is involved in the synthesis of beta-(1-->4)-galactan side chains of pectins. A membrane preparation of etiolated 6-day-old soybean ( Glycine max Merr.) hypocotyls transferred [(14)C]Gal from UDP-[(14)C]Gal into intact and partially hydrolyzed lupin beta-(1-->4)-galactans of various chain lengths as exogenous acceptors, while activity to endogenous acceptors was negligible. Maximal activity occurred at pH 6.5 and 20-25 degrees C in the presence of 25 mM Mn(2+) and 0.75% Triton X-100. The transfer reaction onto the unmodified commercial pectic galactan ( M(r)>150000) from lupin we used was very low but increased when the M(r) of the galactan was reduced by partial acid hydrolysis. Among the partially hydrolyzed galactans, high- M(r) (average M(r) 60000) beta-(1-->4)-galactan was a more efficient acceptor [specific activity 2000-3000 pmol min(-1) (mg protein)(-1)] than low- M(r) (average M(r) 10000 and 5000) polymers. Digestion of the radiolabeled product from high- M(r) galactan with endo-beta-(1-->4)-galactanase released mainly radioactive beta-(1-->4)-galactobiose and Gal, indicating that the transfer of [(14)C]Gal occurred through beta-(1-->4)-linkages. HPLC analysis showed that the enzyme also catalyzes incorporation of Gal into pyridylaminated (PA) beta-(1-->4)-galactooligomers with degree of polymerization at least 5. Gal(7)-PA chains were elongated by attachment of one, two, or three Gal residues leading to the formation of Gal(8-10)-PA.