Abstract: | The potential role of xyloglucan endotransglycosylase (XET)in GA-stimulated cell elongation was investigated during leafexpansion in barley (Hordeum vulgare L.). XET activity in aqueousextracts of leaves was detected in all segments along the elongatingblade of leaf 1 of seedlings, but was at highest levels in basalsegments. Leaf 1 elongation rates of gibberellin (GA)-responsivedwarf mutants were lower than the wild type, and accompaniedby reduced levels of XET activity. Leaf elongation rates ofthe dwarfs increased following treatment with gibberellic acid(GA3) associated with higher levels of XET activity. The slendermutant, crossed into a dwarfing background, exhibited high ratesof leaf 1 elongation and high levels of XET activity withoutadded GA3. The elongation of leaf 3 in a GA-responsive dwarfmutant was also studied. Treatment with GA3 resulted in bladeand sheath lengths being 5-fold and 7-fold (respectively) thelengths of controls, and again there were increases in bladeand sheath XET activities. To investigate the basis for changesin XET activity levels two XET-related cDNA clones were isolated.RNAs detected by the two clones occurred at the highest levelsin basal segments of rapidly elongating leaves, but they haddifferent distribution patterns along the leaf. Overall, thedata indicate that an XET-like activity is detectable in barleyleaves, that the activity level and related. Key words: Gibberellin (GA), leaf elongation, Hordeum vulgare, xyloglucan endotransglycosylase (XET) |