Effect of Enhanced Calcium Supply on Aluminum Toxicity in Relation to Cell Wall Properties in the Root Apex of Two Wheat Cultivars Differing in Aluminum Resistance
Tóm tắt
The present study was conducted to investigate the effects of enhanced Ca supply on Al toxicity in relation to cell wall properties in two wheat (Triticum aestivum L.) cultivars differing in Al resistance. Seedlings of Al-tolerant Inia66 and Al-sensitive Kalyansona cultivars were grown in complete nutrient solutions for 4 days then subjected to treatment solutions containing Al (0, 50 μM) and Ca (500, 2500 μM) at pH 4.5 for 24 h. Root elongation was affected greatly by Al treatment in the Al-sensitive cultivar and a significant improvement in root growth was observed with enhanced Ca supply during Al stress. Pectin and hemicellulose contents in the root cell walls increased with Al stress, and this increase was more conspicuous in the Al-sensitive cultivar. The molecular mass of hemicellulosic polysaccharides increased with Al treatment in the Al-sensitive cultivar and decreased with enhanced Ca supply. The increase in the molecular mass of hemicellulosic polysaccharides was attributed to increased content of glucose, arabinose and xylose in neutral sugars. Enhanced Ca supply slightly decreased the content of these components with Al stress. Aluminum treatment increased the contents of ferulic and p-coumaric acid, especially in the Al-sensitive cultivar, by increasing peroxidase (POD, EC 1.11.1.7) and phenylalanine ammonia lyase (PAL, EC 4.3.1.5) activity, whereas enhanced Ca supply during Al stress decreased the content of these components by decreasing POD and PAL activity. These results suggest that the increased molecular mass of hemicellulosic polysaccharides and phenolic compounds in the Al-sensitive cultivar with Al stress might have inhibited root elongation associated with cell wall stiffening related to cross-linking among cell-wall polymers and lignin. Enhanced Ca supply might maintain the normal synthesis of these materials even with Al stress.
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