Jaroslav Durkovič1, František Kačík2, Dušan Olčák3, Veronika Kučerová4, Jana Krajňáková5. 1. Department of Phytology, Technical University, 96053 Zvolen, Slovakia jaroslav.durkovic@tuzvo.sk. 2. Department of Chemistry and Chemical Technologies, Technical University, 96053 Zvolen, Slovakia. 3. Department of Physics, Technical University of Košice, 04200 Košice, Slovakia. 4. Department of Forest Protection and Game Management, Technical University, 96053 Zvolen, Slovakia. 5. Department of Agricultural and Environmental Science, University of Udine, 33100 Udine, Italy Department of Biology, University of Oulu, 90014 Oulu, Finland.
Abstract
BACKGROUND AND AIMS: Changes occurring in the macromolecular traits of cell wall components in elm wood following attack by Ophiostoma novo-ulmi, the causative agent of Dutch elm disease (DED), are poorly understood. The purpose of this study was to compare host responses and the metabolic profiles of wood components for two Dutch elm (Ulmus) hybrids, 'Groeneveld' (a susceptible clone) and 'Dodoens' (a tolerant clone), that have contrasting survival strategies upon infection with the current prevalent strain of DED. METHODS: Ten-year-old plants of the hybrid elms were inoculated with O. novo-ulmi ssp. americana × novo-ulmi. Measurements were made of the content of main cell wall components and extractives, lignin monomer composition, macromolecular traits of cellulose and neutral saccharide composition. KEY RESULTS: Upon infection, medium molecular weight macromolecules of cellulose were degraded in both the susceptible and tolerant elm hybrids, resulting in the occurrence of secondary cell wall ruptures and cracks in the vessels, but rarely in the fibres. The (13)C nuclear magnetic resonance spectra revealed that loss of crystalline and non-crystalline cellulose regions occurred in parallel. The rate of cellulose degradation was influenced by the syringyl:guaiacyl ratio in lignin. Both hybrids commonly responded to the medium molecular weight cellulose degradation with the biosynthesis of high molecular weight macromolecules of cellulose, resulting in a significant increase in values for the degree of polymerization and polydispersity. Other responses of the hybrids included an increase in lignin content, a decrease in relative proportions of d-glucose, and an increase in proportions of d-xylose. Differential responses between the hybrids were found in the syringyl:guaiacyl ratio in lignin. CONCLUSIONS: In susceptible 'Groeneveld' plants, syringyl-rich lignin provided a far greater degree of protection from cellulose degradation than in 'Dodoens', but only guaiacyl-rich lignin in 'Dodoens' plants was involved in successful defence against the fungus. This finding was confirmed by the associations of vanillin and vanillic acid with the DED-tolerant 'Dodoens' plants in a multivariate analysis of wood traits.
BACKGROUND AND AIMS: Changes occurring in the macromolecular traits of cell wall components in elm wood following attack by Ophiostoma novo-ulmi, the causative agent of Dutch elm disease (DED), are poorly understood. The purpose of this study was to compare host responses and the metabolic profiles of wood components for two Dutch elm (Ulmus) hybrids, 'Groeneveld' (a susceptible clone) and 'Dodoens' (a tolerant clone), that have contrasting survival strategies upon infection with the current prevalent strain of DED. METHODS: Ten-year-old plants of the hybrid elms were inoculated with O. novo-ulmi ssp. americana × novo-ulmi. Measurements were made of the content of main cell wall components and extractives, lignin monomer composition, macromolecular traits of cellulose and neutral saccharide composition. KEY RESULTS: Upon infection, medium molecular weight macromolecules of cellulose were degraded in both the susceptible and tolerant elm hybrids, resulting in the occurrence of secondary cell wall ruptures and cracks in the vessels, but rarely in the fibres. The (13)C nuclear magnetic resonance spectra revealed that loss of crystalline and non-crystalline cellulose regions occurred in parallel. The rate of cellulose degradation was influenced by the syringyl:guaiacyl ratio in lignin. Both hybrids commonly responded to the medium molecular weight cellulose degradation with the biosynthesis of high molecular weight macromolecules of cellulose, resulting in a significant increase in values for the degree of polymerization and polydispersity. Other responses of the hybrids included an increase in lignin content, a decrease in relative proportions of d-glucose, and an increase in proportions of d-xylose. Differential responses between the hybrids were found in the syringyl:guaiacyl ratio in lignin. CONCLUSIONS: In susceptible 'Groeneveld' plants, syringyl-rich lignin provided a far greater degree of protection from cellulose degradation than in 'Dodoens', but only guaiacyl-rich lignin in 'Dodoens' plants was involved in successful defence against the fungus. This finding was confirmed by the associations of vanillin and vanillic acid with the DED-tolerant 'Dodoens' plants in a multivariate analysis of wood traits.
Authors: Amanda J Lloyd; J William Allwood; Catherine L Winder; Warwick B Dunn; James K Heald; Simona M Cristescu; Anushen Sivakumaran; Frans J M Harren; Joseph Mulema; Katherine Denby; Royston Goodacre; Aileen R Smith; Luis A J Mur Journal: Plant J Date: 2011-07-01 Impact factor: 6.417
Authors: Michael H Studer; Jaclyn D DeMartini; Mark F Davis; Robert W Sykes; Brian Davison; Martin Keller; Gerald A Tuskan; Charles E Wyman Journal: Proc Natl Acad Sci U S A Date: 2011-03-28 Impact factor: 11.205
Authors: Michal Moravčík; Miroslava Mamoňová; Vladimír Račko; Ján Kováč; Miloň Dvořák; Jana Krajňáková; Jaroslav Ďurkovič Journal: J Fungi (Basel) Date: 2022-02-22