L V Kozlova1, M V Ageeva2, N N Ibragimova2, T A Gorshkova2. 1. Kazan Institute of Biochemistry and Biophysics, Kazan Scientific Center, Russian Academy of Science, Kazan, Lobachevskij str., 2/31, 420111, Russia bbinb@bk.ru. 2. Kazan Institute of Biochemistry and Biophysics, Kazan Scientific Center, Russian Academy of Science, Kazan, Lobachevskij str., 2/31, 420111, Russia.
Abstract
BACKGROUND AND AIMS: Plant cell enlargement is unambiguously coupled to changes in cell wall architecture, and as such various studies have examined the modification of the proportions and structures of glucuronoarabinoxylan and mixed-linkage glucan in the course of cell elongation in grasses. However, there is still no clear understanding of the mutual arrangement of these matrix polymers with cellulose microfibrils and of the modification of this architecture during cell growth. This study aimed to determine the correspondence between the fine structure of grass cell walls and the course of the elongation process in roots of maize (Zea mays). METHODS: Enzymatic hydrolysis followed by biochemical analysis of derivatives was coupled with immunohistochemical detection of cell wall epitopes at different stages of cell development in a series of maize root zones. KEY RESULTS: Two xylan-directed antibodies (LM11 and ABX) have distinct patterns of primary cell wall labelling in cross-sections of growing maize roots. The LM11 epitopes were masked by mixed-linkage glucan and were revealed only after lichenase treatment. They could be removed from the section by xylanase treatment. Accessibility of ABX epitopes was not affected by the lichenase treatment. Xylanase treatment released only part of the cell wall glucuronoarabinoxylan and produced two types of products: high-substituted (released in polymeric form) and low-substituted (released as low-molecular-mass fragments). The amount of the latter was highly correlated with the amount of mixed-linkage glucan. CONCLUSIONS: Three domains of glucuronoarabinoxylan were determined: one separating cellulose microfibrils, one interacting with them and a middle domain between the two, which links them. The middle domain is masked by the mixed-linkage glucan. A model is proposed in which the mixed-linkage glucan serves as a gel-like filler of the space between the separating domain of the glucuronoarabinoxylan and the cellulose microfibrils. Space for glucan is provided along the middle domain, the proportion of which increases during cell elongation.
BACKGROUND AND AIMS: Plant cell enlargement is unambiguously coupled to changes in cell wall architecture, and as such various studies have examined the modification of the proportions and structures of glucuronoarabinoxylan and mixed-linkage glucan in the course of cell elongation in grasses. However, there is still no clear understanding of the mutual arrangement of these matrix polymers with cellulose microfibrils and of the modification of this architecture during cell growth. This study aimed to determine the correspondence between the fine structure of grass cell walls and the course of the elongation process in roots of maize (Zea mays). METHODS: Enzymatic hydrolysis followed by biochemical analysis of derivatives was coupled with immunohistochemical detection of cell wall epitopes at different stages of cell development in a series of maize root zones. KEY RESULTS: Two xylan-directed antibodies (LM11 and ABX) have distinct patterns of primary cell wall labelling in cross-sections of growing maize roots. The LM11 epitopes were masked by mixed-linkage glucan and were revealed only after lichenase treatment. They could be removed from the section by xylanase treatment. Accessibility of ABX epitopes was not affected by the lichenase treatment. Xylanase treatment released only part of the cell wall glucuronoarabinoxylan and produced two types of products: high-substituted (released in polymeric form) and low-substituted (released as low-molecular-mass fragments). The amount of the latter was highly correlated with the amount of mixed-linkage glucan. CONCLUSIONS: Three domains of glucuronoarabinoxylan were determined: one separating cellulose microfibrils, one interacting with them and a middle domain between the two, which links them. The middle domain is masked by the mixed-linkage glucan. A model is proposed in which the mixed-linkage glucan serves as a gel-like filler of the space between the separating domain of the glucuronoarabinoxylan and the cellulose microfibrils. Space for glucan is provided along the middle domain, the proportion of which increases during cell elongation.
Authors: Susan E Marcus; Anthony W Blake; Thomas A S Benians; Kieran J D Lee; Callum Poyser; Lloyd Donaldson; Olivier Leroux; Artur Rogowski; Henriette L Petersen; Alisdair Boraston; Harry J Gilbert; William G T Willats; J Paul Knox Journal: Plant J Date: 2010-08-31 Impact factor: 6.417
Authors: David M Cavalier; Olivier Lerouxel; Lutz Neumetzler; Kazuchika Yamauchi; Antje Reinecke; Glenn Freshour; Olga A Zabotina; Michael G Hahn; Ingo Burgert; Markus Pauly; Natasha V Raikhel; Kenneth Keegstra Journal: Plant Cell Date: 2008-06-10 Impact factor: 11.277
Authors: Milan Soukup; Michal Martinka; Dragana Bosnic; Mária Caplovicová; Rivka Elbaum; Alexander Lux Journal: Ann Bot Date: 2017-11-10 Impact factor: 4.357
Authors: Margot Schulz; Barbara Filary; Sabine Kühn; Thomas Colby; Anne Harzen; Jürgen Schmidt; Dieter Sicker; Lothar Hennig; Diana Hofmann; Ulrich Disko; Nico Anders Journal: Plant Signal Behav Date: 2016
Authors: Amanda P De Souza; Claire L Alvim Kamei; Andres F Torres; Sivakumar Pattathil; Michael G Hahn; Luisa M Trindade; Marcos S Buckeridge Journal: J Exp Bot Date: 2015-04-23 Impact factor: 6.992
Authors: Richard Palmer; Valérie Cornuault; Susan E Marcus; J Paul Knox; Peter R Shewry; Paola Tosi Journal: Planta Date: 2014-11-22 Impact factor: 4.116
Authors: Andreia M Smith-Moritz; Zhao Hao; Susana G Fernández-Niño; Jonatan U Fangel; Yves Verhertbruggen; Hoi-Ying N Holman; William G T Willats; Pamela C Ronald; Henrik V Scheller; Joshua L Heazlewood; Miguel E Vega-Sánchez Journal: Front Plant Sci Date: 2015-08-18 Impact factor: 5.753
Authors: Vasilios M E Andriotis; Martin Rejzek; Elaine Barclay; Michael D Rugen; Robert A Field; Alison M Smith Journal: Sci Rep Date: 2016-09-13 Impact factor: 4.379