木贼属(节节草)和其他裸子植物中混合连接(1 -> 3, 1 -> 4)-β-D-葡聚糖(MLG)和木聚糖的演变。
Evolution of mixed-linkage (1 -> 3, 1 -> 4)-β-D-glucan (MLG) and xyloglucan in Equisetum (horsetails) and other monilophytes.
机构信息
The Edinburgh Cell Wall Group, Institute of Molecular Plant Sciences, School of Biological Sciences, The University of Edinburgh, Daniel Rutherford Building, The King's Buildings, Mayfield Road, Edinburgh, UK.
出版信息
Ann Bot. 2012 Apr;109(5):873-86. doi: 10.1093/aob/mcs018. Epub 2012 Feb 28.
BACKGROUND AND AIMS
Horsetails (Equisetopsida) diverged from other extant eusporangiate monilophytes in the Upper Palaeozoic. They are the only monilophytes known to contain the hemicellulose mixed-linkage (1 → 3, 1 → 4)-β-d-glucan (MLG), whereas all land plants possess xyloglucan. It has been reported that changes in cell-wall chemistry often accompanied major evolutionary steps. We explored changes in hemicelluloses occurring during Equisetum evolution.
METHODS
Hemicellulose from numerous monilophytes was treated with lichenase and xyloglucan endoglucanase. Lichenase digests MLG to di-, tri- and tetrasaccharide repeat-units, resolvable by thin-layer chromatography.
KEY RESULTS
Among monilophytes, MLG was confined to horsetails. Our analyses support a basal trichotomy of extant horsetails: MLG was more abundant in subgenus Equisetum than in subgenus Hippochaete, and uniquely the sister group E. bogotense yielded almost solely the tetrasaccharide repeat-unit (G4G4G3G). Other species also gave the disaccharide, whereas the trisaccharide was consistently very scarce. Tetrasaccharide : disaccharide ratios varied interspecifically, but with no consistent difference between subgenera. Xyloglucan was scarce in Psilotum and subgenus Equisetum, but abundant in subgenus Hippochaete and in the eusporangiate ferns Marattia and Angiopteris; leptosporangiate ferns varied widely. All monilophytes shared a core pattern of xyloglucan repeat-units, major XEG products co-chromatographing on thin-layer chromatography with non-fucosylated hepta-, octa- and nonasaccharides and fucose-containing nona- and decasaccharides.
CONCLUSIONS
G4G4G3G is the ancestral repeat-unit of horsetail MLG. Horsetail evolution was accompanied by quantitative and qualitative modification of MLG; variation within subgenus Hippochaete suggests that the structure and biosynthesis of MLG is evolutionarily plastic. Xyloglucan quantity correlates negatively with abundance of other hemicelluloses; but qualitatively, all monilophyte xyloglucans conform to a core pattern of repeat-unit sizes.
背景与目的
木贼类(楔叶植物门)在上古生代与其他现存的真孢子植物分化开来。它们是唯一已知含有半纤维素混合连接(1→3,1→4)-β-d-葡聚糖(MLG)的真孢子植物,而所有陆生植物都含有木葡聚糖。据报道,细胞壁化学的变化往往伴随着重大的进化步骤。我们探索了在木贼属进化过程中半纤维素的变化。
方法
用几丁质酶和木葡聚糖内切葡聚糖酶处理许多真孢子植物的半纤维素。几丁质酶将 MLG 消化成二、三、四糖重复单元,可通过薄层层析分辨。
主要结果
在真孢子植物中,MLG 仅限于木贼类。我们的分析支持现存木贼类的基本三分法:亚属木贼类中的 MLG 比亚属 Hippochaete 中的更丰富,而独特的姐妹群 E. bogotense 几乎只产生四糖重复单元(G4G4G3G)。其他物种也产生二糖,而三糖则一直非常稀少。四糖:二糖的比例在种间变化,但在亚属间没有一致的差异。木葡聚糖在 Psilotum 和木贼类亚属中稀少,但在 Hippochaete 亚属和真蕨类 Marattia 和 Angiopteris 中丰富;薄囊蕨类则变化很大。所有真孢子植物都有一个共同的木葡聚糖重复单元模式,主要的 XEG 产物在薄层层析上与非岩藻糖基化的七、八和九糖以及含有岩藻糖的九和十糖共洗脱。
结论
G4G4G3G 是木贼类 MLG 的祖先重复单元。木贼类的进化伴随着 MLG 的数量和质量的改变;Hippochaete 亚属内的变异表明 MLG 的结构和生物合成具有进化上的可塑性。木葡聚糖的数量与其他半纤维素的丰度呈负相关;但从质的方面来看,所有真孢子植物的木葡聚糖都符合重复单元大小的核心模式。
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