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辐射松从基部到树冠的木材形成:管胞壁厚度、木材密度、径向生长速率和基因表达的梯度变化

Wood formation from the base to the crown in Pinus radiata: gradients of tracheid wall thickness, wood density, radial growth rate and gene expression.

作者信息

Cato Sheree, McMillan Lisa, Donaldson Lloyd, Richardson Thomas, Echt Craig, Gardner Richard

机构信息

Scion (formerly Forest Research), Cellwall Biotechnology Centre, 49 Sala Street, Private Bag 3020, Rotorua, New Zealand.

出版信息

Plant Mol Biol. 2006 Mar;60(4):565-81. doi: 10.1007/s11103-005-5022-9.

DOI:10.1007/s11103-005-5022-9
PMID:16525892
Abstract

Wood formation was investigated at five heights along the bole for two unrelated trees of Pinus radiata. Both trees showed clear gradients in wood properties from the base to the crown. Cambial cells at the base of the tree were dividing 3.3-fold slower than those at the crown, while the average thickness of cell walls in wood was highest at the base. Cell wall thickness showed an overall correlation coefficient of >0.7 with wood density in both genotypes. Microscopic examination of developing tracheids showed that 33% of cells had formed secondary cell walls at the base of the tree, reducing to 3% at the crown. In total, 455 genes differentially expressed in developing xylem tissue from either the base or the crown were identified using modified differential display. RT-PCR analysis of 156 genes confirmed differential expression for 77%. Of the genes tested, 73% showed gradients in transcript abundance either up or down the bole of the tree, although the steepness of the gradients differed between genes. Genes involved in cell division and expansion tended to be more highly expressed in the crown of the tree, and two putative cell-cycle repressor genes were expressed 2-fold higher at the base. Conversely, transcripts of genes involved in secondary wall thickening were more abundant at the base of the tree. These results suggest that differences in the rate of cambial cell division, differences in the rate and duration of tracheid wall thickening, and differences in gene expression underpin the gradients of wood properties found in pines.

摘要

对辐射松的两棵非亲缘关系的树,沿着树干在五个高度处研究了木材形成情况。两棵树的木材特性从基部到树冠均呈现出明显的梯度变化。树基部的形成层细胞分裂速度比树冠处慢3.3倍,而木材中细胞壁的平均厚度在基部最高。在两种基因型中,细胞壁厚度与木材密度的总体相关系数均>0.7。对发育中的管胞进行显微镜检查发现,树基部33%的细胞已形成次生细胞壁,而在树冠处这一比例降至3%。使用改良的差异显示法,共鉴定出455个在基部或树冠发育中的木质部组织中差异表达的基因。对156个基因的RT-PCR分析证实77%存在差异表达。在所测试的基因中,73%在树干部位的转录本丰度呈现出向上或向下的梯度变化,尽管不同基因的梯度陡度有所不同。参与细胞分裂和扩张的基因往往在树冠处表达更高,两个假定的细胞周期抑制基因在基部的表达量高2倍。相反,参与次生壁加厚的基因转录本在树基部更为丰富。这些结果表明,形成层细胞分裂速率的差异、管胞壁加厚速率和持续时间的差异以及基因表达的差异是松树木材特性梯度变化的基础。

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BMC Plant Biol. 2014 Feb 14;14:47. doi: 10.1186/1471-2229-14-47.
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