Effect of polar auxin transport and gibberellins on xylem formation in pine cuttings under adventitious rooting conditions

IF 0.9 4区 生物学 Q4 PLANT SCIENCES Israel Journal of Plant Sciences Pub Date : 2020-02-25 DOI:10.1163/22238980-20191120
A. Pizarro, C. Díaz-Sala
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引用次数: 7

Abstract

Maturation-related decline of adventitious root formation is one of the major factors affecting adventitious rooting in forest tree species. We demonstrate that inhibition of polar auxin transport promoted cambium and xylem differentiation in rooting-competent hypocotyl cuttings from Pinus radiata under conditions of adventitious root formation. Treatments with bioactive gibberellins inhibited rooting while at the same time inducing both the differentiation of a continuous ring of cambium and xylem formation. Treatments with inhibitors of gibberellin biosynthesis did not affect the rooting response. The results demonstrate that xylem parenchyma and procambial cells at the xylem poles of rooting-competent hypocotyl cuttings after excision and under conditions of adventitious root induction become adventitious root meristems or xylem, depending on the directional auxin flow. Gibberellin may interact with this pathway, inducing xylem differentiation and inhibiting rooting. We conclude that modifications of auxin flow at the rooting sites, and the priming of cambial cells to differentiate into xylem during tree ageing, may be associated with the maturation-related decline of adventitious root formation.
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生长素极性转运和赤霉素对不定根条件下松枝木质部形成的影响
不定根形成的成熟度下降是影响林木不定根的主要因素之一。我们证明,在不定根形成的条件下,生长素极性运输的抑制促进了辐射松生根的下胚轴插穗的形成层和木质部分化。生物活性赤霉素处理抑制生根,同时诱导形成层连续环的分化和木质部的形成。用赤霉素生物合成抑制剂处理不影响生根反应。结果表明,生根能力强的下胚轴插穗在切除后和不定根诱导条件下,木质部薄壁组织和木质部极部的原茎细胞根据生长素的定向流动而成为不定根分生组织或木质部。赤霉素可能与该途径相互作用,诱导木质部分化并抑制生根。我们的结论是,在树木衰老过程中,生根部位生长素流动的改变,以及形成层细胞分化为木质部的启动,可能与不定根形成的成熟相关下降有关。
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来源期刊
Israel Journal of Plant Sciences
Israel Journal of Plant Sciences 生物-植物科学
CiteScore
1.90
自引率
0.00%
发文量
17
审稿时长
>12 weeks
期刊介绍: The Israel Journal of Plant Sciences is an international journal of extensive scope that publishes special issues dealing with all aspects of plant sciences, including but not limited to: physiology, cell biology, development, botany, genetic
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