一个数学模型整合了形成层发育过程中分散的PXY和MP相互作用

IF 2.6 Q1 AGRONOMY in silico Plants Pub Date : 2022-08-23 DOI:10.1093/insilicoplants/diad003
Kristine S Bagdassarian, J. Etchells, Natasha S. Savage
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引用次数: 2

摘要

形成层是植物茎、根和下胚轴中的次生分生组织。这里,细胞分裂发生,这是径向生长所必需的。在大多数经历次生生长的物种中,形成层内细胞分裂的子细胞向茎内侧分化为木质木质部细胞,向茎外侧分化为韧皮部细胞。因此,木质部-形成层-韧皮部沿茎、下胚轴或根次生维管组织的径向轴分布。作为配体-受体对,TDIF-PXY促进形成层的细胞分裂,就像植物激素、细胞分裂素和生长素一样。生长素反应因子MP被认为通过促进PXY表达来启动形成层细胞分裂,然而,MP也被报道在发育后期抑制形成层细胞分裂,其中TDIF-PXY复合物也被报道抑制MP活性。在这里,我们使用数学建模方法来研究MP细胞分裂促进活性和细胞分裂抑制活性如何作为负反馈回路整合到同一个网络中。在我们的模型中,这种反馈回路提高了形成层正确图案的能力,并且随着MP稳定性的增加,发现这是正常图案所必需的。讨论了该模型在形成层早期和晚期发育中的意义。
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A mathematical model integrates diverging PXY and MP interactions in cambium development
The cambium is a secondary meristematic tissue in plant stems, roots, and hypocotyls. Here, cell divisions occur that are required for radial growth. In most species that undergo secondary growth, daughters of cell divisions within the cambium differentiate into woody xylem cells towards the inside of the stem, or phloem towards the outside. As such, a pattern of xylem-cambium-phloem is present along the radial axis of all secondary vascular tissues, whether in stem, hypocotyl, or root. A ligand-receptor pair, TDIF-PXY promotes cell division in the cambium, as do the phytohormones, cytokinin and auxin. An auxin response factor, MP, has been proposed to initiate cambial cell divisions by promoting PXY expression, however, MP has also been reported to repress cambial cell divisions later in development where TDIF-PXY complexes are also reported to suppress MP activity. Here, we used a mathematical modelling approach to investigate how MP cell division-promoting activity and cell division-repressing activity might be integrated into the same network as a negative feedback loop. In our model, this feedback loop improved the ability of the cambium to pattern correctly and was found to be required for normal patterning as the stability of MP was increased. The implications of this model in early and late cambium development are discussed.
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来源期刊
in silico Plants
in silico Plants Agricultural and Biological Sciences-Agronomy and Crop Science
CiteScore
4.70
自引率
9.70%
发文量
21
审稿时长
10 weeks
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