Ectopic cambia in Japanese wisteria (Wisteria floribunda) vines are associated with the expression of conserved KNOX genes

bioRxiv - Plant Biology Pub Date : 2024-08-10 DOI:10.1101/2024.08.07.606835

Israel L. Cunha Neto, Anthony A. Snead, Jacob B. Landis, Chelsea D. Specht, Joyce G. Onyenedum

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Abstract

Secondary growth is a conserved mechanism that gives rise to vascular tissues produced via a single vascular cambium. Molecular mechanisms underlying this process are characterized mostly in model species bearing typical vascular architecture, while the genetics underlying ecologically-important atypical vascular architectures remain unexplored. We use developmental anatomy, comparative transcriptomics, and molecular evolutionary analyses to address this knowledge gap, investigating how multiple ectopic cambia (EC) form in the woody vine Wisteria floribunda. Anatomical studies show EC in W. floribunda arise from cortical parenchyma, while cambium-specific transcriptome comparisons reveal that genes acting as regulators of typical cambium development in model species are likewise associated with atypical EC development. Gene trees of KNOX proteins indicate duplication events may contribute to EC formation, including a Fabaceae-specific duplication of KNAT6 detected as under positive selection. These findings reveal insights into the genetics of EC formation, advancing our understanding of the development of complex vascular traits.

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日本紫藤（Wisteria floribunda）藤本植物的异位冈比亚与保守的 KNOX 基因的表达有关

二次生长是一种保守的机制，通过单一的维管束生形成维管组织。这一过程的分子机制主要是在具有典型维管结构的模式物种中表征的，而具有重要生态意义的非典型维管结构的遗传学基础仍有待探索。我们利用发育解剖学、比较转录组学和分子进化分析来填补这一知识空白，研究木质藤本植物紫藤（Wisteria floribunda）如何形成多个异位韧皮部（EC）。解剖学研究表明，花叶紫藤的异位凸起来自皮层实质，而凸起特异性转录组比较显示，在模式物种中作为典型凸起发育调控因子的基因同样与异位凸起的发育有关。KNOX 蛋白的基因树表明，复制事件可能有助于 EC 的形成，包括检测到 KNAT6 的 Fabaceae 特异性复制处于正选择状态。这些发现揭示了EC形成的遗传学原理，有助于我们了解复杂血管特征的发展。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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bioRxiv - Plant Biology

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