Systematic review on raphide morphotype calcium oxalate crystals in angiosperms.

IF 2.6 3区 生物学 Q2 ECOLOGY AoB Plants Pub Date : 2023-07-01 DOI:10.1093/aobpla/plad031
Natasha S Lawrie, Nekane Medrano Cuetos, Francesca Sini, Ghifary A Salam, Hangyu Ding, Arthur Vancolen, Jessica M Nelson, Roy H J Erkens, Giuditta Perversi
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Abstract

Calcium oxalate (CaOx) crystals are biominerals present in a wide variety of plants. Formation of these crystals is a biomineralization process occurring in vacuoles within specialized cells called crystal idioblasts. This process is dependent on two key components: deprotonated oxalic acid, and calcium ions (Ca2+), and can result in multiple crystal morphologies. Raphides are needle-like CaOx crystals found in various plant organs and tissues. Though their function is highly debated, they can potentially store calcium, sequester heavy metals, protect against herbivory and possibly programmed cell death. The last review of the taxonomic and anatomical distribution of raphides across the plant kingdom dates back to 1980, in a review by Franceschi and Horner, prompting an updated systematic review of raphides in plants. We conduct a broad literature search to record plant taxa and tissue locations containing raphides. We provide an overview of raphide-forming plant taxa, discussing phylogenetic distribution of raphides at the order level, and report on the specific locations of raphides within plants. Our review reveals raphide occurrence has been studied in 33 orders, 76 families and 1305 species, with raphides presence confirmed in 24 orders, 46 families and 797 species. These taxa represented less than 1 % of known species per family. Leaves are the most prominent raphide-containing primary location in all three major angiosperm clades investigated: Eudicots, Magnoliids, and Monocots. Roots are least reported to contain raphides. The collation of such information lays the groundwork to unveil the genetic origin and evolution of raphides in plants, and highlights targets for future studies of the presence and role of plant raphides.

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被子植物中草酸钙结晶形态的系统综述。
草酸钙(CaOx)晶体是广泛存在于各种植物中的生物矿物质。这些晶体的形成是一个生物矿化过程,发生在称为晶体异母细胞的特化细胞内的液泡中。该过程依赖于两个关键成分:去质子化草酸和钙离子(Ca2+),并可导致多种晶体形态。Raphides是针状的CaOx晶体,存在于各种植物器官和组织中。尽管它们的功能备受争议,但它们可以潜在地储存钙,隔离重金属,防止食草性和可能的程序性细胞死亡。对植物界rapides的分类和解剖分布的最后一次回顾可以追溯到1980年,在Franceschi和Horner的一篇综述中,促使了对植物rapides的更新系统综述。我们进行了广泛的文献检索,记录植物分类群和组织位置含有raprapides。本文综述了raphid形成植物类群的概况,讨论了raphid在目水平上的系统发育分布,并报道了raphid在植物中的具体位置。结果表明,目前已有33目76科1305种raphide被发现,其中已有24目46科797种raphide被证实存在。这些分类群在每个科的已知物种中所占比例不到1%。在被调查的三个主要被子植物分支中,叶片是最显著的含rapi的主要位置:euicoids, Magnoliids和mono子叶。据报道,根中含有的raphides最少。这些信息的整理为揭示植物raphid的遗传起源和进化奠定了基础,并为进一步研究植物raphid的存在和作用指明了方向。
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来源期刊
AoB Plants
AoB Plants PLANT SCIENCES-
CiteScore
4.80
自引率
0.00%
发文量
54
审稿时长
20 weeks
期刊介绍: AoB PLANTS is an open-access, online journal that has been publishing peer-reviewed articles since 2010, with an emphasis on all aspects of environmental and evolutionary plant biology. Published by Oxford University Press, this journal is dedicated to rapid publication of research articles, reviews, commentaries and short communications. The taxonomic scope of the journal spans the full gamut of vascular and non-vascular plants, as well as other taxa that impact these organisms. AoB PLANTS provides a fast-track pathway for publishing high-quality research in an open-access environment, where papers are available online to anyone, anywhere free of charge.
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