两个不同物种的花过渡和花器官形成的比较分析:Disocactus speciosus 和 D. eichlamii(仙人掌科)。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
ACS Applied Bio Materials Pub Date : 2024-06-01 Epub Date: 2024-01-09 DOI:10.1007/s00497-023-00494-3
Cristian Genaro Ramírez-Castro, Alma Piñeyro-Nelson, Estela Sandoval-Zapotitla, Salvador Arias, Isaura Rosas-Reinhold
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引用次数: 0

摘要

关键信息:仙人掌(Disocactus)中形态各异的植株和花组织的不同发育方式导致了复杂的结构--花轴。仙人掌科的物种具有在水压环境中生长的适应性。这些适应性转化为各种结构的减少和改变,如叶、茎、侧枝、根和所谓的花芽结构。仙人掌的花和果实具有一致的结构,即雌雄同体或单性的花产生一个称为仙人掌的果实,但组成生殖单元的无性和生殖组织的发育动态只能通过对前合成芽的分析来推断。在这里,我们对两个发育系列进行了比较分析,这两个系列涵盖了 Disocactus speciosus 和 Disocactus eichlamii 花形成和器官分化的早期阶段。我们观察到,在小窠内,嫩枝顶端分生组织开始向上生长,产生螺旋状排列的侧叶,并迅速过渡到花分生组织。花分生组织产生表皮原基和雄蕊环分生组织,在 D. speciosus 和 D. eichlamii 中,这些原基和分生组织分别以离心方式发育出大量或少量雄蕊。此外,下位子房来自花分生组织的扁平化和下部茎干周围组织的向上生长,从而产生果皮。这种结构对仙人掌类植物来说很新颖,与心皮壁之间缺乏明确的解剖界限。在此,我们首次研究记录了仙人掌在最初的分生组织确定过程中发生的与果皮发育和早期花器官形成有关的早期过程,直至成熟花器官的形成。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Comparative analysis of floral transition and floral organ formation in two contrasting species: Disocactus speciosus and D. eichlamii (Cactaceae).

Key message: Contrasting morphologies in Disocactus are the result of differential development of the vegetative and floral tissue where intercalary growth is involved, resulting in a complex structure, the floral axis. Species from the Cactaceae bear adaptations related with their growth in environments under hydric stress. These adaptations have translated into the reduction and modification of various structures such as leaves, stems, lateral branches, roots and the structuring of flowers in a so-called flower-shoot. While cacti flowers and fruits have a consistent structure with showy hermaphrodite or unisexual flowers that produce a fruit called cactidium, the developmental dynamics of vegetative and reproductive tissues comprising the reproductive unit have only been inferred through the analysis of pre-anthetic buds. Here we present a comparative analysis of two developmental series covering the early stages of flower formation and organ differentiation in Disocactus speciosus and Disocactus eichlamii, which have contrasting floral morphologies. We observe that within the areole, a shoot apical meristem commences to grow upward, producing lateral leaves with a spiral arrangement, rapidly transitioning to a floral meristem. The floral meristem produces tepal primordia and a staminal ring meristem from which numerous or few stamens develop in a centrifugal manner in D. speciosus and D. eichlamii, respectively. Also, the inferior ovary derives from the floral meristem flattening and an upward growth of the surrounding tissue of the underlying stem, producing the pericarpel. This structure is novel to cacti and lacks a clear anatomical delimitation with the carpel wall. Here, we present a first study that documents the early processes taking place during initial meristem determination related to pericarpel development and early floral organ formation in cacti until the establishment of mature floral organs.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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