植物组织的组织学方法。

Pub Date : 2024-09-02 DOI:10.1080/01478885.2024.2397989
Sheila Criswell, Brian Gaylord, Christopher R Pitzer
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引用次数: 0

摘要

虽然无性细胞的许多结构和细胞器与动物组织相似,但植物组织和动物组织之间的显著差异要求对组织处理步骤和组织化学染色技术的组织学技术进行修改。作者通过收集代表叶、茎、根和花/果四个主要植物器官的各种植物群来研究处理植物组织所面临的挑战。每个标本都有三份样本,分别放入福尔马林中进行石蜡包埋,放入福尔马林中进行后期冷冻切片,以及使用新鲜样本立即进行冷冻切片。植物组织的冷冻切片比福尔马林固定石蜡包埋(FFPE)切片更难获得,在染色过程中会出现组织损失,在形态上也不如 FFPE 切片。尽管从历史上看,植物组织的固定和处理与动物组织的处理相比使用了几种不同的试剂,所需的时间也明显较长,但目前的调查确定,现代组织学实验室处理哺乳动物组织的试剂和方案可用于植物组织的处理,只需在试剂使用时间方面稍作修改即可。此外,还对染色技术进行了比较,众所周知,植物细胞壁能很好地染上黄褐素 O,但目前的调查确定,在 60°C 温度下培养可加速黄褐素 O 的吸收。
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Histological methods for plant tissues.

Although many of the structures and organelles of vegetative cells are comparable to those of animal tissues, significant differences between the two kingdoms require modifications in histological techniques for both tissue processing steps and histochemical staining techniques. The authors investigated the challenges of working with plant tissues by collecting various flora to represent the four main plant organs: leaf, stem, root, and flower/fruit. Triplicate samples for each specimen were placed into formalin for paraffin embedding, placed into formalin for later frozen sections, and used fresh to undergo immediate frozen sectioning. Frozen sections of plant tissues were more difficult to obtain than formalin-fixed paraffin-embedded (FFPE) sections, exhibited tissue loss during staining, and were inferior morphologically to FFPE sections. Although, historically, plant tissue fixation and processing has employed several different reagents compared with those used in animal tissue processing and took significantly longer times, the current investigation determined reagents and protocols from a modern histology laboratory which processes mammalian tissues can be applied to plant tissue processing with only slight modifications in respect to reagent timing. Additionally, staining techniques were compared and while it is well known that plant cell walls stain well with safranin O, the current investigation determined the uptake of safranin O can be accelerated by incubating at 60°C.

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