观察比较贝母类生物碱分布的3种切片方法

目的:建立一种能更清楚有效地观察贝母鳞茎中生物碱沉淀分布及含量的切片方法。方法:以新疆贝母为供试材料,利用石蜡切片法、徒手切片法及改良切片法制备植物鳞茎组织切片;切片经改良碘化铋钾处理,并通过Mikroskop Primo Star X2005显微镜观察和比较3种不同切片中生物碱沉淀分布。结果:改良切片法处理的切片中生物碱沉淀分布观察清晰,可用于定性及定量分析,并且实验过程中试剂对生物碱的影响较小,操作方法简便、快速、有效。结论:贝母鳞茎生物碱的观测适合采用改良切片法制片。     

利用冰冻切片机快速制作木质茎显微切片技术

植物的木质茎,因次生维管组织含量多,细胞壁木质化程度高,质地较硬,徒手切片和石蜡切片均难以获得满意的切片效果。冰冻切片机可对一定硬度的组织进行切片,是制件植物木质茎的制片的有效工具之一。【方法】利用冰冻切片机可在不经化学固定,对一些质地均匀,含水量较高的木质茎直接切片;而对木质坚硬、含水量较少的茎,经过FAA等固定剂固定后,OCT包埋,(-30)～(-25)℃切片,用0.1%甲苯胺蓝染色液染色。【结果】木质茎的冰冻切片结构完整,图像清晰、色彩丰富。【结论】冰冻切片机可用于木质茎的显微切片制作,再结合甲苯胺蓝染色,具有简便、高效、易操作的优点。     

动物组织徒手切片技术

本文说明一种新的动物切片法,通过十个基本步骤实现的徒手切片法,其特点是用一种高分子聚合物作材料包埋剂制成包埋块,用剃刀切成薄膜状切片。不用大型贵重仪器,优于石蜡切片法。是动物组织光学显微镜切片技术的革新。     

对徒手切片技术的一点改进

徒手切片技术运用在植物学实验教学中的历史较为悠久,在石蜡切片之前,基本上使用徒手切片。它的优点在于可以观察新鲜材料组织和细胞的天然色彩,看到活体细胞结构状态,所以徒手切片运用在植物学实验教学中比较普遍。为了克服传统徒手切片技术中的不足,我们进行了改进,改为皮套加刀片。这种切片方法切片速度快,软硬质材料都可以切,不需要任何夹物,既经济适用,又简单易行。     

冰冻切片技术在植物显微结构和组织化学中的应用

介绍了冰冻切片法研究植物显微结构和组织化学的一般程序。结果表明,冰冻切片过程简单有效且图版清晰,在1d内可获得高质量图片,解决了利用普通石蜡切片观察植物样品需要进行脱水、浸透、包埋操作且耗时长的问题,在植物显微结构和组织化学研究中具有广阔的应用前景。     

植物冰冻切片条件的优化及其与石蜡切片在组织化学应用中的比较

冰冻切片是植物组织学研究中一项重要的实验技术,冷冻温度和冷冻时间是决定切片质量的关键因素。通过比较15种冰冻切片条件,得出植物组织直接冰冻切片较适宜的冷箱温度、冷台温度和冷冻时间。同时,通过对5种植物的不同组织进行组织化学染色,比较了新鲜材料直接冰冻切片与常规石蜡切片在不同化学成分鉴定上的异同及各自的适用范围。结果表明,对于多糖、蛋白质和角质,两种切片方法的鉴定结果比较一致,但对于脂肪只能采用冰冻切片技术。研究结果对植物组织学实验和研究方法的改进具有一定的参考价值。     

两种切片方法检测肝糖原染色效果的比较

目的比较石蜡和冰冻两种不同切片用于检测牛蛙肝糖原的效果。方法采用石蜡和冰冻两种切片方法制作牛蛙肝脏切片,高碘酸希夫氏（periodicacid-Schiff＇s,PAS）染色法对肝糖原进行组织化学染色,光密度分析糖原含量。结果PAS染色显示肝糖原为紫红色或红色颗粒,冰冻切片中糖原颗粒明显大于石蜡切片,光密度分析显示,石蜡切片中糖原流失明显,与冰冻切片相比,糖原流失了约28％。结论两种切片均可用于糖原检测,冰冻切片制作环节较少、耗时短且染色过程中糖原不易流失。     

冰冻切片与石蜡切片对乳腺肿瘤的诊断价值研究

目的:分析和比较冰冻切片与石蜡切片对乳腺肿瘤的诊断价值。方法:选取480例新鲜乳腺标本,将其制成冰冻切片以及石蜡切片,根据诊断结果进行对比分析,评价乳腺肿瘤的冰冻切片与石蜡切片的对乳腺肿瘤的诊断价值。结果:经石蜡切片诊断乳腺良性肿瘤277例,占57.71%,良性肿瘤中以乳腺纤维瘤诊断居多;经石蜡切片诊断乳腺恶性肿瘤203例,占42.29%,以乳腺浸润性导管癌居多。冰冻切片诊断乳腺良性肿瘤279例,占58.13%;恶性肿瘤195例,占40.62%;延迟诊断6例,占1.25%。以石蜡切片诊断结果为金标准,冰冻切片诊断乳腺良性肿瘤的准确率为98.56%(273/277),诊断恶性肿瘤的准确率为95.07%(193/203),假阳性率为0.72%(2/277),假阴性率为2.96%(6/203),冰冻切片与石蜡切片诊断乳腺肿瘤的结果具有显著一致性,K值为0.965(P0.05)。结论:冰冻切片与石蜡切片诊断乳腺肿瘤的符合率较高,可作为术中快速病理检测的手段,但该种切片方式存在少量延迟诊断,多与术者操作经验有关,故术中应注重制片过程,提高冰冻切片质量。     

一种简单而快捷的半薄切片脱树脂新方法

目前,在HE染色、特殊染色或免疫组织化学染色研究方面多采用普通石蜡包埋切片,其切片厚度可薄达4μm,若更薄的切片,切割有一定的难度.对于各种染色而言,越薄的切片,细胞与组织结构越清晰,染色效果越好.环氧树脂(Epon)包埋的组织块不仅用于透射电子显微镜超薄切片的制备,也可用于光镜半薄切片的制备[1].经典的脱树脂的方法是将半薄切片置于氢氧化钠的无水乙醇饱和溶液中浸泡24h,然后再充分水洗.该法耗时长,容易脱片,本实验中摸索出一种简单而快捷的脱树脂的方法,现介绍如下.     

薄切片的放射自显影术

薄切片是指厚度为0．5～1μm的树脂类切片。文献中称它为厚切片（thicksection）或半薄切片（semithinsectio）,籍以与电镜观察用的薄切片（thinsection）区别。我国已习惯称电镜用的切片为超薄切片,因此,把这类切片称薄切片就能说明其比超薄切片厚,比普通石蜡切片薄的特性。用薄切片作放射自显影具有下列优点：（1）改善分辨力：放射自显影象的分辨力与样品的厚度成反比,薄切片的厚度低于普通石蜡切片,所以其分辨力高于用石蜡切片制作的放射自显影象的。（2）减少人工假象：用薄切片作放射自显影,不需去除包埋剂,因此,提供了平正…     

Utilisation of Toluidine blue O pH 4.0 and histochemical inferences in plant sections obtained by free-hand

Protoplasma - For the observation of plant material under a light microscope, free-hand sectioning is usually the fastest and most practical procedure. The staining of the obtained cuts is a...     

华中五味子染色体制片优化及核型分析

比较不同预处理和解离方法对华中五味子染色体制片的影响,采用华中五味子的萌发芽、新枝茎尖、幼叶等不同部位进行染色体制片,观察500个细胞,比较不同部位中期细胞和适宜核型分析的中期细胞所占比例,结果显示,0.1%秋水仙素预处理1 h、1 mol/L盐酸常温解离12 min制片所得染色体分散效果最佳。5~15 mm幼叶侧边组织制片最适宜华中五味子核型分析。核型公式为2n=2x=28=26 m 2sm,核型不对称系数(As.k)为56.30%,属于1B类型,核型对称性程度高,表明华中五味子在进化中处于比较原始类型。     

An improved method for clearing and staining free-hand sections and whole-mount samples

BACKGROUND AND AIMS: Free-hand sectioning of living plant tissues allows fast microscopic observation of internal structures. The aim of this study was to improve the quality of preparations from roots with suberized cell walls. A whole-mount procedure that enables visualization of exo- and endodermal cells along the root axis was also established. METHODS: Free-hand sections were cleared with lactic acid saturated with chloral hydrate, and observed with or without post-staining in toluidine blue O or aniline blue. Both white light and UV light were used for observation. Lactic acid was also used as a solvent for berberine, and fluorol yellow for clearing and staining the samples used for suberin observation. This procedure was also applied to whole-mount roots with suberized celllayers. KEY RESULTS: Clearing of sections results in good image quality to observe the tissue structure and cell walls compared with non-cleared sections. The use of lactic acid as a solvent for fluorol yellow proved superior to previously used solvents such as polyethylene glycol-glycerol. Clearing and fluorescence staining of thin roots such as those of Arabidopsis thaliana were successful for suberin visualization in endodermal cells within whole-mount roots. For thicker roots, such as those of maize, sorghum or tea, this procedure could be used for visualizing the exodermis in a longitudinal view. Clearing and staining of peeled maize root segments enabled observation of endodermal cell walls. CONCLUSIONS: The clearing procedure using lactic acid improves the quality of images from free-hand sections and clearings. This method enhances the study of plant root anatomy, in particular the histological development and changes of cell walls, when used in combination with fluorescence microscopy.     

Capsules for Frozen Sectioning of Small Specimens

It was necessary to make sections of small unfixed specimens which had been frozen while still immersed in their normal culture medium. The principal difficulty stemmed from the poor sectioning quality of the frozen culture medium. A capsule is described which has a narrow well in which the tissue specimen fits snugly within a small amount of culture medium. After freezing, the whole capsule is sectioned and the resulting sections, being nearly devoid of culture medium, are of good quality.     

Embedding Thin Plant Specimens for Oriented Sectioning

Small plant structures such as small primary roots, filamentous mosses and algae are difficult to orient for sectioning since they become wavy and curl during embedding. A method is described for embedding and orienting tiny plant specimens in a glycol methacrylate resin using self-constructed flat molds. Prior to sectioning, small samples can be oriented in both the longitudinal and the transverse plane. As several samples can be sectioned simultaneously, time-consuming trimming of the blocks is reduced substantially. The efficiency of this technique has been demonstrated using the tiny roots of the model plant Arabidopsis thaliana (L.) Heynh.     

冰冻切片技术在铁皮石斛显微结构上的应用

为了快速高效的观察兰科植物铁皮石斛的显微结构,利用光镜和改进的蔗糖保护--液氮速冻冰冻切片法,观察铁皮石斛根、茎、叶的显微结构。该技术方法是将铁皮石斛器官经过蔗糖磷酸缓冲液保护液处理后抽真空,再经过液氮速冻、包埋、切片、展片观察、染色以及拍照等步骤,制作出铁皮石斛根、茎和叶较完整的显微结构切片。研究结果表明,适合铁皮石斛根的最适条件为:蔗糖质量体积分数为8%、冷凝温度-25℃、切片厚度20μm;茎的最适条件为:蔗糖质量体积分数为16%、冷凝温度-20℃、切片厚度15μm;叶的最适条件为:蔗糖质量体积分数为4%、冷凝温度-20℃、切片厚度10μm。该研究在兰科植物显微结构观察和组织化学研究中将具有广阔的应用前景。     

A novel technique for the partial isolation of maize embryo sacs and subsequent regeneration of plants

Summary Embryo sacs of maize isolated with a few layers of surrounding nucellus or completely isolated with digestive enzymes have resulted in either poorly visible or structurally damaged embryo sacs. We therefore developed a new, more successful method involving mechanical sectioning of maize ovaries using the Vibratome. Sections containing intact embryo sacs are viable and development is normal when sacs are cultured in vitro on semisolid Murashige and Skoog (MS) media. Embryo sacs produce endosperm (90%) and embryos (75%), and mature plants are obtained directly without callus formation or somatic embryogenesis. Immediate applications of this technique may include experimental fertilization and embryogenesis as well as genetic manipulation. Targeting of individual cells was demonstrated with microinjection and confocal microscopy. The methods developed in this study provide a way of studying maize embryo sac development and transformation.     

水稻成熟花药和花粉的结构和组织化学研究

用乙二醇甲基丙烯酸脂(简称GMA)和环氧树脂Epon812包埋的薄切片方法对水稻成熟花药和花粉的结构进行了观察,并对各种结构的性质和细胞中的后含物做了细胞化学的分析.对成熟花药的绒毡层膜及乌氏体的研究采用了分离技术,做了显微和超微观察.证明水稻成熟花药壁和花粉除具一般禾本科植物特征外,还揭示了花药壁表皮上可能有硅质,药壁表皮细胞内含有脂类颗粒,药室内壁具纤维素质的纤维状加厚;发现花粉粒中除了贮存有大量淀粉颗粒外,还含有脂类,成熟花粉中营养核与两个精细胞及两个精细胞间联系紧密;并讨论了薄切片的优越性,绒毡层膜的意义及其上细胞印迹的来源.     

不同盐度下互花米草根结构的比较研究

以不同盐度下生长的互花米草(Spartina alterniflora)为材料,采用常规石蜡切片法对其根的横切结构进行显微观察,比较不同盐度下互花米草根结构的特点及变化规律,研究互花米草根对盐浸环境的适应性。观察结果显示:(1)互花米草根只有初生结构;(2)成熟根的表皮细胞基本毁坏、脱落;(3)互花米草根具有发达的外皮层和皮层通气组织,内皮层细胞壁五面加厚明显,且随盐度的升高呈先增大后减小的趋势;(4)维管柱中央被机械组织所填充,中柱鞘细胞壁也出现加厚现象。互花米草根的结构体现了其对盐浸环境的适应性特征。     

玉米茎秆细胞壁和组织构建对抗压强度的影响

耐密抗倒伏玉米品种是玉米育种的重要方向,探究影响玉米茎秆抗压强度的机制是培育玉米新品种的重要途径。本实验采用组织化学、显微观察的方法研究了10个玉米品种茎秆的形态结构、解剖特征和细胞壁的化学组成,并分析了这些变量之间的相关性,结果表明:茎的皮层/半径、厚壁组织比例、机械组织比例和纤维素含量、木质素含量与抗压强度呈极显著正相关关系;薄壁组织比例、茎长/茎粗、维管束个数与抗压强度呈极显著负相关关系。利用共线性诊断和逐步线性回归分析发现,影响茎秆抗压强度的主要因素为皮层/半径、机械组织比例、维管束个数、纤维素含量和木质素含量。利用通径分析进一步定量研究了这5个变量与抗压强度之间的直接作用和间接作用,明确了决定玉米茎秆抗压强度的主要因素为纤维素含量、木质素含量和单位面积维管束个数。本实验还建立了玉米茎微观结构与细胞壁化学构成的数学模型,为进一步揭示玉米茎微观力学形成机理提供了思路,进而为耐密抗倒伏玉米育种提供了研究方向。