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.     

Comparison of Vibratome and Compresstome sectioning of fresh primate lymphoid and genital tissues for in situ MHC-tetramer and immunofluorescence staining

Background

For decades, the Vibratome served as a standard laboratory resource for sectioning fresh and fixed tissues. In skilled hands, high quality and consistent fresh unfixed tissue sections can be produced using a Vibratome but the sectioning procedure is extremely time consuming. In this study, we conducted a systematic comparison between the Vibratome and a new approach to section fresh unfixed tissues using a Compresstome. We used a Vibratome and a Compresstome to cut fresh unfixed lymphoid and genital non-human primate tissues then used in situ tetramer staining to label virus-specific CD8 T cells and immunofluorescent counter-staining to label B and T cells. We compared the Vibratome and Compresstome in five different sectioning parameters: speed of cutting, chilling capability, specimen stabilization, size of section, and section/staining quality.

Results

Overall, the Compresstome and Vibratome both produced high quality sections from unfixed spleen, lymph node, vagina, cervix, and uterus, and subsequent immunofluorescent staining was equivalent. The Compresstome however, offered distinct advantages; producing sections approximately 5 times faster than the Vibratome, cutting tissue sections more easily, and allowing production of larger sections.

Conclusions

A Compresstome can be used to generate fresh unfixed primate lymph node, spleen, vagina, cervix and uterus sections, and is superior to a Vibratome in cutting these fresh tissues.     

一种在两栖类胚胎的免疫组织化学研究中有多种用途的方法

本文介绍了我们最近发展的一项用于两栖类胚胎的免疫组织化学研究的技术。两栖类胚胎经过适当的化学固定以后,用振动切片机可以得到50—100 μ的切片。我们用这样的切片进行免疫萤光和免疫酶标染色,均得到满意的结果,可以进行光镜(共聚焦显微镜,普通显微镜)及透射电镜的观察。由于在整个过程中避免了使用有机溶剂及包埋剂,所以最大限度地保存了抗原性。与传统的各种免疫组化技术比较,切片的各部分组织均能迅速与抗体反应,组织保存相当完好,可以满足电镜观察的要求。运用这种方法,还可以将同一胚胎的不同切片分别用于光镜和电镜观察,使结果更具说服力。