An analysis of seed development inPisum sativum V. Fluorescence triple staining for investigating cotyledon cell development

Abstract

A triple staining technique has been developed to investigate the relationship between the increase in DNA content and initiation of storage protein synthesis in pea cotyledon cells. Cells were separated by incubation with macerozyme providing a population comparable to conventional chromic acid techniques but with the advantage of retained immunogenicity. The staining technique combined indirect immunofluorescence using specific antibodies against the storage protein, vicilin, and the cytoskeletal protein, tubulin, with the DNA stain, 4′6-diamidino-2-phenylindole. Using the enzymically separated cells, the staining method allowed the visualisation of vicilin deposits and microtubules and the quantification of DNA by image analysis in thesame cells. The distribution of cellular DNA contents and storage protein content increased with the size of embryo. In small embryos a proportion of mitotic cells were seen to have increased amounts of DNA, though no spindle abnormalities were seen. Storage protein could be detected by immunofluorescence in individual cells much earlier than reported by previous workers but never in mitotic cells. The sensitivity of the immunofluoresence technique for detecting storage protein was determined as 0.5 pg per cell by estimating the vicilin production in whole pea embryos using an enzyme immunoassay.