Summary
A developing maize leaf grows by the activity of a basal meristematic region and an adjacent elongating zone, resulting in a morphological and functional gradient along the leaf. We have used this system to detect the spatial and temporal expression of an enzyme, sucrose synthase, which plays a pivotal role in the sucrose import-export transition which occurs along a monocotyledon leaf. Immunogold labeling was used to detect the cellular and sub-cellular distribution of sucrose synthase (SS) at the electron microscopical level; the protein was visualized using a polyclonal antiserum on embedded tissue sections. Immunolabel was observed in the cytosol of dividing meristematic cells, expanding cells of the elongation zone, and in differentiating cells of young photosynthetic tissue. In fully differentiated leaf tissue, however, the protein was no longer immuno-detectable in photosynthetic cells, but was present in the guard and subsidiary cells of stomata and in companion cells within the phloem tissue of vascular bundles. The tissue- and cell-specific localization of sucrose synthase changes along the growing leaf as a function of the developmental state and the associated need for sucrose import or export.
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Brangeon, J., Nguyen-Quoc, B. & Lecharny, A. Ultrastructural detection of sucrose synthase distribution in developing maize leaves. Protoplasma 192, 150–158 (1996). https://doi.org/10.1007/BF01273887
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DOI: https://doi.org/10.1007/BF01273887