The Relationship between Tapetum Cells and Microspores Based on Protein Localization inFraxinus angustifolia(Oleaceae) Pollen Grains

This study contributes to the knowledge of the traffic of substances between tapetum cells and microspores through the localization of pollen proteins during microsporogenesis, by using immunocytochemical techniques with TEM. Because the Oleaceae genera, includingOleaandFraxinus, share a very simila...

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Bibliographic Details
Published in:International journal of plant sciences 2010-01, Vol.171 (1), p.34-52
Main Authors: Rodríguez‐Rajo, F. Javier, Vega‐Maray, Ana M., Asturias, Juan A., Jato, Victoria, Seoane‐Camba, Juan A., Suárez‐Cervera, María
Format: Article
Language:English
Subjects:
Allergens
Anthers
Cell membranes
Cisterns
Cytoplasm
Developmental biology
Glycocalyx
Microspores
Pollen
Rough endoplasmic reticulum
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Summary:This study contributes to the knowledge of the traffic of substances between tapetum cells and microspores through the localization of pollen proteins during microsporogenesis, by using immunocytochemical techniques with TEM. Because the Oleaceae genera, includingOleaandFraxinus, share a very similar protein profile, an Ole e 1–like protein (which cross‐reacts with theOlea europaeamajor allergen Ole e 1) was detected inFraxinus angustifoliapollen grains. From the tetrad to mature–pollen grain stages, distinct labeling intensities were localized in the tapetal cells, anther locule, and orbicules as well as in the microspore and pollen cytoplasms and walls. The localization of this protein in the glycocalyx proves the special role of this layer in ectexine development. At exine deposition stages, the detection of immunogold particles in the anther locule and orbicules can be interpreted as showing an active transfer of these proteins from the tapetum cells to microspores. Moreover, at the bicellular stage, the diffusion of proteins from the pollen cytoplasm to the intine channels indicates their contribution to intine formation. These findings provide new evidence of the role of sporophytic and gametophytic tissues in pollen grain development. Moreover, the Ole e 1–like protein may have an important role in modifying pollen grain walls.
ISSN:1058-5893
1537-5315
DOI:10.1086/647922