Release of developmental constraints on tetrad shape is confirmed in inaperturate pollen of Potamogeton

Release of developmental constraints on tetrad shape is confirmed in inaperturate pollen of Potamogeton

BACKGROUND AND AIMS: Microsporogenesis in monocots is often characterized by successive cytokinesis with centrifugal cell plate formation. Pollen grains in monocots are predominantly monosulcate, but variation occurs, including the lack of apertures. The aperture pattern can be determined by microsp...

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Bibliographic Details
Published in:Annals of botany Vol. 104; no. 5; pp. 1011 - 1015
Main Authors: Nunes, Elaine Lopes Pereira, Bona, Cleusa, Moço, Maria Cecília de Chiara, Coan, Alessandra Ike
Format: Journal Article
Language:English
Published: England Oxford University Press 01-10-2009
Subjects:
Alismatales
Angiosperms
Anthers
callose
Cytokinesis
Electron microscopes
Meiosis
Microscopy, Electron, Transmission
Microspores
Microsporocytes
Microsporogenesis
P. polygonus
P. pusillus
Plants
Pollen
Pollen - growth & development
Pollen - ultrastructure
pollen aperture
Potamogeton
Potamogeton illinoensis
Potamogetonaceae
Potamogetonaceae - growth & development
Potamogetonaceae - ultrastructure
SHORT COMMUNICATION
tetrad shape
callose
microsporogenesis
tetrad shape
pollen aperture
Alismatales
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Summary:BACKGROUND AND AIMS: Microsporogenesis in monocots is often characterized by successive cytokinesis with centrifugal cell plate formation. Pollen grains in monocots are predominantly monosulcate, but variation occurs, including the lack of apertures. The aperture pattern can be determined by microsporogenesis features such as the tetrad shape and the last sites of callose deposition among the microspores. Potamogeton belongs to the early divergent Potamogetonaceae and possesses inaperturate pollen, a type of pollen for which it has been suggested that there is a release of the constraint on tetrad shape. This study aimed to investigate the microsporogenesis and the ultrastructure of pollen wall in species of Potamogeton in order to better understand the relationship between microsporogenesis features and the inaperturate condition. METHODS: The microsporogenesis was investigated using both light and epifluorescence microscopy. The ultrastructure of the pollen grain was studied using transmission electron microscopy. KEY RESULTS: The cytokinesis is successive and formation of the intersporal callose wall is achieved by centrifugal cell plates, as a one-step process. The microspore tetrads were tetragonal, decussate, T-shaped and linear, except in P. pusillus, which showed less variation. This species also showed a callose ring in the microsporocyte, and some rhomboidal tetrads. In the mature pollen, the thickening observed in a broad area of the intine was here interpreted as an artefact. CONCLUSIONS: The data support the view that there is a correlation between the inaperturate pollen production and the release of constraint on tetrad shape. However, in P. pusillus the tetrad shape may be constrained by a callose ring. It is also suggested that the lack of apertures in the pollen of Potamogeton may be due to the lack of specific sites on which callose deposition is completed. Moreover, inaperturate pollen of Potamogeton would be better classified as omniaperturate.
Bibliography:ark:/67375/HXZ-T5WVXRKK-W
istex:8FDA87472E09EFC4C1899E997F87804064418773
ArticleID:mcp160
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:0305-7364
1095-8290
DOI:10.1093/aob/mcp160