Z Toghranegar1, S Nadot, B Albert. 1. Univ. Paris-Sud, Laboratoire Ecologie, Systématique et Evolution, UMR8079, Orsay, F-91405, Paris, France.
Abstract
BACKGROUND AND AIMS: Microsporogenesis leading to monosulcate pollen grains has already been described for a wide range of monocot species. However, a detailed study of additional callose deposition after the completion of the cleavage walls has been neglected so far. The study of additional callose deposition in monosulcate pollen grain has gained importance since a correlation between additional callose deposition and aperture location has recently been revealed. METHODS: Microsporogenesis is described for 30 species belonging to eight families of the monocots: Acoraceae, Amaryllidaceae, Alstroemeriaceae, Asparagaceae, Butomaceae, Commelinaceae, Liliaceae and Xanthorrhoeaceae. KEY RESULTS: Five different microsporogenesis pathways are associated with monosulcate pollen grain. They differ in the type of cytokinesis, tetrad shape, and the presence and shape of additional callose deposition. Four of them present additional callose deposition. CONCLUSIONS: In all these different microsporogenesis pathways, aperture location seems to be linked to the last point of callose deposition.
BACKGROUND AND AIMS: Microsporogenesis leading to monosulcate pollen grains has already been described for a wide range of monocot species. However, a detailed study of additional callose deposition after the completion of the cleavage walls has been neglected so far. The study of additional callose deposition in monosulcate pollen grain has gained importance since a correlation between additional callose deposition and aperture location has recently been revealed. METHODS: Microsporogenesis is described for 30 species belonging to eight families of the monocots: Acoraceae, Amaryllidaceae, Alstroemeriaceae, Asparagaceae, Butomaceae, Commelinaceae, Liliaceae and Xanthorrhoeaceae. KEY RESULTS: Five different microsporogenesis pathways are associated with monosulcate pollen grain. They differ in the type of cytokinesis, tetrad shape, and the presence and shape of additional callose deposition. Four of them present additional callose deposition. CONCLUSIONS: In all these different microsporogenesis pathways, aperture location seems to be linked to the last point of callose deposition.
Authors: Sophie Nadot; Carol A Furness; Julie Sannier; Laurent Penet; Sarah Triki-Teurtroy; Beatrice Albert; Adrienne Ressayre Journal: Am J Bot Date: 2008-11 Impact factor: 3.844