Abstract
Microsporogenesis and pollen development were analyzed in a tetraploid (2n = 4x = 36) accession of the forage grass Brachiaria jubata (BRA 007820) from the Embrapa Beef Cattle Brachiaria collection that showed partial male sterility. Microsporocytes and pollen grains were prepared by squashing and staining with 0.5% propionic carmine. The meiotic process was typical of polyploids, with precocious chromosome migration to the poles and laggards in both meiosis I and II, resulting in tetrads with micronuclei in some microspores. After callose dissolution, microspores were released into the anther locule and appeared to be normal. Although each microspore initiated its differentiation into a pollen grain, in 11.1% of them nucleus polarization was not observed, i.e., pollen mitosis I was symmetric and the typical hemispherical cell plate was not detected. After a central cytokinesis, two equal-sized cells showing equal chromatin condensation and the same nuclear shape and size were formed. Generative cells and vegetative cells could not be distinguished. These cells did not undergo the second pollen mitosis and after completion of pollen wall synthesis each gave rise to a sterile and uninucleate pollen grain. The frequency of abnormal pollen mitosis varied among flowers and also among inflorescences. All plants were equally affected. The absence of fertile sperm cells in a considerable amount of pollen grains in this accession of B. jubata may compromise its use in breeding and could explain, at least in part, why seed production is low when compared with the amount of flowers per raceme.
Highlights
The events that culminate in the formation of the pollen grain involve an intricate and tightly controlled set of structural and molecular gene expression events in both the gametophytic and sporophytic tissues of the anther
The frequency of abnormal pollen mitosis varied among flowers and among inflorescences
In the current paper we describe an abnormal pollen mitosis division in one accession of Brachiaria jubata, a species of interest in the forage breeding program
Summary
The events that culminate in the formation of the pollen grain involve an intricate and tightly controlled set of structural and molecular gene expression events in both the gametophytic and sporophytic tissues of the anther. After an initial burst of growth and exine synthesis, the haploid microspores undergo cytological reorganization in preparation for a key event in pollen development, i.e., the asymmetric mitotic division [2]. This mitotic division, known as ‘pollen mitosis one’ (PM I), results in the formation of two dimorphic cells, the vegetative cell and the generative cell, with very different fates [1,2,3,4,5]. The generative/sperm cells have very little cytoplasm and sparse nuclear chromatin, suggesting that they have lower transcriptional activity [6]
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More From: Brazilian Journal of Medical and Biological Research
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