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29 August 2014 Cytochemical investigation at different microsporogenesis phases of male sterility in wheat, as induced by the chemical hybridising agent SQ-1
Yulong Song, Junwei Wang, Pengfei Zhang, Gaisheng Zhang, Longyu Zhang, Xinliang Zhao, Na Niu, Shoucai Ma
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Abstract

This study used semi-thin sectioning and cytochemistry to investigate the relationship between pollen nutrient metabolism and pollen abortion in male sterile lines of wheat induced by SQ-1 (a chemical hybridising agent). Anthers were collected from the tetrad to trinucleate stages, and 4′ ,6-diamidino-2-phenylindole staining was used to visualise nuclei and confirm the development stage. Sudan Black B, periodic acid–Schiff, Coomassie Brilliant Blue, and toluidine blue were used to detect lipids, starch, proteins, and acidic polyanions, respectively. Semi-thin sectioning indicated that nutrient accumulation was much higher in the fertile line 1376 than in the sterile line 1376-PHYMS. Further, no lipids were found in the free microspore stage in the sterile line; however, at the late microspore stage, more proteins and acidic polyanions were found in the sterile line 1376-PHYMS pollen than in the fertile line 1376 pollen. From the binucleate to trinucleate pollen stages, the starch content was low and the intine considerably thinner in the pollen of the 1376-PHYMS line. SQ-1 probably hampered nutrient metabolism in the anthers, leading to decreased nutrient supply and abnormal intine formation, ultimately resulting in pollen abortion. A new mechanism for nutrient absorption, i.e. endocytosis of Ubisch bodies or orbicules by the intine through the germinal aperture, was revealed.

© CSIRO 2014
Yulong Song, Junwei Wang, Pengfei Zhang, Gaisheng Zhang, Longyu Zhang, Xinliang Zhao, Na Niu, and Shoucai Ma "Cytochemical investigation at different microsporogenesis phases of male sterility in wheat, as induced by the chemical hybridising agent SQ-1," Crop and Pasture Science 65(9), 868-877, (29 August 2014). https://doi.org/10.1071/CP14034
Received: 25 January 2014; Accepted: 1 July 2014; Published: 29 August 2014
KEYWORDS
Cytochemistry
physiological male sterility
Triticum aestivum L.
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