Exploring the Diversity of Ovule Development in the Novel Rice Mutant ShuangLi Using Confocal Laser Scanning Microscopy
Shuaipeng Zhao, Chunhong Wu, Yuanyuan Hao, Jikun Xu, Jian Li, Qunce Huang

TL;DR
A novel rice mutant called shuangli produces double grains due to abnormal ovule development, which was studied using confocal microscopy to understand its fertility issues.
Contribution
The study reveals specific embryological mechanisms behind the partial fertility and grain diversity in the rice mutant shuangli.
Findings
Abnormal ovary structures like 'tumor' like cell clusters and double ovaries were observed in 35.18% of cases.
Double ovules and double embryo sacs were found in 10.79% and 3.60% of cases, respectively, explaining the dual grain formation.
Degeneration of key reproductive structures like the central polar nucleus and egg apparatus was observed in 27.53% of cases.
Abstract
Low energy N+ ion beam implantation has been used to create the novel rice mutant “shuangli”, which produces partially fertile spikelets containing double grains. Abnormal ovule development is a major cause of partial fertility and grain diversity in rice mutants. To elucidate the developmental mechanism of ovule diversity in shuangli, ovules undergoing development were stained using eosin Y and H33342 and observed using confocal laser scanning microscopy. Different developmental abnormalities were observed in the ovary, embryo sac, and ovule. Abnormal development was observed in 35.18% of the ovary structures, primarily manifesting as “tumor” like cell clusters, “false ovaries”, stamen degeneration, and double ovaries. In the embryo sac, abnormal development occurred in about 17.35% of the megaspore cells, including the formation of three nuclei, two daughter cells of asynchronously…
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Taxonomy
TopicsRice Cultivation and Yield Improvement · Plant Reproductive Biology · Genetic Mapping and Diversity in Plants and Animals
