Genic male sterility (GMS) mutant is a useful germplasm resource for both theory research and production practice. The identification and characterization of GMS genes, and assessment of male-sterility stability of GMS mutant under different genetic backgrounds in (maize) have (1) deepened our understanding of the molecular mechanisms controlling anther and pollen development, and (2) enabled the development and efficient use of many biotechnology-based male-sterility (BMS) systems for hybrid breeding. Here, we reported a complete GMS mutant (), which displays abnormal anther cuticle and pollen development. Its fertility restorer gene was found to be a new allele of encoding a glucose methanol choline (GMC) oxidoreductase involved in lipid metabolism in anther. Phylogenetic and microsynteny analyses showed that ZmMs20 was conserved among gramineous species, which provide clues for creating GMS materials in other crops. Additionally, among the 17 maize cloned GMS genes, was found to be similar to the expression patterns of , , , , and genes, which will give some clues for deciphering their functional relationships in regulating male fertility. Finally, two functional markers of were developed and tested for creating maize male-sterility lines in 353 genetic backgrounds, and then an artificial maintainer line of GMS mutation was created by using gene, mutant, and BMS system. This work will promote our understanding of functional mechanisms of male fertility and facilitate molecular breeding of male-sterility lines for hybrid seed production in maize.
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| http://dx.doi.org/10.3390/ijms20061411 | DOI Listing |
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