Plant Biotechnology
Online ISSN : 1347-6114
Print ISSN : 1342-4580
ISSN-L : 1342-4580
Original Papers
Characterization and fine mapping of nonstop glumes 2 (nsg2) mutant in rice (Oryza sativa L.)
Yunfeng Li Xiaoqin ZengHui ZhuangHuan ChenTing ZhangJun ZhangHao ZhengJun TangHonglei WangSuxian RenYinghua LingGuanghua He
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Supplementary material

2019 Volume 36 Issue 3 Pages 125-134

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Abstract

In cereal crops, the grain number per panicle and the grain yield are greatly affected by the number of florets in a spikelet. In wild-type rice, a spikelet only produces one fertile floret and beneath the floret are a pair of sterile lemmas and a pair of rudimentary glumes. This study characterized a rice spikelet mutant nonstop glumes 2 (nsg2). In the nsg2 mutant, both the sterile lemmas and rudimentary glumes were elongated, and part of sterile lemma looked like a lemma in appearance, shape and size. Detailed histological analysis and qPCR analysis revealed that the sterile lemmas in the nsg2 mutant had homeotically transformed into lemma-like organs. This phenotype indicates that NSG2 is involved in the regulation of spikelet development and supports the long-held view that sterile lemmas were derived from the lemmas of the two lateral florets. This implies that the rice spikelet has the potential to be restored to the “three florets spikelet”, which may have existed in its ancestors. Genetic analysis reveals that the nsg2 trait is controlled by a single recessive gene. The NSG2 gene was finally mapped between markers R-20 and R-39 on chromosome 7 with a physical region of 180 kb. The two MYB family factors LOC_Os07g44030 and LOC_Os07g44090 might be involved in the development of the spikelet and floral organ, and they were considered as candidate genes of NSG2. These results provide a foundation for map-based cloning and function analysis of NSG2, as well as evidence to support “three-florets spikelet” breeding in rice.

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© 2019 The Japanese Society for Plant Cell and Molecular Biology
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