Affiliation:
1. Key Laboratory of Sweet Potato Biology and Biotechnology, Ministry of Agriculture and Rural Affairs/Beijing Key Laboratory of Crop Genetic Improvement/Laboratory of Crop Heterosis & Utilization and Joint Laboratory for International Cooperation in Crop Molecular Breeding, Ministry of Education, College of Agronomy & Biotechnology China Agricultural University Beijing 100193 China
Abstract
SUMMARYAs a major worldwide root crop, the mechanism underlying storage root yield formation has always been a hot topic in sweet potato [Ipomoea batatas (L.) Lam.]. Previously, we conducted the transcriptome database of differentially expressed genes between the cultivated sweet potato cultivar “Xushu18,” its diploid wild relative Ipomoea triloba without storage root, and their interspecific somatic hybrid XT1 with medium‐sized storage root. We selected one of these candidate genes, IbNF‐YA1, for subsequent analysis. IbNF‐YA1 encodes a nuclear transcription factor Y subunit alpha (NF‐YA) gene, which is significantly induced by the natural auxin indole‐3‐acetic acid (IAA). The storage root yield of the IbNF‐YA1 overexpression (OE) plant decreased by 29.15–40.22% compared with the wild type, while that of the RNAi plant increased by 10.16–21.58%. Additionally, IAA content increased significantly in OE plants. Conversely, the content of IAA decreased significantly in RNAi plants. Furthermore, real‐time quantitative reverse transcription‐PCR (qRT‐PCR) analysis demonstrated that the expressions of the key genes IbYUCCA2, IbYUCCA4, and IbYUCCA8 in the IAA biosynthetic pathway were significantly changed in transgenic plants. The results indicated that IbNF‐YA1 could directly target IbYUCCA4 and activate IbYUCCA4 transcription. The IAA content of IbYUCCA4 OE plants increased by 71.77–98.31%. Correspondingly, the storage root yield of the IbYUCCA4 OE plant decreased by 77.91–80.52%. These findings indicate that downregulating the IbNF‐YA1 gene could improve the storage root yield in sweet potato.
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2 articles.
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