Yuhan Dong1, Xialin Ye1, Lifang Cao1, Xinyi Yu2, Shenchun Qu3. 1. College of Horticulture, Nanjing Agricultural University, Nanjing, 210095, People's Republic of China. 2. College of Horticulture, Nanjing Agricultural University, Nanjing, 210095, People's Republic of China. t2020066@njau.edu.cn. 3. College of Horticulture, Nanjing Agricultural University, Nanjing, 210095, People's Republic of China. qscnj@njau.edu.cn.
Abstract
MAIN CONCLUSION: High-throughput sequencing and yeast one and two-hybrid library screening reveal that DKGA2ox1 and miR171f_3 are involved in the regulation of scion dwarfing with 'Nan-tong-xiao-fang-shi' as interstocks. Diospyros kaki Thunb. cv. Nan-tong-xiao-fang-shi ('Nan-tong-xiao-fang-shi') interstocks play a critical role in the scion dwarfing. However, the understanding of the molecular signaling pathways that regulate the scion dwarfing with 'Nan-tong-xiao-fang-shi' as interstocks remain unclear. In this work, the regulatory network in the scion dwarfing with 'Nan-tong-xiao-fang-shi' as interstocks was identified. Using a yeast one-hybrid library screening, luciferase activity analysis, luciferase complementation imaging assays and GFP signal detection, a SPL transcription factor named Diospyros kaki SPL (DKSPL), potentially functioning as a transcriptional activator of the Diospyros kaki GA2ox1 (DKGA2ox1) gene, was identified as a key stimulating factor in the persimmon growth and development. The DKSPL was found in the nucleus, and might play a role in the transcriptional regulation system. A microRNA named miR171f_3 was identified, which might act as a negative regulator of Diospyros kaki SCR (DKSCR) in persimmon. The interactions between DKSCR and seven proteins were experimentally validated with a yeast two-hybrid library screening. Compared to the non-grafted wildtype persimmon, the tissue section of graft union healed well due to the increased expression of cinnamyl-alcohol dehydrogenase. These results indicate that DKGA2ox1 and miR171f_3 may co-promote the scion dwarfing by plant hormone signal transduction pathways.
MAIN CONCLUSION: High-throughput sequencing and yeast one and two-hybrid library screening reveal that DKGA2ox1 and miR171f_3 are involved in the regulation of scion dwarfing with 'Nan-tong-xiao-fang-shi' as interstocks. Diospyros kaki Thunb. cv. Nan-tong-xiao-fang-shi ('Nan-tong-xiao-fang-shi') interstocks play a critical role in the scion dwarfing. However, the understanding of the molecular signaling pathways that regulate the scion dwarfing with 'Nan-tong-xiao-fang-shi' as interstocks remain unclear. In this work, the regulatory network in the scion dwarfing with 'Nan-tong-xiao-fang-shi' as interstocks was identified. Using a yeast one-hybrid library screening, luciferase activity analysis, luciferase complementation imaging assays and GFP signal detection, a SPL transcription factor named Diospyros kaki SPL (DKSPL), potentially functioning as a transcriptional activator of the Diospyros kaki GA2ox1 (DKGA2ox1) gene, was identified as a key stimulating factor in the persimmon growth and development. The DKSPL was found in the nucleus, and might play a role in the transcriptional regulation system. A microRNA named miR171f_3 was identified, which might act as a negative regulator of Diospyros kaki SCR (DKSCR) in persimmon. The interactions between DKSCR and seven proteins were experimentally validated with a yeast two-hybrid library screening. Compared to the non-grafted wildtype persimmon, the tissue section of graft union healed well due to the increased expression of cinnamyl-alcohol dehydrogenase. These results indicate that DKGA2ox1 and miR171f_3 may co-promote the scion dwarfing by plant hormone signal transduction pathways.
Authors: Victor B Busov; Richard Meilan; David W Pearce; Caiping Ma; Stewart B Rood; Steven H Strauss Journal: Plant Physiol Date: 2003-07 Impact factor: 8.340