The effect of auxin and strigolactone on ATP/ADP isopentenyltransferase expression and the regulation of apical dominance in peach
文献类型: 外文期刊
第一作者: Li, MinJi
作者: Li, MinJi;Wei, Qinping;Xiao, Yuansong;Peng, FuTian
作者机构:
关键词: Apical dominance; Cytokinin; Auxin; Strigolactone; Isopentenyltransferase; Peach
期刊名称:PLANT CELL REPORTS ( 影响因子:4.57; 五年影响因子:4.463 )
ISSN: 0721-7714
年卷期: 2018 年 37 卷 12 期
页码:
收录情况: SCI
摘要: Key messageWe confirmed the roles of auxin, CK, and strigolactones in apical dominance in peach and established a model of plant hormonal control of apical dominance in peach.AbstractAuxin, cytokinin, and strigolactone play important roles in apical dominance. In this study, we analyzed the effect of auxin and strigolactone on the expression of ATP/ADP isopentenyltransferase (IPT) genes (key cytokinin biosynthesis genes) and the regulation of apical dominance in peach. After decapitation, the expression levels of PpIPT1, PpIPT3, and PpIPT5a in nodal stems sharply increased. This observation is consistent with the changes in tZ-type and iP-type cytokinin levels in nodal stems and axillary buds observed after treatment; these changes are required to promote the outgrowth of axillary buds in peach. These results suggest that ATP/ADP PpIPT genes in nodal stems are key genes for cytokinin biosynthesis, as they promote the outgrowth of axillary buds. We also found that auxin and strigolactone inhibited the outgrowth of axillary buds. After decapitation, IAA treatment inhibited the expression of ATP/ADP PpIPTs in nodal stems to impede the increase in cytokinin levels. By contrast, after GR24 (GR24 strigolactone) treatment, the expression of ATP/ADP IPT genes and cytokinin levels still increased markedly, but the rate of increase in gene expression was markedly lower than that observed after decapitation in the absence of IAA (indole-3-acetic acid) treatment. In addition, GR24 inhibited basipetal auxin transport at the nodes (by limiting the expression of PpPIN1a in nodal stems), thereby inhibiting ATP/ADP PpIPT expression in nodal stems. Therefore, strigolactone inhibits the outgrowth of axillary buds in peach only when terminal buds are present.
分类号:
- 相关文献
作者其他论文 更多>>
-
Identification of the Na+ transporter gene MdNCL4 in response to high salinity stress in apple rootstock (Malus domestica (Suckow) Borkh.)
作者:Guo, Xinxin;Shi, Tianle;Zhou, Jia;Yang, Yuzhang;Li, Minji;Zhang, Junke;Li, Xingliang;Guo, Xinxin;Shi, Tianle;Zhou, Jia;Yang, Yuzhang;Li, Minji;Zhang, Junke;Li, Xingliang
关键词:Apple; salt stress; Na+ transport; gene expression; Na+/Ca2+ exchanger
-
Anion Bridged One-Dimensional Copper-Based Metal Organic Frameworks as Peroxidase Mimics for Glucose Detection in Apple Fruits
作者:Yang, Yuzhang;Li, Minji;Li, Xingliang;Zhou, Jia;Wei, Qinping;Zhang, Junke;Gong, Yunqian
关键词:copper-based; enzyme mimics; fruit quality; glucose detection; metal organic framework; peroxidase-like property
-
Effects of Valine and Urea on Carbon and Nitrogen Accumulation and Lignin Content in Peach Trees
作者:Sun, Maoxiang;Li, Suhong;Yu, Haixiang;Zhang, Binbin;Liu, Guangyuan;Xiao, Yuansong;Peng, Futian;Gong, Qingtao
关键词:valine; new shoots; lignin; ammonium nitrogen; nitrate nitrogen; carbon and nitrogen metabolism
-
Quantitative Analysis of Relationship Between Fruit Quality of 'Fuji' Apple and Environmental Factors: A Case Study of the Loess Plateau Production Region
作者:Zhang, Qiang;Li, Minji;Zhou, Beibei;Zhang, Junke;Wei, Qinping;Zhang, Qiang;Li, Minji;Zhou, Beibei;Zhang, Junke;Wei, Qinping;Zhang, Qiang;Li, Minji;Zhou, Beibei;Zhang, Junke;Wei, Qinping
关键词:Fruit quality traits; Soil nutrition; Meteorological factors; Model effects; Quantitative relationship
-
Transcriptional and metabolic responses of apple to different potassium environments
作者:Sun, Tingting;Zhang, Junke;Zhang, Qiang;Li, Xingliang;Li, Minji;Yang, Yuzhang;Zhou, Jia;Wei, Qinping;Zhou, Beibei;Sun, Tingting
关键词:apple; potassium deficiency; potassium excess; transcriptome analysis; metabolome analysis
-
Leucine Contributes to Copper Stress Tolerance in Peach (Prunus persica) Seedlings by Enhancing Photosynthesis and the Antioxidant Defense System
作者:Sun, Maoxiang;Li, Suhong;Xiao, Yuansong;Peng, Futian;Gong, Qingtao
关键词:antioxidant systems; Cu stress; leucine; nitrogen metabolism; peach
-
Methylome and transcriptome analyses of three different degrees of albinism in apple seedlings
作者:Sun, Tingting;Zhang, Junke;Zhang, Qiang;Li, Xingliang;Li, Minji;Yang, Yuzhang;Zhou, Jia;Wei, Qinping;Zhou, Beibei
关键词:Apple; Chlorophyll-deficient mutations; Methylation; Transcriptomes; Leaf colour
