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细胞分裂素诱导圣彼得罗型无核白鸡心(Ficus carica L.)主果的单性结实:通过植物激素测定和转录组网络比较来解释。

Cytokinin-induced parthenocarpy of San Pedro type fig (Ficus carica L.) main crop: explained by phytohormone assay and transcriptomic network comparison.

机构信息

College of Horticulture, China Agricultural University, Beijing, People's Republic of China.

College of Food Science and Nutritional Engineering, China Agricultural University, Beijing, People's Republic of China.

出版信息

Plant Mol Biol. 2019 Mar;99(4-5):329-346. doi: 10.1007/s11103-019-00820-2. Epub 2019 Jan 17.

DOI:10.1007/s11103-019-00820-2
PMID:30656555
Abstract

CPPU-induced San Pedro type fig main crop parthenocarpy exhibited constantly increasing IAA content and more significantly enriched KEGG pathways in the receptacle than in female flowers. N-(2-chloro-4-pyridyl)-N-phenylurea (CPPU) was applied to San Pedro fig (Ficus carica L.) main crop to induce parthenocarpy; the optimal effect was obtained with 25 mg L application to syconia when female flowers were at anthesis. To elucidate the key expression changes in parthenocarpy conversion, significant changes in phytohormone level and transcriptome of fig female flowers and receptacles were monitored. HPLC-MS revealed increased IAA content in female flowers and receptacle 2, 4 and 10 days after treatment (DAT), decreased zeatin level in the receptacle 2, 4 and 10 DAT, decreased GA content 2 and 4 DAT, and increased GA content 10 DAT. ABA level increased 2 and 4 DAT, and decreased 10 DAT. CPPU-treated syconia released more ethylene than the control except 2 DAT. RNA-Seq and bioinformatics analysis revealed notably more differentially expressed KEGG pathways in the receptacle than in female flowers. In the phytohormone gene network, GA-biosynthesis genes GA20ox and GA3ox were upregulated, along with GA signal-transduction genes GID1 and GID2, and IAA-signaling genes AUX/IAA and GH3. ABA-biosynthesis gene NCED and signaling genes PP2C and ABF were downregulated 10 DAT. One ACO gene showed consistent upregulation in both female flowers and receptacle after CPPU treatment, and more than a dozen of ERFs demonstrated opposing changes in expression. Our results revealed early-stage spatiotemporal phytohormone and transcriptomic responses in CPPU-induced San Pedro fig main crop parthenocarpy, which could be valuable for further understanding the nature of the parthenocarpy of different fig types.

摘要

CPPU 诱导的圣佩德罗型无花果树主果部分结实表现出不断增加的 IAA 含量,并且在托盘中比在雌花中更显著地富集 KEGG 途径。N-(2-氯-4-吡啶基)-N-苯基脲(CPPU)被应用于圣佩德罗无花果树主果以诱导单性结实;当雌花处于开花期时,将 25mg L 的 CPPU 应用于榕果可获得最佳效果。为了阐明单性结实转化的关键表达变化,监测了无花果树雌花和托盘中植物激素水平和转录组的显著变化。HPLC-MS 显示,处理后 2、4 和 10 天(DAT),雌花和托盘中的 IAA 含量增加,托盘中的 zeatin 水平降低 2、4 和 10 DAT,GA 含量降低 2 和 4 DAT,GA 含量增加 10 DAT。ABA 水平在 2 和 4 DAT 增加,在 10 DAT 减少。除了 2 DAT 之外,CPPU 处理的榕果释放的乙烯比对照多。RNA-Seq 和生物信息学分析显示,托盘中差异表达的 KEGG 途径明显多于雌花。在植物激素基因网络中,GA 生物合成基因 GA20ox 和 GA3ox 上调,同时 GA 信号转导基因 GID1 和 GID2 以及 IAA 信号转导基因 AUX/IAA 和 GH3 上调。ABA 生物合成基因 NCED 和信号基因 PP2C 和 ABF 在 10 DAT 下调。在 CPPU 处理后,一种 ACO 基因在雌花和托盘中均表现出一致的上调,并且有十几个 ERF 表现出相反的表达变化。我们的研究结果揭示了 CPPU 诱导的圣佩德罗无花果树主果部分结实早期的时空植物激素和转录组响应,这对于进一步理解不同无花果树类型的单性结实性质可能具有重要意义。

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