生物
花序
MADS箱
分生组织
菊花
基因
植物
转基因
遗传学
同源盒
拟南芥
基因表达
突变体
作者
Kunkun Zhao,Diwen Jia,Xue Zhang,Song Li,Jiangshuo Su,Jiafu Jiang,Sumei Chen,Fadi Chen,Lian Ding
出处
期刊:Plant Science
[Elsevier BV]
日期:2023-09-07
卷期号:336: 111863-111863
被引量:6
标识
DOI:10.1016/j.plantsci.2023.111863
摘要
Flowering time and floret numbers are important ornamental characteristics of chrysanthemums that control their adaptability and inflorescence morphology, respectively. The FRUITFULL (FUL) gene plays a key role in inducing flowering and inflorescence meristem development. In this study, we isolated a homolog of the MADS-box gene FUL, CmFUL-Like 1 (CmFL1), from chrysanthemum inflorescence buds. Quantitative RT-PCR and in situ analyses showed that CmFL1 was strongly expressed in young inflorescence buds. Overexpression of CmFL1 caused early flowering while co-suppression expression of CmFL1 increased the number of florets. Furthermore, the floral promoting factors CmSOC1, CmFDL1, and CmLFY were up-regulated in the shoot tips of transgenic plants. In addition, RNA-seq analysis of the transgenic plants suggested that certain differentially expressed genes (DEGs)-such as MADS-box, homeobox family, and ethylene pathway genes-may be involved in the inflorescence meristem development. GO pathway enrichment analysis showed that the differentially transcribed genes enriched the representation of the carbohydrate metabolic pathway, which is critical for flower development. Overall, our findings revealed the conserved function of CmFL1 in controlling flowering time along with a novel function in regulating the number of florets.
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