Non-photoperiodic transition of female cannabis seedlings from juvenile to adult reproductive stage.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Ben Spitzer-Rimon, Hadas Shafran-Tomer, Gilad H Gottlieb, Adi Doron-Faigenboim, Hanita Zemach, Rina Kamenetsky-Goldstein, Moshe Flaishman
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引用次数: 6

Abstract

Key message: Vegetative-to-reproductive phase transition in female cannabis seedlings occurs autonomously with the de novo development of single flowers. To ensure successful sexual reproduction, many plant species originating from seedlings undergo juvenile-to-adult transition. This phase transition precedes and enables the vegetative-to-reproductive shift in plants, upon perception of internal and/or external signals such as temperature, photoperiod, metabolite levels, and phytohormones. This study demonstrates that the juvenile seedlings of cannabis gradually shift to the adult vegetative stage, as confirmed by the formation of lobed leaves, and upregulation of the phase-transition genes. In the tested cultivar, the switch to the reproductive stage occurs with the development of a pair of single flowers in the 7th node. Histological analysis indicated that transition to the reproductive stage is accomplished by the de novo establishment of new flower meristems which are not present in a vegetative stage, or as dormant meristems at nodes 4 and 6. Moreover, there were dramatic changes in the transcriptomic profile of flowering-related genes among nodes 4, 6, and 7. Downregulation of flowering repressors and an intense increase in the transcription of phase transition-related genes occur in parallel with an increase in the transcription of flowering integrators and meristem identity genes. These results support and provide molecular evidence for previous findings that cannabis possesses an autonomous flowering mechanism and the transition to reproductive phase is controlled in this plant mainly by internal signals.

Abstract Image

大麻雌苗从幼苗到成虫生殖期的非光周期转变。
关键信息:大麻雌性幼苗的营养到生殖阶段的转变是随着单花的重新发育而自主发生的。为了确保有性繁殖的成功,许多植物物种起源于幼苗,经历了幼年到成年的转变。在感知内部和/或外部信号(如温度、光周期、代谢物水平和植物激素)的基础上,这种相变先于并使植物从营养到生殖的转变成为可能。本研究表明,大麻幼苗逐渐过渡到成年营养阶段,这可以通过叶片的裂片形成和过渡期基因的上调来证实。在被试品种中,随着第7节一对单花的发育,进入繁殖阶段。组织学分析表明,向生殖阶段的过渡是通过重新建立新的花分生组织来完成的,这些分生组织在营养阶段不存在,或者在节4和节6上作为休眠的分生组织。此外,4、6和7个节点开花相关基因的转录组谱也发生了显著变化。开花抑制因子的下调和相变相关基因转录的强烈增加与开花整合子和分生组织认同基因转录的增加同时发生。这些结果支持并提供了分子证据,证明大麻具有自主开花机制,其向生殖阶段的过渡主要由内部信号控制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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