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Small RNA sequencing revealed various microRNAs involved in ethylene-triggered flowering process in Aechmea fasciata.


ABSTRACT: Ethylene-triggered flowering is a common phenomenon in plants of the family Bromeliaceae, but its molecular mechanism remains unclear. As a classical group of small RNAs, microRNAs play an essential role in the regulation of flowering. In this study, we found that various miRNAs participate in the ethylene-triggered flowering process in Aechmea fasciata via small RNA sequencing using juvenile and adult plants treated with ethylene for 24?hours. Finally, 63 known miRNAs, 52 novel miRNAs and 1721 target genes were identified or predicted. Expression changes of specific miRNAs were validated by qRT-PCR and northern blotting. Some predicted targets, including SPL, GAMYB and ARF, were verified in RLM-RACE experiments. Gene Ontology (GO) and KEGG analysis showed that numerous developmental and RNA-related processes were enriched. Integrated analysis of the transcriptomic data with small RNA sequencing revealed that numerous miRNAs and targets involved in ethylene-triggered flowering in A. fasciata. Our study is helpful for illuminating the molecular basis of the ethylene-triggered flowering phenomenon in Bromeliaceae.

SUBMITTER: Ding Y 

PROVIDER: S-EPMC7193560 | biostudies-literature | 2020 Apr

REPOSITORIES: biostudies-literature

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Small RNA sequencing revealed various microRNAs involved in ethylene-triggered flowering process in Aechmea fasciata.

Ding Yuanhao Y   Wang Jiabin J   Lei Ming M   Li Zhiying Z   Jing Yonglin Y   Hu Haiyan H   Zhu Sitao S   Xu Li L  

Scientific reports 20200430 1


Ethylene-triggered flowering is a common phenomenon in plants of the family Bromeliaceae, but its molecular mechanism remains unclear. As a classical group of small RNAs, microRNAs play an essential role in the regulation of flowering. In this study, we found that various miRNAs participate in the ethylene-triggered flowering process in Aechmea fasciata via small RNA sequencing using juvenile and adult plants treated with ethylene for 24 hours. Finally, 63 known miRNAs, 52 novel miRNAs and 1721  ...[more]

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