Genome-wide identification of microRNAs involved in the somatic embryogenesis of Eucalyptus

Author:

Qin Zihai1,Li Junji1,Zhang Ye1,Xiao Yufei1,Zhang Xiaoning1,Zhong Lianxiang1,Liu Hailong1,Chen Bowen1ORCID

Affiliation:

1. Guangxi Key Laboratory of Superior Timber Trees Resource Cultivation, Guangxi Forestry Research Institute, Nanning 530002, China

Abstract

Abstract MicroRNAs (miRNAs) are small noncoding RNAs (18–24 nt) and function in many biological processes in plants. Although Eucalyptus trees are widely planted across the world, our understanding of the miRNA regulation in the somatic embryogenesis (SE) of Eucalyptus is still poor. Here we reported, for the first time, the miRNA profiles of differentiated and dedifferentiated tissues of two Eucalyptus species and identified miRNAs involved in SE of Eucalyptus. Stem and tissue culture–induced callus were obtained from the subculture seedlings of E. camaldulensis and E. grandis x urophylla and were used as differentiated and dedifferentiated samples, respectively. Small RNA sequencing generated 304.2 million clean reads for the Eucalyptus samples (n = 3) and identified 888 miRNA precursors (197 known and 691 novel) for Eucalyptus. These miRNAs were mainly distributed in chromosomes Chr03, Chr05, and Chr08 and can produce 46 miRNA clusters. Then, we identified 327 and 343 differentially expressed miRNAs (DEmiRs) in the dedifferentiation process of E. camaldulensis and E. grandis x urophylla, respectively. DEmiRs shared by the two Eucalyptus species might be involved in the development of embryonic callus, such as MIR156, MIR159, MIR160, MIR164, MIR166, MIR169, MIR171, MIR399, and MIR482. Notably, we identified 81 upregulated and 67 downregulated miRNAs specific to E. camaldulensis, which might be associated with the high embryogenic potential. Target prediction and functional analysis showed that they might be involved in longevity regulating and plant hormone signal transduction pathways. Further, using the gene expression profiles, we observed the negative regulation of miRNA–target pairs, such as MIR160~ARF18, MIR396~GRF6, MIR166~ATHB15/HD-ZIP, and MIR156/MIR157~SPL1. Interestingly, transcription factors such as WRKY, MYB, GAMYB, TCP4, and PIL1 were found to be regulated by the DEmiRs. The genes encoding PIL1 and RPS21C, regulated by upregulated miRNAs (e.g., egd-N-miR63-5p, egd-N-miR63-5p, and MIR169,) were downregulated exclusively in the dedifferentiation of E. camaldulensis. This is the first time to study the miRNA regulation in the dedifferentiation process of Eucalyptus and it will provide a valuable resource for future studies. More importantly, it will improve our understanding of miRNA regulation during the somatic embryogenesis of Eucalyptus and benefit the Eucalyptus breeding program.

Funder

Guangxi Science and Technology Program

Guangxi Forestry Science and Technology Project

National Natural Science Foundation of China

Department of Human Resources and Social Security of Guangxi Zhuang Autonomous Region

Publisher

Oxford University Press (OUP)

Subject

Genetics (clinical),Genetics,Molecular Biology

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