Haoran Qi scite author profile

Non-coding RNAs (ncRNAs) that were once considered “dark matter” or “transcriptional noise” in genomes are research hotspots in the field of epigenetics. The most well-known microRNAs (miRNAs) are a class of short non-coding, small molecular weight RNAs with lengths of 20–24 nucleotides that are highly conserved throughout evolution. Through complementary pairing with the bases of target sites, target gene transcripts are cleaved and degraded, or translation is inhibited, thus regulating the growth and development of organisms. Unlike miRNAs, which have been studied thoroughly, long non-coding RNAs (lncRNAs) are a group of poorly conserved RNA molecules with a sequence length of more than 200 nucleotides and no protein encoding capability; they interact with large molecules, such as DNA, RNA, and proteins, and regulate protein modification, chromatin remodeling, protein functional activity, and RNA metabolism in vivo through cis- or trans-activation at the transcriptional, post-transcriptional, and epigenetic levels. Research on plant lncRNAs is just beginning and has gradually emerged in the field of plant molecular biology. Currently, some studies have revealed that lncRNAs are extensively involved in plant growth and development and stress response processes by mediating the transmission and expression of genetic information. This paper systematically introduces lncRNA and its regulatory mechanisms, reviews the current status and progress of lncRNA research in plants, summarizes the main techniques and strategies of lncRNA research in recent years, and discusses existing problems and prospects, in order to provide ideas for further exploration and verification of the specific evolution of plant lncRNAs and their biological functions.

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LncRNA/circRNA–miRNA–mRNA networks regulate the development of root and shoot meristems of Populus

Liu

et al. 2019

Industrial Crops and Products

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MiRNA-target pairs regulate adventitious rooting in Populus: a functional role for miR167a and its target Auxin response factor 8

Cai

Yang

Liu

et al. 2019

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The ability of a plant to form roots from its non-root tissues is ecologically advantageous during rapid adaptation to a changing environment. Although this biological phenomenon has been widely utilized for cuttings in many economically important agronomic and tree species, its genetic and developmental mechanisms have been poorly understood. In this study, we conducted an association analysis of small RNAs, the degradome and the transcriptome of adventitious rooting in poplar softwood cuttings, which revealed that 373 miRNA-target pairs were detected. Of these, 72 significantly differentially expressed targets were screened as likely to modulate adventitious root (AR) development, in conjunction with plant hormone signal transduction. Poplar miR167a and its targets PeARF6s and PeARF8s were subjected to functional verification of their ability to mediate plant growth and hormone signal transduction. Overexpression of miR167a inhibited target transcripts and improved lateral root (LR) development in poplar, while overexpressing PeARF8.1mut increased AR numbers and slightly inhibited LR development. Taken together, these results suggest that miR167a-PeARF8.1 modules play crucial roles in regulating AR and LR development in poplar and improve the adaptation of poplar to more complex environments.

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The chromosome‐level genome sequence of the camphor tree provides insights into Lauraceae evolution and terpene biosynthesis

Shen

Luan

et al. 2021

Plant Biotechnology Journal

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Uncovering miRNA-mRNA Regulatory Modules in Developing Xylem of Pinus massoniana via Small RNA and Degradome Sequencing

Shen

et al. 2021

IJMS

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Xylem is required for the growth and development of higher plants to provide water and mineral elements. The thickening of the xylem secondary cell wall (SCW) not only improves plant survival, but also provides raw materials for industrial production. Numerous studies have found that transcription factors and non-coding RNAs regulate the process of SCW thickening. Pinus massoniana is an important woody tree species in China and is widely used to produce materials for construction, furniture, and packaging. However, the target genes of microRNAs (miRNAs) in the developing xylem of P. massoniana are not known. In this study, a total of 25 conserved miRNAs and 173 novel miRNAs were identified via small RNA sequencing, and 58 differentially expressed miRNAs were identified between the developing xylem (PM_X) and protoplasts isolated from the developing xylem (PM_XP); 26 of these miRNAs were significantly up-regulated in PM_XP compared with PM_X, and 32 were significantly down-regulated. A total of 153 target genes of 20 conserved miRNAs and 712 target genes of 113 novel miRNAs were verified by degradome sequencing. There may be conserved miRNA-mRNA modules (miRNA-MYB, miRNA-ARF, and miRNA-LAC) involved in softwood and hardwood formation. The results of qRT-PCR-based parallel validation were in relatively high agreement. This study explored the potential regulatory network of miRNAs in the developing xylem of P. massoniana and provides new insights into wood formation in coniferous species.

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Identification and Expression Analysis of PeWOX5 and PeWOX13 Genes in Hybrid Poplar

Liu

Fan

et al. 2018

Russ J Plant Physiol

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Protoplast isolation and transcriptome analysis of developing xylem in Pinus massoniana (Pinaceae)

Shen

et al. 2021

Mol Biol Rep

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Overexpression of the long non-coding RNA lncWOX5 negatively regulates the development of adventitious roots in Populus

Shen

et al. 2023

Industrial Crops and Products

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Haoran Qi

Research Progress on Plant Long Non-Coding RNA

LncRNA/circRNA–miRNA–mRNA networks regulate the development of root and shoot meristems of Populus

MiRNA-target pairs regulate adventitious rooting in Populus: a functional role for miR167a and its target Auxin response factor 8

The chromosome‐level genome sequence of the camphor tree provides insights into Lauraceae evolution and terpene biosynthesis

Uncovering miRNA-mRNA Regulatory Modules in Developing Xylem of Pinus massoniana via Small RNA and Degradome Sequencing

Identification and Expression Analysis of PeWOX5 and PeWOX13 Genes in Hybrid Poplar

Protoplast isolation and transcriptome analysis of developing xylem in Pinus massoniana (Pinaceae)

Overexpression of the long non-coding RNA lncWOX5 negatively regulates the development of adventitious roots in Populus

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