Ling Wu scite author profile

Ling Wu

5Publications

168Citation Statements Received

106Citation Statements Given

How they've been cited

243

160

How they cite others

209

Affiliations

Jiangsu Academy of Agricultural Sciences, Nanjing Forestry University, Hainan Medical University

Publications

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Research Progress on Plant Long Non-Coding RNA

Liu

et al. 2020

Plants

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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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The peu‐miR160a−PeARF17.1/PeARF17.2 module participates in the adventitious root development of poplar

Liu

Yang

et al. 2019

Plant Biotechnology Journal

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SummaryDeep roots give rise to flourishing leaves, and the two complement each other. However, the genetic mechanisms underlying adventitious rooting for forest trees have remained elusive. In this study, we verified that peu‐miR160a targets six poplar genes AUXIN RESPONSE FACTORS (ARFs), PeARF10.1, PeARF16.1, PeARF16.2, PeARF16.3, PeARF17.1 and PeARF17.2, using 5’RLM‐RACE. Interaction experiments with peu‐miR160a and PeARFs in poplar protoplasts further confirmed that peu‐miR160a targets and negatively regulates the six PeARFs. Peu‐miR160a and its target genes exhibited obvious temporal expression in different stages of adventitious root development, and they could also be induced by IAA and abscisic acid. Peu‐miR160a‐overexpressing lines exhibited a significant shortening of adventitious root length, an increase in the number of lateral roots, severe dwarfing and shortened internodes. In addition, the overexpression of PeARF17.1 or mPeARF17.2 (peu‐miR160a‐resistant version of PeARF17.2) significantly increased the number of adventitious roots. Furthermore, PeARF17.1‐overexpressing lines had multiple branches with no visible trunk, although the adventitious root length of the PeARF17.1‐overexpressing lines was significantly increased. Our findings reveal that the peu‐miR160a − PeARF17.1/PeARF17.2 module is an important regulator involved in the development of the adventitious roots of poplar.

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Reasons for the increasing incidence of macrosomia in Harbin, China

Bao¹,

Zhou²,

Jiang³

et al. 2010

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A population-based retrospective study was conducted in Harbin, China. The medical records of 13 711 singleton infants born between 2001 and 2005 in 16 hospitals were reviewed. The incidence of macrosomia (birthweight ‡4000 g) was found to have increased from 8.31% in 2001 to 10.50% in 2005. Over this period, the ponderal index decreased and birth length increased in infants with macrosomia. In a multivariate analysis, risk factors for delivery of a newborn with macrosomia were found to be high prepartal body mass index (BMI), maternal height ‡165 cm, male gender of the newborn, gestational age of 40-41.9 weeks, maternal age ‡30 years and a maternal diagnosis of hypertension. The increase in the incidence of macrosomia in Harbin was attributable to increases in maternal prepartal BMI, height and age in the population.

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New Crosslinked Hyaluronan Gel for the Prevention of Intrauterine Adhesions after Dilation and Curettage in Patients with Delayed Miscarriage: A Prospective, Multicenter, Randomized, Controlled Trial

Zhou

et al. 2019

Journal of Minimally Invasive Gynecology

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Ling Wu

Research Progress on Plant Long Non-Coding RNA

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

The peu‐miR160a−PeARF17.1/PeARF17.2 module participates in the adventitious root development of poplar

Reasons for the increasing incidence of macrosomia in Harbin, China

New Crosslinked Hyaluronan Gel for the Prevention of Intrauterine Adhesions after Dilation and Curettage in Patients with Delayed Miscarriage: A Prospective, Multicenter, Randomized, Controlled Trial

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