Chitin synthase 1 gene and its two alternative splicing variants from two sap-sucking insects, Nilaparvata lugens and Laodelphax striatellus (Hemiptera: Delphacidae)

Wang, Ying; Fan, Hai-Wei; Huang, Hai‐Jian; Xue, Jian; Wu, Wenjuan; Bao, Yan-Yuan; Xu, Haijun; Zhu, Zhiliang; Cheng, Jiaan; Zhang, Chuan‐Xi

doi:10.1016/j.ibmb.2012.04.009

Cited by 120 publications

(133 citation statements)

References 46 publications

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“…NlCHS1 have two transcripts CHS1a and CHS1b (Supplemental Fig. S1)38, and the mRNA levels of CHS1a and CHS1b decreased significantly ( p < 0.05) at 48 h and 72 h after dsTREs injection (Fig. 7L,M).…”

Section: Resultsmentioning

confidence: 97%

“…However, moulting deformities, wing deformities, or failure of the old cuticle to break down were common in most species42. These phenotypes resulted from the silencing of genes involved in the chitin biosynthesis pathway or chitin degradation-related genes, including CHS 30333866, Cht 36, chitin deacetylase gene3440, and β-N-acetylhexosaminidase gene41. Except for defaults in chitin metabolism, TRE silencing in Drosophila leads to loss of the lamina and reduction of the medulla67.…”

Section: Discussionmentioning

confidence: 99%

“…The hemimetabolous brown planthopper Nilaparvata lugens Stål (Hemiptera: Delphacidae) is one of the most destructive insect pests of rice that causes significant yield losses36. RNA interference (RNAi), which is a robust and powerful experimental tool, has been widely used to study gene functions through gene silencing34 in various piercing-sucking insects, including rice planthoppers3638394041. It has been reported that TRE regulates the expression of CHS in the cuticle and midgut of planthoppers, and the inhibition of chitin synthesis by suppressing or knocking down TRE leads to abnormal moulting and mortality.…”

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confidence: 99%

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Functional characterization of three trehalase genes regulating the chitin metabolism pathway in rice brown planthopper using RNA interference

Zhao

Yang

Shen

et al. 2016

Sci Rep

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RNA interference (RNAi) is an effective gene-silencing tool, and double stranded RNA (dsRNA) is considered a powerful strategy for gene function studies in insects. In the present study, we aimed to investigate the function of trehalase (TRE) genes (TRE 1-1, TRE 1-2, and TRE-2) isolated from the brown planthopper Nilaparvata lugens, a typical piercing-sucking insect in rice, and investigate their regulating roles in chitin synthesis by injecting larvae with dsRNA. The results showed that TRE1 and TRE2 had compensatory function, and the expression of each increased when the other was silenced. The total rate of insects with phenotypic deformities ranged from 19.83 to 24.36% after dsTRE injection, whereas the mortality rate ranged from 14.16 to 31.78%. The mRNA levels of genes involved in the chitin metabolism pathway in RNA-Seq and DGEP, namely hexokinase (HK), glucose-6-phosphate isomerase (G6PI) and chitinase (Cht), decreased significantly at 72 h after single dsTREs injection, whereas two transcripts of chitin synthase (CHS) genes decreased at 72 h after dsTRE1-1 and dsTREs injection. These results demonstrated that TRE silencing could affect the regulation of chitin biosynthesis and degradation, causing moulting deformities. Therefore, expression inhibitors of TREs might be effective tools for the control of planthoppers in rice.

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Section: Resultsmentioning

confidence: 97%

Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

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Functional characterization of three trehalase genes regulating the chitin metabolism pathway in rice brown planthopper using RNA interference

Zhao

Yang

Shen

et al. 2016

Sci Rep

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“…Silencing of coronatine insensitive 1 (COI1) in rice plants not only improved the defense responses in plants but also enlarged the N. lugens susceptibility of feeding the rice plants [113]. Silencing of chitin synthase (CHSI, CHS1a) showed results as elongated wing pads, crimpled cuticle phenotypes and also insect lethality, in which phenotypes were triggered by injection of CHS [101]. [112] reported that reporter genes which are involved in siRNA and miRNA pathways in brown planthoppers, the miRNA pathway showed brown plant hopper metamorphosis as weakening of Argonaute (AGO1) and Dicer (DCR-1) genes extensively and also showed a reduction of ecdysis.…”

Section: Planthoppersmentioning

confidence: 99%

Application of Virus-Derived Small Interfering RNAs (vsiRNAs) in Rice Viruses with Insect Vectors, Especially <em>Rice Grassy Stunt Virus</em>

Arif¹,

Islam²,

Adnan³

et al. 2017

Preprint

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“…Insects play important roles in human life and the function of environmental ecology. Three major rice planthoppers belonging to Hemiptera: Delphacidae are considered the most notorious crop pests within Asia: small brown planthopper ( Laodephax striatellus Fallén), brown planthopper ( Nilaparvata lugens Stål), and white-backed planthopper ( Sogatella furcifera Horvath) [13]–[15]. N. lugens and S. furcifera can cause loss of rice yield by sucking the phloem sap of rice, whereas L. striatellus can cause great damage to crops not only by direct feeding but also by transmitting plant viruses, such as rice stripe virus, rice black-streaked dwarf virus, maize rough dwarf virus, and wheat rosette virus [14], [16], [17].…”

Section: Introductionmentioning

confidence: 99%

Identification and Characterization of MicroRNAs in Small Brown Planthopper (Laodephax striatellus) by Next-Generation Sequencing

et al. 2014

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MicroRNAs (miRNAs) are endogenous non-coding small RNAs that regulate gene expression at the post-transcriptional level and are thought to play critical roles in many metabolic activities in eukaryotes. The small brown planthopper (Laodephax striatellus Fallén), one of the most destructive agricultural pests, causes great damage to crops including rice, wheat, and maize. However, information about the genome of L. striatellus is limited. In this study, a small RNA library was constructed from a mixed L. striatellus population and sequenced by Solexa sequencing technology. A total of 501 mature miRNAs were identified, including 227 conserved and 274 novel miRNAs belonging to 125 and 250 families, respectively. Sixty-nine conserved miRNAs that are included in 38 families are predicted to have an RNA secondary structure typically found in miRNAs. Many miRNAs were validated by stem-loop RT-PCR. Comparison with the miRNAs in 84 animal species from miRBase showed that the conserved miRNA families we identified are highly conserved in the Arthropoda phylum. Furthermore, miRanda predicted 2701 target genes for 378 miRNAs, which could be categorized into 52 functional groups annotated by gene ontology. The function of miRNA target genes was found to be very similar between conserved and novel miRNAs. This study of miRNAs in L. striatellus will provide new information and enhance the understanding of the role of miRNAs in the regulation of L. striatellus metabolism and development.

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Chitin synthase 1 gene and its two alternative splicing variants from two sap-sucking insects, Nilaparvata lugens and Laodelphax striatellus (Hemiptera: Delphacidae)

Cited by 120 publications

References 46 publications

Functional characterization of three trehalase genes regulating the chitin metabolism pathway in rice brown planthopper using RNA interference

Functional characterization of three trehalase genes regulating the chitin metabolism pathway in rice brown planthopper using RNA interference

Application of Virus-Derived Small Interfering RNAs (vsiRNAs) in Rice Viruses with Insect Vectors, Especially <em>Rice Grassy Stunt Virus</em>

Identification and Characterization of MicroRNAs in Small Brown Planthopper (Laodephax striatellus) by Next-Generation Sequencing

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