Ecdysis triggering hormone peptide in the African malaria mosquito <i>Anopheles gambiae</i>: The peptide structure for receptor activation

Dembele, Hawa; Mating, Moritz; Singh, Rupinder; Fatehi, Soheila; Herrera, Alvaro I.; Park, Yoonseong; Prakash, Om

doi:10.1111/1744-7917.13004

Cited by 3 publications

(4 citation statements)

References 33 publications

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“…141 Furthermore, the well-identified insect neuropeptideergic system offers potential targets to control insect vectors. 142 It has been previously shown that residues 65−80 in HsSulf A, which includes the critical Cys at position 69, are essential for the interaction between HsSulf and HsSumf1 under in vitro microsome conditions. 143 Moreover, single or multiple amino acid mutational analyses on peptides-derived from HsSulfs demonstrated that a core motif, pentapeptide CXPSR (X stands for any amino acid), were crucial for the recognition of eukaryotic sulfatases by HsSumf1.…”

Section: Journal Of Agricultural and Food Chemistry Pubsacsorg/jafcmentioning

confidence: 99%

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New Insights into the Plutella xylostella Detoxifying Enzymes: Sequence Evolution, Structural Similarity, Functional Diversity, and Application Prospects of Glucosinolate Sulfatases

Chen

Amir

Yuan

et al. 2023

J. Agric. Food Chem.

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Brassica plants have glucosinolate (GLs)-myrosinase defense mechanisms to deter herbivores. However, Plutella xylostella specifically feeds on Brassica vegetables. The larvae possess three glucosinolate sulfatases (PxGSS1−3) that compete with plant myrosinase for shared GLs substrates and produce nontoxic desulfo-GLs (deGLs). Although PxGSSs are considered potential targets for pest control, the lack of a comprehensive review has hindered the development of PxGSSs-targeted pest control methods. Recent advances in integrative multi-omics analysis, substrate-enzyme kinetics, and molecular biological techniques have elucidated the evolutionary origin and functional diversity of these three PxGSSs. This review summarizes research progress on PxGSSs over the past 20 years, covering sequence properties, evolution, protein modification, enzyme activity, structural variation, substrate specificity, and interaction scenarios based on functional diversity. Finally, we discussed the potential applications of PxGSSstargeted pest control technologies driven by artificial intelligence, including CRISPR/Cas9-mediated gene drive, transgenic plantmediated RNAi, small-molecule inhibitors, and peptide inhibitors. These technologies have the potential to overcome current management challenges and promote the development and field application of PxGSSs-targeted pest control.

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Section: Journal Of Agricultural and Food Chemistry Pubsacsorg/jafcmentioning

confidence: 99%

“…Subsequently, their roles expanded to encompass various development, morphogenesis, and reproduction aspects . Furthermore, the well-identified insect neuropeptideergic system offers potential targets to control insect vectors …”

Section: Application Prospects For P Xylostella By Targeting the Pxgs...mentioning

confidence: 99%

New Insights into the Plutella xylostella Detoxifying Enzymes: Sequence Evolution, Structural Similarity, Functional Diversity, and Application Prospects of Glucosinolate Sulfatases

Chen

Amir

Yuan

et al. 2023

J. Agric. Food Chem.

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“…Ecdysis triggering hormone (ETH) was first discovered and located in the tracheal epithelial gland of Manduca sexta (Lepidoptera: Sphingidae) (Žitňan et al, 1996) and affects physiological functions upon binding to its receptors (Dembele et al, 2022; Park et al, 2003). Currently, ETH has been identified and is associated with moulting in insects, including Lepidoptera (Žitňan et al, 2002), Diptera (Park et al, 2002; Shi et al, 2017), Coleoptera (Arakane et al, 2008), Hemiptera (Roller et al, 2010), Hymenoptera (Roller et al, 2010), and Orthoptera (Lenaerts et al, 2017), as well as in Arachnida (Zhu et al, 2019) and crustaceans (Nhut et al, 2020).…”

Section: Introductionmentioning

confidence: 99%

The ecdysis triggering hormone system is essential for reproductive success in Mythimna separata (Walker)

Yang

et al. 2022

Insect Molecular Biology

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Ecdysis triggering hormone (ETH) was originally discovered as a key hormone that regulates insect moulting via binding to its receptor, ETH receptor (ETHR). However, the precise role of ETH in moth reproduction remains to be explored in detail. ETH function was verified in vivo using Mythimna separata (Walker), an important cereal crop pest. RT‐qPCR analysis revealed that transcriptional expression profiles of MsepETH showed evident sexual dimorphism in the adult stage. MsepETH expression increased in the females on day 3 and persisted thereafter till day 7, consistent with female ovarian maturation, and was merely detectable in males. Meanwhile, MsepETH expression levels were significantly higher in the trachea than in other tissues. MsepETHR‐A and MsepETHR‐B were expressed in both sexes and were significantly higher in the antennae than in other tissues. MsepETH and MsepETHR knockdown in females by RNA interference significantly reduced the expression of MsepETH, MsepETHR‐A, MsepETHR‐B, MsepJHAMT, and MsepVG, which delayed egg‐laying and significantly reduced egg production. RNAi 20‐hydroxyecdysone (20E) receptor (EcR) decreased MsepETH expression whereas injecting 20E restored egg production that had been disrupted by MsepETH interference. Meanwhile, RNAi juvenile hormone (JH) methoprene tolerant protein (Met) also decreased MsepETH expression and smearing JH analog methoprene (Meth) restored egg production. In conclusion, the reproduction roles of ETH, JH, and 20E were investigated in M. separata. These findings will lay the foundation for future research to develop an antagonist that reduces female reproduction and control strategies for pest insects.

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“…As a result, time-consuming methods for molecular prediction, such as nuclear magnetic resonance (NMR), can be replaced by such machine learning-based approaches. Nevertheless, for complex interactions in and between large macromolecules, such as the interaction between RNA and proteins and in-between proteins, experimental techniques, including but not limited to NMR and X-Ray crystallography, can be applied [28,29]. These laboratory techniques are also the basis for a commonly used approach for structural prediction based on homology modeling.…”

Section: Introductionmentioning

confidence: 99%

The Active Site of the Enzyme 10-Formyl-THFDH in the Honey Bee Apis mellifera—A Key Player in Formic Acid Detoxification

Mating

Zou

Sharbati

et al. 2022

IJMS

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Honey bees are important managed pollinators that fulfill important ecological and economic functions. In recent decades, the obligate ectoparasite Varroa destructor severely affected the survival of honey bees, as it weakened them by different means. A common treatment against V. destructor is formic acid fumigation, which has been used for decades by beekeepers across the world. This treatment is known to be effective, but many beekeepers report adverse effects of formic acid on bees, which include damage to the brood, worker bee mortality, and queen loss. Little is known about the molecular mechanisms of formic acid detoxification in honey bees. Recently, we reported upregulation of the bee enzyme, 10-formyl-THFDH, under formic acid fumigation. Here, the active site of this enzyme is characterized by an interdisciplinary approach combining homology modeling and protein mutagenesis. In addition, the limitations of the 3D protein structure prediction program AlphaFold2 are shown in regard to docking studies. This study provides a more thorough understanding of the molecular detoxification mechanisms of formic acid in Apis mellifera.

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Ecdysis triggering hormone peptide in the African malaria mosquito Anopheles gambiae: The peptide structure for receptor activation

Cited by 3 publications

References 33 publications

New Insights into the Plutella xylostella Detoxifying Enzymes: Sequence Evolution, Structural Similarity, Functional Diversity, and Application Prospects of Glucosinolate Sulfatases

New Insights into the Plutella xylostella Detoxifying Enzymes: Sequence Evolution, Structural Similarity, Functional Diversity, and Application Prospects of Glucosinolate Sulfatases

The ecdysis triggering hormone system is essential for reproductive success in Mythimna separata (Walker)

The Active Site of the Enzyme 10-Formyl-THFDH in the Honey Bee Apis mellifera—A Key Player in Formic Acid Detoxification

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