Transgenic insect-resistant Bt cotton expressing Cry1Ac/CpTI does not affect the mirid bug Apolygus lucorum

The mirid bug Apolygus lucorum Meyer-Dür, 1843, an omnivorous species that feeds on plants and animals, has become a major pest in China as production of Bt-cotton has grown to such a large scale. Its omnivory is likely to be critical for its success, but the digestive mechanism(s) underlying processing and adsorption of such diverse foods is relatively unknown. Here, we examined the activities of digestive enzymes of A. lucorum in the salivary gland complex and midgut and the effect of sex, age, and food source on these activities. Amylase and protease were present in the salivary gland complex and the midgut, but were higher in the salivary gland complex. Trypsin-like enzyme was also present in both organs, but chymotrypsin-like enzyme was present only in the midgut. Sex, age, and food source affected the activities of these digestive enzymes. In general, the activities of these enzymes peaked at 10 d after emergence, and amylase and protease activities were higher in female adults than in males. Of the food sources tested, green bean pods (Gb) induced the highest amylase activity, whereas Helicoverpa armigera Hübner, 1809 eggs (He) and a mixture of Gb and He induced higher activities of the trypsin-like and chymotrypsin-like enzymes. The results from food switching experiments confirmed that amylase activity could be induced by plant sources, and animal sources induced protease activity. Thus, the types and activities of digestive enzymes in A. lucorum provide the physiological basis of the pest’s omnivory.

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Sublethal and transgenerational effects of dinotefuran on biological parameters and behavioural traits of the mirid bug Apolygus lucorum

Scientific Reports ◽

10.1038/s41598-019-57098-z ◽

2020 ◽

Vol 10 (1) ◽

Cited By ~ 1

Author(s):

Zengbin Lu ◽

Song Dong ◽

Chao Li ◽

Lili Li ◽

Yi Yu ◽

...

Keyword(s):

Biological Parameters ◽

Transgenerational Effects ◽

Apolygus Lucorum ◽

Mirid Bug

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Impacts of transgenic Bt cotton on a non-target pest, Apolygus lucorum (Meyer-Dür) (Hemiptera: Miridae), in northern China

Crop Protection ◽

10.1016/j.cropro.2011.08.015 ◽

2011 ◽

Vol 30 (12) ◽

pp. 1573-1578 ◽

Cited By ~ 19

Author(s):

Guoping Li ◽

Hongqiang Feng ◽

Jeremy N. McNeil ◽

Bing Liu ◽

Peiyu Chen ◽

...

Keyword(s):

Northern China ◽

Bt Cotton ◽

Transgenic Bt Cotton ◽

Apolygus Lucorum

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The nuclear hormone receptor E75A regulates vitellogenin gene (Al-Vg ) expression in the mirid bug Apolygus lucorum

Insect Molecular Biology ◽

10.1111/imb.12365 ◽

2017 ◽

Vol 27 (2) ◽

pp. 188-197 ◽

Cited By ~ 1

Author(s):

Y.-A. Tan ◽

X.-D. Zhao ◽

Y. Sun ◽

D.-J. Hao ◽

J. Zhao ◽

...

Keyword(s):

Hormone Receptor ◽

Nuclear Hormone Receptor ◽

Apolygus Lucorum ◽

Vitellogenin Gene ◽

Mirid Bug

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The mirid bug Apolygus lucorum deploys a glutathione peroxidase as a candidate effector to enhance plant susceptibility

Journal of Experimental Botany ◽

10.1093/jxb/eraa015 ◽

2020 ◽

Vol 71 (9) ◽

pp. 2701-2712

Author(s):

Yumei Dong ◽

Maofeng Jing ◽

Danyu Shen ◽

Chenyang Wang ◽

Meiqian Zhang ◽

...

Keyword(s):

Cell Death ◽

Salivary Gland ◽

Glutathione Peroxidase ◽

Large Scale ◽

Plant Pathogens ◽

Molecular Mechanisms ◽

Mechanism Analysis ◽

Apolygus Lucorum ◽

Mirid Bug ◽

Plant Susceptibility

Abstract The mirid bug Apolygus lucorum has become a major agricultural pest since the large-scale cultivation of Bt-cotton. It was assumed that A. lucorum, similarly to other phloem sap insects, could secrete saliva that contains effector proteins into plant interfaces to perturb host cellular processes during feeding. However, the secreted effectors of A. lucorum are still uncharacterized and unstudied. In this study, 1878 putative secreted proteins were identified from the transcriptome of A. lucorum, which either had homology with published aphid effectors or shared common features with plant pathogens and insect effectors. One hundred and seventy-two candidate effectors were used for cell death-inducing/suppressing assays, and a putative salivary gland effector, Apolygus lucorum cell death inhibitor 6 (Al6), was characterized. The mRNAs of Al6 were enriched at feeding stages (nymph and adult) and, in particular, in salivary glands. Moreover, we revealed that the secreted Al6 encoded an active glutathione peroxidase that reduced reactive oxygen species (ROS) accumulation induced by INF1 or Flg22. Expression of the Al6 gene in planta altered insect feeding behavior and promoted plant pathogen infections. Inhibition of cell death and enhanced plant susceptibility to insect and pathogens are dependent on glutathione peroxidase activity of Al6. Thus, this study shows that a candidate salivary gland effector, Al6, functions as a glutathione peroxidase and suppresses ROS induced by pathogen-associated molecular pattern to inhibit pattern-triggered immunity (PTI)-induced cell death. The identification and molecular mechanism analysis of the Al6 candidate effector in A. lucorum will provide new insight into the molecular mechanisms of insect–plant interactions.

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Insecticide susceptibility of the green plant bug, Apolygus lucorum Meyer-Dür (Homoptera: Miridae) and two predatory arthropods

Journal of Plant Protection Research ◽

10.1515/jppr-2015-0048 ◽

2015 ◽

Vol 55 (4) ◽

pp. 362-370 ◽

Cited By ~ 4

Author(s):

Zhengqun Zhang ◽

Xuefeng Zhang ◽

Feng Liu ◽

Wei Mu

Keyword(s):

Green Plant ◽

Control Agent ◽

Toxicity Tests ◽

Generalist Predators ◽

Bt Cotton ◽

Alternative Control ◽

Selective Toxicity ◽

Apolygus Lucorum ◽

Relative Safety ◽

Control Chemical

Abstract The green plant bug (Apolygus lucorum Meyer-Dür) is a key pest of Bt cotton in China. Along with biological control, chemical control is one of the most important strategies in A. lucorum Integrated Pest Management (IPM). The goal of this study was to evaluate the toxicity of eight conventional insecticides to A. lucorum and to assess the susceptibility of two generalist predators Chrysopa sinica (Jieder) and Propylaea japonica (Thunbery) to insecticides that are commonly used in A. lucorum management. Via glass-vial and leaf-dip bioassay, toxicity tests with selected insecticides at two different life-stages of A. lucorum indicated significant differences between the LD50 or LC50 values for these compounds within different insecticidal classes. Phenylpyrazole fipronil had the highest toxicity to 4th-instar nymphs and adults of A. lucorum, whereas neonicotinoid imidacloprid had the lowest toxicity among the insecticides. Females were more tolerant to insecticides than were males, as shown by the higher LD50 values for females. Furthermore, laboratory tests showed that endosulfan had the highest selectivity to C. sinica and P. japonica: the selective toxicity ratios (STRs) were superior to other tested insecticides, particularly imidacloprid, and were 5.396 and 4.749-fold higher than baseline STRs, respectively. From this study, we conclude that fipronil can potentially be used to efficiently control A. lucorum. An alternative control agent worth consideration is endosulfan, owing to its relative safety to non-targeted natural enemies.

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