Effect of host plants on the infectivity of nucleopolyhedrovirus to <i>Spodoptera exigua</i> larvae

Wan, Nian‐Feng; Jiang, Jie‐Xian; Li, B.

doi:10.1111/jen.12298

Cited by 22 publications

(33 citation statements)

References 29 publications

(36 reference statements)

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“…Spodoptera exigua multiple nucleopolyhedrovirus ('NPV' hereafter) is an important biocontrol agent of beet armyworm, and is able to cause epizootics in populations of this herbivore . In an earlier study, we measured the effects of 14 species of host plants on the susceptibility of beet armyworm to NPV, and found high susceptibility of caterpillars raised on a diet of soybeans ( Glycine max ), intermediate susceptibility of those fed collards ( Brassica oleracea ) and low susceptibility of those fed water convolvuluses ( Ipomoea aquatica ) . In the current study, we used these three plants together with an artificial diet to examine the mechanisms underlying viral effects on the immune response of beet armyworm to NPV.…”

Section: Introductionmentioning

confidence: 99%

Immunity of an insect herbivore to an entomovirus is affected by different host plants

Wang

Zhang

Siemann

et al. 2019

Pest Management Science

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BACKGROUND Interactions between herbivorous insects and entomoviruses may depend on host plant, perhaps mediated through changes in herbivore innate immunity. RESULTS Caterpillars (Spodoptera exigua) fed Glycine max had high viral loads and low melanization rates together with low melanization enzyme [PO, DDC, TH] activities and gene expressions. Caterpillars fed Ipomoea aquatica had low viral loads and high melanization, gene activities and gene expressions while those fed Brassica oleracea or artificial diet had intermediate levels of each. Melanization rates were negatively correlated with viral loads and positively correlated with activity and expression of each of the three enzymes. Some diet effects on enzymes were constitutive because the same diets led to low (G. max) or high (I. aquatica) melanization related gene activities and expressions without infection. CONCLUSION Diet influences the interactions between insect herbivores and viruses by shaping the innate immune response both at the onset of infection and afterwards as viral loads accumulate over a period of days. In addition, diets that lead to low viral loads are associated with high activities and gene expressions of a variety of melanization related enzymes suggesting a common causative mechanism. © 2019 Society of Chemical Industry

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Section: Introductionmentioning

confidence: 99%

Immunity of an insect herbivore to an entomovirus is affected by different host plants

Wang

Zhang

Siemann

et al. 2019

Pest Management Science

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“…Previous studies have reported effects of plant species on the susceptibility of several insects to their entomoviruses, including that of Helicoverpa zea (Ali et al., , ; Farrar & Ridgway, ; Forschler, Young, & Felton, ) and Heliothis virescens (Ali et al., , ; Hoover et al., ). Some cases found higher mortality (Forschler et al., ), shorter mean time to death (Ali et al., ), lower LD 50 (Ali et al., ) and shorter LT 50 (Wan et al., ) after virus‐infected larvae of noctuids fed on soybeans. But these same four susceptibility indices showed the opposite trend when virus‐infected larvae were fed on collards (Farrar & Ridgway, ; Shikano et al., ; Wan et al., ).…”

Section: Discussionmentioning

confidence: 99%

“…(Ali et al., ; Farrar & Ridgway, ; Shikano et al., ; Wan et al., ), while it is higher on oligophenolic plants (soybeans, corns, tomatoes, etc.) (Ali et al., ; Forschler et al., ; Monobrullah et al., ; Wan et al., ). Phenolics from the foliage can inhibit the infectivity of the entomovirus to tissues in insect guts, thus decreasing the susceptibility of larvae to the entomovirus (Ali et al., ; Felton, Duffey, Vail, Kaya, & Manning, ).…”

Section: Discussionmentioning

confidence: 99%

“…Some cases found higher mortality (Forschler et al, 1992), shorter mean time to death (Ali et al, 2002), lower LD 50 (Ali et al, 1998) and shorter LT 50 (Wan et al, 2016) after virus-infected larvae of noctuids fed on soybeans. But these same four susceptibility indices showed the opposite trend when virus-infected larvae were fed on collards (Farrar & Ridgway, 2000;Shikano et al, 2010;Wan et al, 2016). These results are consistent with those from our study.…”

Section: Discussionmentioning

confidence: 99%

“…In crop fields, herbivorous insects often acquire baculoviruses when feeding on specific plants, which in turn may affect the insect's susceptibility to the baculovirus. Indicators of host susceptibility include mortality (Ali, Felton, Meade, & Young, ; Ali, Young, Felton, & McNew, ; Ali, Young, & McNew, ), mean time to death of larvae (Farrar & Ridgway, ; Raymond et al., ), median lethal time (LT 50 ) or median lethal dose (LD 50s ) (Wan, Jiang, & Li, ). Previous studies have indicated that the susceptibility of herbivorous insects to baculoviruses can be affected by some phytochemicals (Cory & Hoover, ; Lindroth, Hwang, & Osier, ), as for example, foliar phenolics, which decrease susceptibility (Farrar & Ridgway, ; Monobrullah, Shankar, Bharti, Gupta, & Kaul, ; Shikano, Ericsson, Cory, & Myers, ; Shikano, Shumaker, Peiffer, Felton, & Hoover, ), likely because aggregates formed by phenols and virus proteins inactivate virus (Felton & Duffey, ; Young, Yang, & Felton, ).…”

Section: Introductionmentioning

confidence: 99%

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Phytochemical variation mediates the susceptibility of insect herbivores to entomoviruses

Wan

Guo

et al. 2018

J Applied Entomology

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It has been reported that the susceptibility of insect herbivores to entomoviruses is affected by phytochemicals ingested during the acquisition of viral inoculum on the foliage of host plants. However, the relationship between this susceptibility and phytochemicals is poorly understood. To test this hypothesis of plant‐mediated effects on this susceptibility, we measured the effects of foliage from three plants, soybeans (Glycine max), collards (Brassica oleracea) and water convolvuluses (Ipomoea aquatica), on the susceptibility of larval beet armyworm (Spodoptera exigua) to nucleopolyhedrovirus (NPV), and analysed six foliar chemicals (total phenolics, peroxidase [POD], catalase [CAT], superoxide dismutase [SOD], endochitinase and exochitinase) in the three plants, respectively. The results of exponential modelling indicated that the LD50s (median lethal dose) of NPV to larvae increased with the increase in both phenolics and POD but declined with the increase in four other foliar chemicals, while the opposite trend was found between median lethal time (LT50) of NPV and the six foliar chemicals. This study reveals that phenolics and POD decrease host susceptibility to the entomoviruses and that CAT, SOD, endochitinase and exochitinase increase this susceptibility.

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Viruses

Williams

2017

Ecology of Invertebrate Diseases

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Effect of host plants on the infectivity of nucleopolyhedrovirus to Spodoptera exigua larvae

Cited by 22 publications

References 29 publications

Immunity of an insect herbivore to an entomovirus is affected by different host plants

Immunity of an insect herbivore to an entomovirus is affected by different host plants

Phytochemical variation mediates the susceptibility of insect herbivores to entomoviruses

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