Your search keyword '"Hao, Dejun"' showing total 7 results

1. Heat stress‐induced oviposition behavioral change correlates with sperm damage in the pine sawyer beetle, Monochamus alternatus.

Author

Li, Hui, Li, Shouyin, Chen, Jin, Tan, Yushan, Ye, Jianren, and Hao, Dejun

Subjects

CONIFER wilt, CERAMBYCIDAE, CLIMATE change, INSECT populations, INSECT pests, OVIPARITY, PHYSIOLOGICAL effects of heat

Abstract

Background: Global climate change is causing an increase in extreme high temperatures (EHTs), which subject insects to unprecedented stress. Behavior plasticity in response to EHTs, particularly oviposition behavior, is important for the persistence and outbreak of insect populations. Investigating the plasticity of oviposition behavior and its underlying mechanisms has theoretical importance to pest management, but knowledge gaps still remain. Results: Herein, we characterized the reproductive traits of Monochamus alternatus, a dominant insect vector of the destructive pine wilt disease, including oviposition behavioral patterns, fecundity, offspring fitness and sperm viability, under simulated heatwave conditions in the laboratory. The results showed that (i) EHTs induced a novel oviposition behavior, whereby females deposited multiple eggs into a single groove rather than laying one egg per groove under normal condition; (ii) EHTs exerted stage‐ and sex‐specific effects on fecundity, offspring fitness and sperm viability; and (iii) there was a significant correlation between frequency of the novel oviposition strategy and sperm viability. Conclusion: We hypothesized that this beetle pest has the ability to flexibly shift towards a low‐cost oviposition strategy to counteract the fitness costs caused by heat stress. Taken together, these findings provide a theoretical foundation for personalized pest management strategies in the context of climate change. © 2024 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2024

2. A gut‐isolated Enterococcus strain (HcM7) triggers the expression of antimicrobial peptides that aid resistance to nucleopolyhedrovirus infection of Hyphantria cunea larvae.

Author

Li, Shouyin, Yu, Xiaohang, Fan, Binqi, and Hao, Dejun

Subjects

ANTIMICROBIAL peptides, ENTEROCOCCUS, NUCLEOPOLYHEDROVIRUSES, RNA interference, LARVAE, GENE silencing, BIOLOGICAL pest control agents, ARTHROPOD pests

Abstract

Background: Commensal microorganisms are widely distributed in insect gut tissues and play important roles in host nutrition, metabolism, reproductive regulation, and especially immune functioning and tolerance to pathogens. Consequently, gut microbiota represent a promising resource for the development of microbial‐based products for pest control and management. However, the interactions among host immunity, entomopathogen infections, and gut microbiota remain poorly understood for many arthropod pests. Results: We previously isolated an Enterococcus strain (HcM7) from Hyphantria cunea larvae guts that increased the survival rates of larvae challenged with nucleopolyhedrovirus (NPV). Here, we further investigated whether this Enterococcus strain stimulates a protective immune response against NPV proliferation. Infection bioassays demonstrated that re‐introduction of the HcM7 strain to germfree larvae preactivated the expression of several antimicrobial peptides (particularly H. cunea gloverin 1, HcGlv1), resulting in the significant repression of virus replication in host guts and hemolymph, and consequently improved host survivorship after NPV infection. Furthermore, silencing of the HcGlv1 gene by RNA interference markedly enhanced the deleterious effects of NPV infection, revealing a role of this gut symbiont‐induced gene in host defenses against pathogenic infections. Conclusion: These results show that some gut microorganisms can stimulate host immune systems, thereby contributing to resistance to entomopathogens. Furthermore, HcM7, as a functional symbiotic bacteria of H. cunea larvae, may be a potential target for increasing the effectiveness of biocontrol agents against this devastating pest. © 2023 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2023

3. Transcriptome profiling and RNA interference reveals relevant detoxification genes in Monochamus alternatus response to (+)‐α‐pinene.

Author

He, Xuanyu, Hao, Zhaodong, Li, Hui, Xu, Tian, Chen, Ruixu, Xia, Xiaohong, Li, Shouyin, and Hao, Dejun

Subjects

CONIFER wilt, PINEWOOD nematode, MONOTERPENES, TRANSCRIPTOMES, ESSENTIAL oils, PROTEIN metabolism, RNA, ENERGY metabolism

Abstract

Understanding the mechanism of insect resistance to toxic effects of phytochemicals can provide an insight into plant–herbivore interactions. Monochamus alternatus Hope, a main vector of pine wood nematode (Bursaphelenchus xylophilus), prefers to infest masson pine (Pinus massoniana Lamb) and causes huge economic and environmental losses. α‐Pinene is the primary component of resin produced by masson pine and plays a crucial role in defending against herbivorous insects, but its defensive effects on M. alternatus larvae are barely known. Here, we explored the physiological metabolism in M. alternatus larvae that were fumigated with (+)‐α‐pinene, (‐)‐α‐pinene, β‐pinene, (R)‐(+)‐limonene, myrcene and (‐)‐α‐phellandrene. (+)‐α‐Pinene showed the highest fumigant toxicity to M. alternatus larvae among these monoterpenes, and the fourth instar larvae possessed the highest resistance to this compound at the larval stage. Comparative transcriptome analysis detected 423 up‐regulated and 311 down‐regulated genes in the larvae fumigated with (+)‐α‐pinene, which were mainly related to detoxification, energy and protein metabolism. Among the differentially expressed genes encoding for detoxification enzymes, 14 P450s, 13 UGTs, 1GSTs and 3ABCs were dramatically up‐regulated in the larvae fumigated with (+)‐α‐pinene. Silencing of P450s via RNA interference led to an increased mortality in the larval fumigated with (+)‐α‐pinene. Piperonyl butoxide exposure significantly increased the mortality and inhibited the expressions of P450s, UGTs and ABCs in the larvae fumigated with (+)‐α‐pinene. These results suggested an important role of P450s in the resistance of M. alternatus larvae to (+)‐α‐pinene fumigation, which may facilitate the understanding of terpenoid detoxification in M. alternatus larvae. [ABSTRACT FROM AUTHOR]

Published

2022

4. Tolerance, biochemistry and related gene expression in Pagiophloeus tsushimanus (Coleoptera: Curculionidae) exposed to chemical stress from headspace host‐plant volatiles.

Author

Li, Shouyin, Wang, Jingting, Chen, Cong, Li, Hui, and Hao, Dejun

Subjects

GENE expression, CURCULIONIDAE, BEETLES, METABOLITES, ESSENTIAL oils

Abstract

Camphor, Cinnamomum camphora (L.) Presl, is used for mothproofing material due to its content of secondary metabolites. However, the phloem‐feeding weevil, Pagiophloeus tsushimanus (Coleoptera: Curculionidae), has been observed to feed exclusively on this plant without incurring apparent fitness costs. This phenomenon remains to be elucidated.Gas chromatography–mass spectrometry analysis of essential oil extracted from the phloem of camphor tree was performed. The top three components, all monoterpenoids, were eucalyptol (31.9%), D‐camphor (19.2%) and linalool (10.2%), respectively.In headspace bioassays, both eggs and larvae showed the greatest sensitivity to eucalyptol, and there was a bell‐shaped relationship between the concentrations used and developmental time for eggs when exposed to D‐camphor volatile.Exposure to essential oil mixture and D‐camphor notably increased the activity of glutathione S‐transferase in the weevil. A corresponding short‐term induction of gene expression was also observed according to quantitative real‐time polymerase chain reaction analysis.In general, P. tsushimanus possessed various levels of tolerance to different host monoterpenoids. Over‐expression of glutathione S‐transferase in vivo probably relates to detoxification metabolism of these monoterpenoids. Our findings provide a valuable clue to understanding the mechanism underlying resistance to host‐specific chemical defences in this weevil pest. [ABSTRACT FROM AUTHOR]

Published

2022

5. Functional analysis of small heat shock proteins providing evidence of temperature tolerance in Hyphantria cunea.

Author

Li, Hui, Tao, Rong, Qiao, Heng, Zhao, Xudong, Li, Shouyin, Dai, Lulu, and Hao, Dejun

Subjects

HEAT shock proteins, CLIMATE change, FUNCTIONAL analysis, MALATE dehydrogenase, MOLECULAR weights, AGRICULTURAL pests

Abstract

A substantial increase in the occurrence of extremely high‐ or low‐temperature events caused by global climate change has imposed pressure on the survival and reproduction of invertebrates. Hyphantria cunea (H. cunea; Lepidoptera: Arctiidae) is a worldwide defoliator and has become a major forestry and agricultural pest during the past three decades in China. The thermal and cold tolerance has directly affected the population and geographical distribution of H. cunea, which remains poorly understood. Here, we examined the thermal tolerance of H. cunea larvae and discovered that they could endure extremely high temperatures, as demonstrated by median lethal times (Ltim50) of 103.3 hr at 37°C, 62.0 hr at 40°C and even 14.5 hr at 43°C. To further explore the molecular evidence of the physiological response to heat and cold, we cloned and characterized six small heat shock proteins (sHSPs). These proteins possessed the conserved α‐domain of the sHSP family at the C‐terminus and various N‐terminal domains. Phylogenetic analysis showed that the HCsHSPs presented a close evolutionary relationship with sHSP genes in noctuidae species. Four sHSPs in H. cunea were sensitive to heat stress, and only HCsHSP28.7 was induced by cold stress. The expression level of HCsHSPs peaked at 40°C and decreased in treatment at 45°C. HCsHSP20.0 transcripts were abundant in the cuticle after heat shock, and HCsHSP28.7 was most enriched in the fat body after cold shock. In addition, an equal molecular weight of the HCsHSP20.0 protein could completely protect malate dehydrogenase (MDH) from thermal aggregation. Recombinant HCsHSP28.7 E. coli cells exhibited tolerance to cold stress. Overall, our results demonstrate that HCsHSPs, especially HCsHSP20.0 and HCsHSP28.7, are vital genes in the adaptation of H. cunea larvae to extreme conditions in the context of global climate change. [ABSTRACT FROM AUTHOR]

Published

2022

6. Jasmonate induced terpene‐based defense in Pinus massoniana depresses Monochamus alternatus adult feeding.

Author

Chen, Ruixu, Huang, Kairu, Pan, Shiye, Xu, Tian, Tan, Jiajin, and Hao, Dejun

Subjects

CONIFER wilt, JASMONATE, PINE, TREE breeding, PLANT defenses, PINACEAE, TERPENES

Abstract

BACKGROUND Symptoms of pine wilt disease (PWD) are caused when pathogenic pine wood nematodes (PWN) invade healthy host trees via wounds created by adult Monochamus alternatus. Exogenous methyl jasmonate (MeJA) can trigger terpene‐based induced defense in conifers, which is a core part of the conifer defense system. Herein, we hypothesized that the terpene‐based plant defense induced by MeJA could negatively affect the feeding behavior of M. alternatus adults, and may contribute to a new strategy in the control of PWD. RESULTS: The feeding area for M. alternatus adults feeding on MeJA‐treated seedlings was significantly smaller compared with control seedlings. However, no significant difference was detected in the enzyme activities in the midgut of beetles that had fed on these seedlings. Terpenoids were mainly accumulated in traumatic resin duct, whereas the constitutive resin duct accumulated only diterpenoids. Correspondingly, large‐scaled responses at the transcriptional level mainly focused on terpenoid and phenolic biosynthesis in the defending trees. CONCLUSIONS: Breeding tree species with a high resin yield may contribute to control of the spread of PWD by suppressing the feeding of M. alternatus adults. Transcriptome sequencing results provided abundant information for further breeding of highly resistant trees. Based on these findings, a potential push–pull strategy for the control of M. alternatus was discussed. [ABSTRACT FROM AUTHOR]

Published

2021

7. Molecular and functional properties of two Spodoptera exigua acetylcholinesterase genes.

Author

Zhao, Jing, Hao, Dejun, Xiao, Liubin, Tan, Yongan, Jiang, Yiping, Bai, Lixin, and Wang, Kai

Published

2019