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Effect of elevated CO2 and O3 on phytohormone-mediated plant resistance to vector insects and insect-borne plant viruses 被引量:6
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作者 Honggang Guo Shifan Wang Feng Ge 《Science China(Life Sciences)》 SCIE CAS CSCD 2017年第8期816-825,共10页
Climatic variations are becoming important limiting factors for agriculture productivity,as they not only directly affect the plant net primary productivity but can also modulate the outbreak of plant diseases and pes... Climatic variations are becoming important limiting factors for agriculture productivity,as they not only directly affect the plant net primary productivity but can also modulate the outbreak of plant diseases and pests.Elevated CO_2 and O_3 are two important climatic factors that have been widely studied before.Elevated CO_2 or O_3 alters the host plant physiology and affects the vector insects and plant viruses via bottom-up effects of the host plants.Many studies have shown that elevated CO_2 or O_3 decreases the plant nitrogen content,which modulates the characteristics of vector insects.Recent evidence also reveals that hormone-dependent signaling pathways play a critical role in regulating the response of insects and plant viruses to elevated CO_2 or O_3.In the current review,we describe how elevated CO_2 or O_3 affects the vector insects and plant viruses by altering the SA and JA signaling pathways.We also discuss how changes in the feeding behavior of vector insects or the occurrence of plant viruses affects the interactions between vector insects and plant viruses under elevated CO_2 or O_3.We suggest that new insights into the upstream network that regulates hormone signaling and top-down effects of natural enemies would provide a comprehensive understanding of the complex interactions taking place under elevated CO_2 or O_3. 展开更多
关键词 climate change vector insects SA JA PT virus NPT virus
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Characterization of protein-protein interactions between rice viruses and vector insects 被引量:1
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作者 Junjie Zhu Fatma Elzahraa Eid +5 位作者 Lu Tong Wan Zhao Wei Wang Lenwood S.Heath Le Kang Feng Cui 《Insect Science》 SCIE CAS CSCD 2021年第4期976-986,共11页
Planthoppers are the most notorious rice pests,because they transmit various rice viruses in a persistent-propagative manner.Protein–protein interactions(PPIs)between virus and vector are crucial for virus transmissi... Planthoppers are the most notorious rice pests,because they transmit various rice viruses in a persistent-propagative manner.Protein–protein interactions(PPIs)between virus and vector are crucial for virus transmission by vector insects.However,the number of known PPIs for pairs of rice viruses and planthoppers is restricted by low throughput research methods.In this study,we applied DeNovo,a virus-host sequence-based PPI predictor,to predict potential PPIs at a genome-wide scale between three planthoppers and five rice viruses.PPIs were identified at two different confidence thresholds,referred to as low and high modes.The number of PPIs for the five planthopper-virus pairs ranged from 506 to 1985 in the low mode and from 1254 to 4286 in the high mode.After eliminating the“one-too-many”redundant interacting information,the PPIs with unique planthopper proteins were reduced to 343–724 in the low mode and 758–1671 in the high mode.Homologous analysis showed that 11 sets and 31 sets of homologous planthopper proteins were shared by all planthopper-virus interactions in the two modes,indicating that they are potential conserved vector factors essential for transmission of rice viruses.Ten PPIs between small brown planthopper and rice stripe virus(RSV)were verified using glutathione-S-transferase(GST)/His-pull down or co-immunoprecipitation assay.Five of the ten PPIs were proven positive,and three of the five SBPH proteins were confirmed to interact with RSV.The predicted PPIs provide new clues for further studies of the complicated relationship between rice viruses and their vector insects. 展开更多
关键词 computational prediction PLANTHOPPER plant virus protein-protein interaction rice virus vector insect
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An introductory review on the common brown leafhopper(Orosius orientalis):A new soybean pest
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作者 Tianhao Pei Xin Cui +1 位作者 Shusen Shi Yu Gao 《Oil Crop Science》 CSCD 2024年第3期198-203,共6页
Soybean pests are one of the major factors limiting yield improvement.With the expansion of area and changes in cropping patterns,a number of new pests have been identified in the main soybean production areas of Chin... Soybean pests are one of the major factors limiting yield improvement.With the expansion of area and changes in cropping patterns,a number of new pests have been identified in the main soybean production areas of China.The common brown leafhopper,Orosius orientalis,is a new pest associated with soybean stay-green virus that has been discovered on cultivated soybean crop in the Yellow-Huai-hai region of China in recent years.The polyphagous insect has a wide feeding range and infests a variety of important grain and cash crops.This paper presents the basic information,geographical distribution,hosts,damage characteristics,plant virus transmission,occurrence patterns,and prevention and control measures O.orientalis.This review also provides insights into integrated prevention and control of the genus Orosius as an insect vector. 展开更多
关键词 SOYBEAN LEAFHOPPER Plant virus Insect vector Orosius orientalis
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Complex interactions among insect viruses-insect vector-arboviruses 被引量:1
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作者 Hui Wang Qian Chen Taiyun Wei 《Insect Science》 SCIE CAS CSCD 2024年第3期683-693,共11页
Insects are the host or vector of diverse viruses including those that infect vertebrates,plants,and fungi.Insect viruses reside inside their insect hosts and are vertically transmitted from parent to offspring.The in... Insects are the host or vector of diverse viruses including those that infect vertebrates,plants,and fungi.Insect viruses reside inside their insect hosts and are vertically transmitted from parent to offspring.The insect virus-host relationship is intricate,as these viruses can impact various aspects of insect biology,such as development,reproduction,sex ratios,and immunity.Arthropod-borne viruses(arboviruses)that cause substantial global health or agricultural problems can also be vertically transmitted to insect vector progeny.Multiple infections with insect viruses and arboviruses are common in nature.Such coinfections involve complex interactions,including synergism,dependence,and antagonism.Recent studies have shed light on the influence of insect viruses on the competence of insect vectors for arboviruses.In this review,we focus on the biological effects of insect viruses on the transmission of arboviruses by insects.We also discuss the potential mechanisms by which insect viruses affect the ability of hosts to transmit arboviruses,as well as potential strategies for disease control through manipulation of insect viruses.Analyses of the interactions among insect vectors,insect viruses and arboviruses will provide new opportunities for development of innovative strategies to control arbovirus transmission. 展开更多
关键词 ARBOVIRUS insect biology insect vectors insect virus interaction transmission
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Ecology and management of Bactericera cockerelli and Candidatus Liberibacter solanacearum in New Zealand 被引量:1
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作者 Jessica VEREIJSSEN 《Journal of Integrative Agriculture》 SCIE CAS CSCD 2020年第2期333-337,共5页
The psyllid Bactericera cockerelli was first reported in New Zealand in 2006 and spread quickly throughout all potato growing regions.In 2009,B.cockerelli was associated with the plant pathogenic bacterium Candidatus ... The psyllid Bactericera cockerelli was first reported in New Zealand in 2006 and spread quickly throughout all potato growing regions.In 2009,B.cockerelli was associated with the plant pathogenic bacterium Candidatus Liberibacter solanacearum,the putative causal agent of zebra chip disease in potato.Both the psyllid and the bacterium have non-crop host plants which can serve as reservoirs when the crop is not available.Growers apply different management strategies that fit integrated pest management programmes to manage B.cockerelli and subsequently lower incidence of zebra chip disease in potato crops.Despite best management efforts,complete control of B.cockerelli and zero incidence of zebra chip disease are not achievable at the current time. 展开更多
关键词 Bactericera cockerelli Candidatus Liberibacter solanacearum POTATO insect vector
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Autophagy mediates a direct synergistic interaction during cotransmission of two distinct arboviruses by insect vectors 被引量:2
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作者 Dongsheng Jia Qifu Liang +6 位作者 Hongyan Chen Huan Liu Guangjun Li Xiaofeng Zhang Qian Chen Aiming Wang Taiyun Wei 《Science China(Life Sciences)》 SCIE CAS CSCD 2023年第7期1665-1681,共17页
Multiple viral infections in insect vectors with synergistic effects are common in nature,but the underlying mechanism remains elusive.Here,we find that rice gall dwarf reovirus(RGDV)facilitates the transmission of ri... Multiple viral infections in insect vectors with synergistic effects are common in nature,but the underlying mechanism remains elusive.Here,we find that rice gall dwarf reovirus(RGDV)facilitates the transmission of rice stripe mosaic rhabdovirus(RSMV)by co-infected leafhopper vectors.RSMV nucleoprotein(N)alone activates complete anti-viral autophagy,while RGDV nonstructural protein Pns11 alone induces pro-viral incomplete autophagy.In co-infected vectors,RSMVexploits Pns11-induced autophagosomes to assemble enveloped virions via N-Pns11-ATG5 interaction.Furthermore,RSMV could effectively propagate in Sf9 cells.Expression of Pns11 in Sf9 cells or leafhopper vectors causes the recruitment of N from the ER to Pns11-induced autophagosomes and inhibits N-induced complete autophagic flux,finally facilitating RSMV propagation.In summary,these results demonstrate a previously unappreciated role of autophagy in the regulation of the direct synergistic interaction during co-transmission of two distinct arboviruses by insect vectors and reveal the functional importance of virus-induced autophagosomes in rhabdovirus assembly. 展开更多
关键词 AUTOPHAGY synergistic interaction insect vector RHABDOVIRUS co-transmission
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Cotton (Gossypium hirsutum L.) Boll Rot and Associated Microorganisms in South Texas Fields
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作者 Greta Schuster Enrique G. Medrano Kendal Field-Huey 《Agricultural Sciences》 2016年第10期732-746,共16页
A rise in cotton boll rot in south Texas has been generally associated with increased yield losses. Here, we measured boll rot incidence during two growing seasons (2011 and 2012) at a south Texas (Kleberg County) res... A rise in cotton boll rot in south Texas has been generally associated with increased yield losses. Here, we measured boll rot incidence during two growing seasons (2011 and 2012) at a south Texas (Kleberg County) research farm Variety Trial and in producer fields. The Variety Trial was conducted to compare boll rot susceptibility between five current cultivars. The commercial fields surveyed were located along the Coastal Bend (Wharton County) and Rio Grande Valley regions (Cameron and Willacy Counties). Bolls with evidence of external damage potentially inflicted by piercing-sucking insect vectors were dissected for disease detection and plated for microorganism isolation and characterization. Microbial isolates were putatively identified based on standard fatty acid methyl ester profile analysis. In the Variety Trial, the highest incidence of disease occurred in July for both growing seasons, and significant differences in susceptibility to boll rot between cultivars were determined (P Bacillus spp. as a potential and prevalent causative agent(s). 展开更多
关键词 Subtropical Agriculture Cotton Varieties Boll Rot Bacterial Opportunist Insect vector
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Polyamine-metabolizing enzymes are activated to promote the proper assembly of rice stripe mosaic virus in insect vectors
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作者 Dongsheng Jia Huan Liu +5 位作者 Jian Zhang Wenqiang Wan Zongwen Wang Xiaofeng Zhang Qian Chen Taiyun Wei 《Stress Biology》 2022年第1期566-579,共14页
Both viruses and host cells compete for intracellular polyamines for efficient propagation.Currently,how the key polyamine-metabolizing enzymes,including ornithine decarboxylase 1(ODC1)and its antizyme 1(OAZ1),are act... Both viruses and host cells compete for intracellular polyamines for efficient propagation.Currently,how the key polyamine-metabolizing enzymes,including ornithine decarboxylase 1(ODC1)and its antizyme 1(OAZ1),are activated to co-ordinate viral propagation and polyamine biosynthesis remains unknown.Here,we report that the matrix protein of rice stripe mosaic virus(RSMV),a cytorhabdovirus,directly hijacks OAZ1 to ensure the proper assembly of rigid bacilliform non-enveloped virions in leafhopper vector.Viral matrix protein effectively competes with ODC1 to bind to OAZ1,and thus,the ability of OAZ1 to target and mediate the degradation of ODC1 is significantly inhibited during viral propagation,which finally promotes polyamines production.Thus,OAZ1 and ODC1 are activated to synergistically promote viral persistent propagation and polyamine biosynthesis in viruliferous vectors.Our data suggest that it is a novel mechanism for rhabdovirus to exploit OAZ1 for facilitating viral assembly. 展开更多
关键词 Rice stripe mosaic virus RHABDOVIRUS Insect vector Polyamines OAZ1 ODC1 Viral assembly
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HEMIPTERAN-TRANSMITTED PLANT VIRUSES: RESEARCH PROGRESS AND CONTROL STRATEGIES 被引量:2
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作者 Haijian HUANG Junmin LI +1 位作者 Chuanxi ZHANG Jianping CHEN 《Frontiers of Agricultural Science and Engineering》 2022年第1期98-109,共12页
About 80% of plant viruses are transmitted by specific insect vectors, especiallyhemipterans with piercing-sucking mouthparts. Many virus-transmitting insectsare also important crop pests that cause considerable losse... About 80% of plant viruses are transmitted by specific insect vectors, especiallyhemipterans with piercing-sucking mouthparts. Many virus-transmitting insectsare also important crop pests that cause considerable losses in crop production.This review summarizes the latest research findings on the interactions betweenplant viruses and insect vectors and analyzes the key factors affecting insecttransmission of plant viruses from the perspectives of insect immunity, insectfeeding, and insect symbiotic microorganisms. Additionally, by referring to thelatest applications for blocking the transmission of animal viruses, potentialcontrol strategies to prevent the transmission of insect-vectored plant virusesusing RNAi technology, gene editing technology, and CRISPR/Cas9 + gene-driventechnology are discussed. 展开更多
关键词 control strategies FEEDING IMMUNITY insect vector MICROORGANISM plant virus
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Insect transmission of plant viruses: Multilayered interactions optimize viral propagation 被引量:1
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作者 Beatriz Dader Chrstiane Then +3 位作者 Edwige Berthelot Marie Ducousso James C. K. Ng Martin Drucker 《Insect Science》 SCIE CAS CSCD 2017年第6期929-946,共18页
By serving as vectors of transmission, insects play a key role in the infection cycle of many plant viruses. Viruses use sophisticated transmission strategies to overcome the spatial barrier separating plants and the ... By serving as vectors of transmission, insects play a key role in the infection cycle of many plant viruses. Viruses use sophisticated transmission strategies to overcome the spatial barrier separating plants and the impediment imposed by the plant cell wall. Interactions among insect vectors, viruses, and host plants mediate transmission by integrating all organizational levels, from molecules to populations. Best-examined on the molecular scale are two basic transmission modes wherein virus-vector interactions have been well characterized. Whereas association of virus particles with specific sites in the vector's mouthparts or in alimentary tract regions immediately posterior to them is required for noncirculative transmission, the cycle of particles through the vector body is necessary for circulative transmission. Virus transmission is also determined by interactions that are associated with changes in vector feeding behaviors and with alterations in plant host's morphology and/or metabolism that favor the attraction or deterrence of vectors. A recent concept in virus-host-vector interactions proposes that when vectors land on infected plants, vector elicitors and effectors "inform" the plants of the confluence of interacting entities and trigger signaling pathways and plant defenses. Simultaneously, the plant responses may also influence virus acquisition and inoculation by vectors. Over- all, a picture is emerging where transmission depends on multilayered virus-vector-host interactions that define the route of a virus through the vector, and on the manipulation of the host and the vector. These interactions guarantee virus propagation until one or more of the interactants undergo changes through evolution or are halted by environmental interventions. 展开更多
关键词 ARBOVIRUS DEFENSE host plant insect vector INTERACTIONS plant virus transmission
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A reproducible and sensitive method for generating high-quality transcriptomes from single whitefly salivary glands and other low-input tissues
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作者 Marco Gebiola Brandon H.Le Kerry EMauck 《Insect Science》 SCIE CAS CSCD 2022年第5期1318-1328,共11页
Transcriptomic studies are an important tool for understanding the molecular pathways underlying host plant use by agricultural pests,including vectors of damaging plant pathogens.Thus far,bulk RNA-Seq has been the ma... Transcriptomic studies are an important tool for understanding the molecular pathways underlying host plant use by agricultural pests,including vectors of damaging plant pathogens.Thus far,bulk RNA-Seq has been the main approach for non-model insects.This method relies on pooling large numbers of whole organisms or hundreds of individually dissected organs.The latter approach is logistically challenging,may introduce artifacts of handling and storage,and is not compatible with biological replication.Here,we tested an approach to generate transcriptomes of individual salivary glands and other low-input body tissues from whiteflies(Bemisia tabaci MEAM1),which are major vectors of plant viruses.By comparing our outputs to published bulk RNA-Seq datasets for whole whitefly bodies and pools of salivary glands,we demonstrate that this approach recovers similar numbers of transcripts relative to bulk RNA-Seq in a tissue-specific manner,and for some metrics,exceeds performance of bulk tissue RNA-Seq.Libraries generated from individual salivary glands also yielded additional novel transcripts not identified in pooled salivary gland datasets,and had hundreds of enriched transcripts when compared with whole head tissues.Overall,our study demonstrates that it is feasible to produce high quality,replicated transcriptomes of whitefly salivary glands and other low-input tissues.We anticipate that our approach will expand hypothesis-driven research on salivary glands of whiteflies and other Hemiptera,thus enabling novel control strategies to disrupt feeding and virus transmission. 展开更多
关键词 ALEYRODIDAE Bemisia tabaci bulk RNA-Seq insect vectors low-input RNA-Seq plant pathogens
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