Your search keyword '"Adi Kliot"' showing total 22 results

1. The Role of Bacterial Chaperones in the Circulative Transmission of Plant Viruses by Insect Vectors

Author

Murad Ghanim and Adi Kliot

Subjects

Bemisia tabaci, GroEL, chaperone, virus, circulative transmission, Microbiology, QR1-502

Abstract

Persistent circulative transmission of plant viruses involves complex interactions between the transmitted virus and its insect vector. Several studies have shown that insect vector proteins are involved in the passage and the transmission of the virus. Interestingly, proteins expressed by bacterial endosymbionts that reside in the insect vector, were also shown to influence the transmission of these viruses. Thus far, the transmission of two plant viruses that belong to different virus genera was shown to be facilitated by a bacterial chaperone protein called GroEL. This protein was shown to be implicated in the transmission of Potato leafroll virus (PLRV) by the green peach aphid Myzus persicae, and the transmission of Tomato yellow leaf curl virus (TYLCV) by the sweetpotato whitefly Bemisia tabaci. These tri-trophic levels of interactions and their possible evolutionary implications are reviewed.

Published

2013

2. Diversity and localization of bacterial endosymbionts from whitefly species collected in Brazil.

Author

Julio Massaharu Marubayashi, Adi Kliot, Valdir Atsushi Yuki, Jorge Alberto Marques Rezende, Renate Krause-Sakate, Marcelo Agenor Pavan, and Murad Ghanim

Subjects

Medicine, Science

Abstract

Whiteflies (Hemiptera: Aleyrodidae) are sap-sucking insect pests, and some cause serious damage in agricultural crops by direct feeding and by transmitting plant viruses. Whiteflies maintain close associations with bacterial endosymbionts that can significantly influence their biology. All whitefly species harbor a primary endosymbiont, and a diverse array of secondary endosymbionts. In this study, we surveyed 34 whitefly populations collected from the states of Sao Paulo, Bahia, Minas Gerais and Parana in Brazil, for species identification and for infection with secondary endosymbionts. Sequencing the mitochondrial Cytochrome Oxidase I gene revealed the existence of five whitefly species: The sweetpotato whitefly Bemisia tabaci B biotype (recently termed Middle East-Asia Minor 1 or MEAM1), the greenhouse whitefly Trialeurodes vaporariorum, B. tabaci A biotype (recently termed New World 2 or NW2) collected only from Euphorbia, the Acacia whitefly Tetraleurodes acaciae and Bemisia tuberculata both were detected only on cassava. Sequencing rRNA genes showed that Hamiltonella and Rickettsia were highly prevalent in all MEAM1 populations, while Cardinium was close to fixation in only three populations. Surprisingly, some MEAM1 individuals and one NW2 population were infected with Fritschea. Arsenopnohus was the only endosymbiont detected in T. vaporariorum. In T. acaciae and B. tuberculata populations collected from cassava, Wolbachia was fixed in B. tuberculata and was highly prevalent in T. acaciae. Interestingly, while B. tuberculata was additionally infected with Arsenophonus, T. acaciae was infected with Cardinium and Fritschea. Fluorescence in situ hybridization analysis on representative individuals showed that Hamiltonella, Arsenopnohus and Fritschea were localized inside the bacteriome, Cardinium and Wolbachia exhibited dual localization patterns inside and outside the bacteriome, and Rickettsia showed strict localization outside the bacteriome. This study is the first survey of whitely populations collected in Brazil, and provides further insights into the complexity of infection with secondary endosymionts in whiteflies.

Published

2014

3. Sib-mating enhances fitness in a haplodiploid beetle

Author

Aviad Moncaz, Rachel Ben-Shlomo, Yael Lubin, Adi Kliot, and Ally Harari

Subjects

Genetics, General Agricultural and Biological Sciences, Ecology, Evolution, Behavior and Systematics

Abstract

Inbreeding is generally avoided in animals due to the risk of inbreeding depression following an increase in homozygous deleterious alleles and loss of heterozygosity. Species that regularly inbreed challenge our understanding of the fitness effects of these risks. We investigated the fitness consequences of extended inbreeding in the haplodiploid date stone beetle, Coccotrypes dactyliperda. We hypothesized that continuous inbreeding could result in reduced fitness, while outbreeding would either increase fitness due to heterosis or lower fitness if co-adapted gene complexes are disrupted. We established three breeding treatments with beetles from two geographically separated populations: Sib-mating (inbreeding), and outbreeding within and between populations. Between-population outbreeding groups of both populations had lower fecundity and collapsed before the experiment ended, while sib-mated and within-population breeding groups persisted for 10 generations. Sib-mated females had higher fecundity than within- and between-population outbreeding females. Inbreeding coefficients of sib-mated groups were higher than the other treatment groups, yet sib-mated beetles remained genetically polymorphic at the population level. Thus, there was no inbreeding depression, while crossing between distant populations led to outbreeding depression. Our findings are consistent with the life history of C. dactyliperda, in which sib-mating predominates within the date seed, but occasional within-population outbreeding may occur following local dispersal.

Published

2022

4. Dispersal, endosymbiont abundance and fitness-related consequences of inbreeding and outbreeding in a social beetle

Author

Adi Kliot, Yael Lubin, Hadas Steinitz, Martin Tremmel, and Ally R. Harari

Subjects

0106 biological sciences, 0301 basic medicine, 03 medical and health sciences, 030104 developmental biology, Ecology, Abundance (ecology), Outbreeding depression, Biological dispersal, Biology, 010603 evolutionary biology, 01 natural sciences, Inbreeding, Ecology, Evolution, Behavior and Systematics

Abstract

Most social species outbreed. However, some have persistent inbreeding with occasional outbreeding, and the decision of the individual regarding whether to stay in the natal group and inbreed or to disperse, with the potential to outbreed, is flexible and may depend on social, genetic and ecological benefits and costs. Few of these factors have been investigated experimentally in these systems. The beetle Coccotrypes dactyliperda Fabricius, 1801 (Scolytidae: Xyloborinae) lives in extended family colonies inside date seeds. The beetles inbreed, but some individuals disperse away from the natal seed and may outbreed. We investigated dispersal behaviour and assessed fitness-related measures in inbred and outbred offspring, in addition to the relative abundance of two endosymbionts. We predicted inbred offspring to have higher fitness-related measures and a reduced tendency to disperse than outbred offspring, owing to fitness benefits of cooperation within the colony, whereas increased endosymbiont abundance will promote dispersal of their hosts, thus enhancing their own spread in the population. Dispersing beetles were more active than ones that remained in the natal seed. As predicted, fewer inbred offspring dispersed than outbred offspring, but they matured and dispersed earlier. Fitness-related measures of inbred mothers were either lower (number of offspring) or not different (body mass) from those of outbred mothers. Inbred dispersers had greater amounts of Wolbachia, suggesting a role in dispersal. The results support the hypothesis that inbred females reduce dispersal and that early maturation and dispersal are likely to be benefits of increased cooperation in brood care.

Published

2020

5. A proteomic approach reveals possible molecular mechanisms and roles for endosymbiotic bacteria in begomovirus transmission by whiteflies

Author

Henryk Czosnek, Galina Lebedev, Richard S. Johnson, Murad Ghanim, Michael J. MacCoss, Svetlana Kontsedalov, Adi Kliot, and Michelle Heck

Subjects

Proteomics, 0106 biological sciences, Species complex, AcademicSubjects/SCI02254, proteome, Health Informatics, Whitefly, Biology, Data Note, Bemisia tabaci, 01 natural sciences, Virus, Hemiptera, 03 medical and health sciences, Solanum lycopersicum, Plant virus, Animals, Tomato yellow leaf curl virus, Virus classification, Plant Diseases, 030304 developmental biology, Genetics, 0303 health sciences, Bacteria, bacterial symbiont, fungi, Begomovirus, transmission, food and beverages, biology.organism_classification, Computer Science Applications, Vector (epidemiology), AcademicSubjects/SCI00960, TYLC, 010606 plant biology & botany

Abstract

BackgroundMany plant viruses are vector-borne and depend on arthropods for transmission between host plants. Begomoviruses, the largest, most damaging and emerging group of plant viruses, infect hundreds of plant species, and new virus species of the group are discovered each year. Begomoviruses are transmitted by members of the whitefly Bemisia tabaci species complex in a persistent-circulative manner. Tomato yellow leaf curl virus (TYLCV) is one of the most devastating begomoviruses worldwide and causes major losses in tomato crops, as well as in many agriculturally important plant species. Different B. tabaci populations vary in their virus transmission abilities; however, the causes for these variations are attributed among others to genetic differences among vector populations, as well as to differences in the bacterial symbionts housed within B. tabaci.ResultsHere, we performed discovery proteomic analyses in 9 whitefly populations from both Middle East Asia Minor I (MEAM1, formerly known as B biotype) and Mediterranean (MED, formerly known as Q biotype) species. We analysed our proteomic results on the basis of the different TYLCV transmission abilities of the various populations included in the study. The results provide the first comprehensive list of candidate insect and bacterial symbiont (mainly Rickettsia) proteins associated with virus transmission.ConclusionsOur data demonstrate that the proteomic signatures of better vector populations differ considerably when compared with less efficient vector populations in the 2 whitefly species tested in this study. While MEAM1 efficient vector populations have a more lenient immune system, the Q efficient vector populations have higher abundance of proteins possibly implicated in virus passage through cells. Both species show a strong link of the facultative symbiont Rickettsia to virus transmission.

Published

2020

6. Combined infection with Tomato yellow leaf curl virus and Rickettsia influences fecundity, attraction to infected plants and expression of immunity-related genes in the whitefly Bemisia tabaci

Author

Svetlana Kontsedalov, Henryk Czosnek, Adi Kliot, Murad Ghanim, and Galina Lebedev

Subjects

0301 basic medicine, animal structures, 030106 microbiology, Population, Gene Expression, Whitefly, Virus, Hemiptera, 03 medical and health sciences, Virology, Plant virus, Animals, Tomato yellow leaf curl virus, Rickettsia, education, Gene, Plant Diseases, education.field_of_study, biology, Gene Expression Profiling, food and beverages, Rickettsia Infections, bacterial infections and mycoses, biology.organism_classification, Fecundity, Insect Vectors, 030104 developmental biology, Fertility, Virus Diseases, Begomovirus, bacteria

Abstract

We have recently shown that Rickettsia, a secondary facultative bacterial symbiont that infects the whitefly B. tabaci is implicated in the transmission of Tomato yellow leaf curl virus (TYLCV). Infection with Rickettsia improved the acquisition and transmission of the virus by B. tabaci adults. Here we performed a transcriptomic analysis with Rickettsia-infected and uninfected B. tabaci adults before and after TYLCV acquisition. The results show a dramatic and specific activation of the immune system in the presence of Rickettsia before TYLCV acquisition. However, when TYLCV was acquired, it induced massive activation of gene expression in the Rickettsia uninfected population, whereas in the Rickettsia-infected population the virus induced massive down-regulation of gene expression. Fitness and choice experiments revealed that while Rickettsia-infected whiteflies are always more attracted to TYLCV-infected plants, this attraction is not always beneficiary for their offspring. These studies further confirm the role of Rickettsia in many aspects of B. tabaci interactions with TYLCV, and possibly serves as an important factor in the dissemination of the virus.

Published

2019

7. The draft genome of whitefly Bemisia tabaci MEAM1, a global crop pest, provides novel insights into virus transmission, host adaptation, and insecticide resistance

Author

Angela E. Douglas, Murad Ghanim, Marcus C. Stensmyr, Yi Zheng, Wayne B. Hunter, Adi Kliot, Xiaowei Yang, Patricia V. Pinheiro, Georg Jander, Alvin M. Simmons, Wenli Liu, Navneet Kaur, Jun-Bo Luan, Honghe Sun, Tonja W. Fisher, Yuan Luo, Judith K. Brown, Angela Kruse, Zhangjun Fei, Galina Lebedev, Kai Shu Ling, Michelle Cilia, Daniel K. Hasegawa, David R. Nelson, Wenbo Chen, William M. Wintermantel, Svetlana Kontsedalov, Yimin Xu, WENBO CHEN, DANIEL K. HASEGAWA, NAVNEET KAUR, ADI KLIOT, PATRICIA VALLE PINHEIRO, CNPAF, JUNBO LUAN, M. C. STENSMYR, YI ZHENG, WENLI LIU, HONGHE SUN, YIMIN XU, YUAN LUO, ANGELA KRUSE, XIAOWEI YANG, SVETLANA KONTSEDALOV, GALINA LEBEDEV, TONJA W. FISHER, DAVID R. NELSON, WAYNE B. HUNTER, JUDITH K. BROWN, GEORG JANDER, MICHELLE CILIA, ANGELA E. DOUGLAS, MURAD GHANIM, ALVIN M. SIMMONS, WILLIAM M. WINTERMANTEL, KAI-SHU LING, and ZHANGJUN FEI.

Subjects

0106 biological sciences, 0301 basic medicine, Physiology, Genome, Insect, Plant Science, 01 natural sciences, Genome, Bemisia tabaci, Plant Viruses, Insecticide Resistance, Structural Biology, 2. Zero hunger, Genetics, Agricultural and Biological Sciences(all), biology, Polyphagy, Biological Sciences, Whitefly, Infectious Diseases, Praga de planta, Draft genome, Insect Proteins, Zero Hunger, Host adaptation, General Agricultural and Biological Sciences, Infection, Plant pests, Biotechnology, Research Article, Insecticide resistance, General Biochemistry, Genetics and Molecular Biology, Virus transmission, Hemiptera, 03 medical and health sciences, Plant virus, Botany, Gene family, Animals, Gene, Ecology, Evolution, Behavior and Systematics, Synteny, Whole genome sequencing, Biochemistry, Genetics and Molecular Biology(all), Cell Biology, 15. Life on land, biology.organism_classification, 010602 entomology, 030104 developmental biology, Mosca branca, Insect, Developmental Biology

Abstract

Background The whitefly Bemisia tabaci (Hemiptera: Aleyrodidae) is among the 100 worst invasive species in the world. As one of the most important crop pests and virus vectors, B. tabaci causes substantial crop losses and poses a serious threat to global food security. Results We report the 615-Mb high-quality genome sequence of B. tabaci Middle East-Asia Minor 1 (MEAM1), the first genome sequence in the Aleyrodidae family, which contains 15,664 protein-coding genes. The B. tabaci genome is highly divergent from other sequenced hemipteran genomes, sharing no detectable synteny. A number of known detoxification gene families, including cytochrome P450s and UDP-glucuronosyltransferases, are significantly expanded in B. tabaci. Other expanded gene families, including cathepsins, large clusters of tandemly duplicated B. tabaci-specific genes, and phosphatidylethanolamine-binding proteins (PEBPs), were found to be associated with virus acquisition and transmission and/or insecticide resistance, likely contributing to the global invasiveness and efficient virus transmission capacity of B. tabaci. The presence of 142 horizontally transferred genes from bacteria or fungi in the B. tabaci genome, including genes encoding hopanoid/sterol synthesis and xenobiotic detoxification enzymes that are not present in other insects, offers novel insights into the unique biological adaptations of this insect such as polyphagy and insecticide resistance. Interestingly, two adjacent bacterial pantothenate biosynthesis genes, panB and panC, have been co-transferred into B. tabaci and fused into a single gene that has acquired introns during its evolution. Conclusions The B. tabaci genome contains numerous genetic novelties, including expansions in gene families associated with insecticide resistance, detoxification and virus transmission, as well as numerous horizontally transferred genes from bacteria and fungi. We believe these novelties likely have shaped B. tabaci as a highly invasive polyphagous crop pest and efficient vector of plant viruses. The genome serves as a reference for resolving the B. tabaci cryptic species complex, understanding fundamental biological novelties, and providing valuable genetic information to assist the development of novel strategies for controlling whiteflies and the viruses they transmit. Electronic supplementary material The online version of this article (doi:10.1186/s12915-016-0321-y) contains supplementary material, which is available to authorized users.

Published

2016

8. Persistent, circulative transmission of begomoviruses by whitefly vectors

Author

Michelle Cilia, Ran Rosen, Meytar Elimelech, Adi Kliot, Britto Cathrin Pakkianathan, Basheer Abu Farich, Nadine Santana-Magal, Surapathrudu Kanakala, Svetlana Kontsedalov, Murad Ghanim, and Galina Lebedev

Subjects

Genetics, Molecular interactions, Bacteria, biology, Virus transmission, Transmission (medicine), viruses, Agriculture, Whitefly, biology.organism_classification, Virology, Virus, Insect Vectors, Hemiptera, Begomovirus, Plant virus, Host-Pathogen Interactions, Animals, Symbiosis, Plant Diseases

Abstract

Begomoviruses comprise an emerging and economically important group of plant viruses exclusively transmitted by the sweetpotato whitefly Bemisia tabaci in many regions of the world. The past twenty years have witnessed significant progress in studying the molecular interactions between members of this virus group and B. tabaci. Mechanisms and proteins encoded by the insect vector and its bacterial symbionts, which have been shown to be important for virus transmission, have been identified and thoroughly studied. Despite the economic importance of this group of viruses and their impact on the global agriculture, progress in investigating the virus-vector interactions is moving slowly when compared with similar virus-vector systems in plants and animals. Major advances in this field and future perspectives will be discussed in this review.

Published

2015

9. Effects of radiation on inherited sterility in the European grapevine moth (Lobesia botrana )

Author

Adi Kliot, Adi Sadeh, Ally R. Harari, and Hadass Steinitz

Subjects

biology, Sterility, Offspring, General Medicine, Lobesia botrana, biology.organism_classification, Fecundity, Toxicology, Sterile insect technique, Insect Science, Sex pheromone, Botany, Inherited sterility in insects, Agronomy and Crop Science, Sex ratio

Abstract

BACKGROUND The sterile insect technique (SIT) is an alternative, environmentally friendly method for controlling insect pests. In the Lepidoptera, a low dose of gamma irradiation causes inherited sterility (SIT-IS), leading to full sterility in females but only partial sterility in males, which successfully compete with wild males for mates. This study examined the effect of a low radiation dose (150 Gy) on the fitness parameters of male and female Lobesia botrana, a polyphagous and major pest of vineyards found in the Middle East, Europe and the Americas. RESULTS Irradiation of the pupae did not affect their emergence rate, flight ability out of a cylinder, male response to sex pheromone in a field cage or male or female mating success. A major effect of irradiation was observed in the significantly reduced number of irradiated females' offspring reaching pupation, and as a consequence a limited number of F2 offspring. The effect of irradiation on male partial sterility (also called inherited sterility) was reflected in the male-biased sex ratio of F1 offspring of irradiated males, the reduced number of F1 offspring and the very low number of F2 descendants. CONCLUSION This study demonstrates the feasibility of controlling L. botrana using SIT-IS. Adding this method to the arsenal of environmentally friendly tools to control this pest may assist in further reducing the use of insecticides on edible crops. © 2014 Society of Chemical Industry

Published

2014

10. Implication of the Bacterial Endosymbiont Rickettsia spp. in Interactions of the Whitefly Bemisia tabaci with Tomato yellow leaf curl virus

Author

Henryk Czosnek, Michelle Cilia, Adi Kliot, and Murad Ghanim

Subjects

Immunology, Whitefly, Dengue virus, medicine.disease_cause, Microbiology, Virus, Hemiptera, Virology, Plant virus, medicine, Animals, Tomato yellow leaf curl virus, Rickettsia, Symbiosis, Pathogen, biology, fungi, food and beverages, biology.organism_classification, Gastrointestinal Tract, Begomovirus, Insect Science, Vector (epidemiology), Carrier State, Pathogenesis and Immunity, Microbial Interactions

Abstract

Numerous animal and plant viruses are transmitted by arthropod vectors in a persistent, circulative manner. Tomato yellow leaf curl virus (TYLCV) is transmitted by the sweet potato whitefly Bemisia tabaci . We report here that infection with Rickettsia spp., a facultative endosymbiont of whiteflies, altered TYLCV- B. tabaci interactions. A B. tabaci strain infected with Rickettsia acquired more TYLCV from infected plants, retained the virus longer, and exhibited nearly double the transmission efficiency compared to an uninfected B. tabaci strain with the same genetic background. Temporal and spatial antagonistic relationships were discovered between Rickettsia and TYLCV within the whitefly. In different time course experiments, the levels of virus and Rickettsia within the insect were inversely correlated. Fluorescence in situ hybridization analysis of Rickettsia -infected midguts provided evidence for niche exclusion between Rickettsia and TYLCV. In particular, high levels of the bacterium in the midgut resulted in higher virus concentrations in the filter chamber, a favored site for virus translocation along the transmission pathway, whereas low levels of Rickettsia in the midgut resulted in an even distribution of the virus. Taken together, these results indicate that Rickettsia , by infecting the midgut, increases TYLCV transmission efficacy, adding further insights into the complex association between persistent plant viruses, their insect vectors, and microorganism tenants that reside within these insects. IMPORTANCE Interest in bacterial endosymbionts in arthropods and many aspects of their host biology in agricultural and human health systems has been increasing. A recent and relevant studied example is the influence of Wolbachia on dengue virus transmission by mosquitoes. In parallel with our recently studied whitefly- Rickettsia -TYLCV system, other studies have shown that dengue virus levels in the mosquito vector are inversely correlated with bacterial load. Our work here presents evidence of unifying principles between vectors of plant and animal viruses in a role for endosymbionts in manipulating vector biology and pathogen transmission. Our results demonstrate the influence of an interesting and prominent bacterial endosymbiont in Bemisia tabaci in TYLCV transmission, a worldwide disease infecting tomatoes. Besides its agricultural importance, this system provides interesting insights into Bemisia interaction with these newly discovered endosymbionts.

Published

2014

11. Adaptation to nicotine in the facultative tobacco-feeding hemipteranBemisia tabaci

Author

Murad Ghanim, Svetlana Kontsedalov, Adi Kliot, John S Ramsey, and Georg Jander

Subjects

Honeydew, Neonicotinoid, General Medicine, Whitefly, Pesticide, Biology, biology.organism_classification, Microbiology, Nicotine, Insect Science, Toxicity, Botany, medicine, Bioassay, Mode of action, Agronomy and Crop Science, medicine.drug

Abstract

BACKGROUND: Plant defensive metabolites such as nicotine can provide barriers to host-range expansion by generalist herbivores. Nicotine is one of the most abundant and toxic plant secondary metabolites in nature and is defined by high toxicity to plant-feeding insects. There is significant variation in nicotine tolerance among Bemisia tabaci (tobacco whitefly) isolates. Some nicotine-tolerant B. tabaci strains can consume 40-fold higher nicotine levels than susceptible strains, and also show cross-resistance to neonicotinoid insecticides. In this study, biological and molecular assays were used to investigate the responses of B. tabaci strains that differ in their ability to tolerate dietary nicotine. RESULTS: Egg laying and honeydew secretion bioassays as well as gene expression microarrays were used to measure B. tabaci biological parameters and gene transcripts misregulated in response to nicotine in resistant and susceptible strains. The resistant B. tabaci strain laid significantly fewer eggs and excreted more honeydew on a tobacco strain with high levels of nicotine, suggesting a fitness cost effect. The molecular response was drastic in the susceptible strain, while the resistant strain exhibited moderate response. Higher expression of the previously identified CYP6CM1 P450 monooxygenase gene related to the resistance to neonicotinoids, as well as other P450s and metabolic genes, was identified in the resistant and susceptible strains after exposure to nicotine. CONCLUSIONS: Nicotine is a very toxic plant natural compound, and its mode of action resembles that of synthetic neonicotinoids. The biological and molecular responses observed in this study suggest that nicotine may play an important role in providing barriers for host-plant expansion by generalists, and may act as a natural factor that contributes to the development of insect populations resistant to synthetic pesticides. © 2014 Society of Chemical Industry Supporting information may be found in the online version of this article.

Published

2014

12. The Role of Bacterial Chaperones in the Circulative Transmission of Plant Viruses by Insect Vectors

Author

Adi Kliot and Murad Ghanim

Subjects

viruses, lcsh:QR1-502, circulative transmission, Luteoviridae, Review, virus, Bemisia tabaci, lcsh:Microbiology, Virus, GroEL, Hemiptera, Bacterial Proteins, Virology, Plant virus, Transmission of plant viruses, chaperone, Animals, Tomato yellow leaf curl virus, Potato leafroll virus, biology, Begomovirus, fungi, food and beverages, Chaperonin 60, biology.organism_classification, Insect Vectors, Infectious Diseases, Host-Pathogen Interactions, Myzus persicae, Molecular Chaperones

Abstract

Persistent circulative transmission of plant viruses involves complex interactions between the transmitted virus and its insect vector. Several studies have shown that insect vector proteins are involved in the passage and the transmission of the virus. Interestingly, proteins expressed by bacterial endosymbionts that reside in the insect vector, were also shown to influence the transmission of these viruses. Thus far, the transmission of two plant viruses that belong to different virus genera was shown to be facilitated by a bacterial chaperone protein called GroEL. This protein was shown to be implicated in the transmission of Potato leafroll virus (PLRV) by the green peach aphid Myzus persicae, and the transmission of Tomato yellow leaf curl virus (TYLCV) by the sweetpotato whitefly Bemisia tabaci. These tri-trophic levels of interactions and their possible evolutionary implications are reviewed.

Published

2013

13. Advances in Whiteflies and Thrips Management

Author

Adi Kliot, Galina Lebedev, Svetlana Kontsedalov, and Murad Ghanim

Subjects

0106 biological sciences, Honeydew, biology, Thrips, Resistance (ecology), business.industry, Spinosad, Whitefly, biology.organism_classification, 01 natural sciences, Western flower thrips, 010602 entomology, Agronomy, Agriculture, Ornamental plant, medicine, business, 010606 plant biology & botany, medicine.drug

Abstract

The sweetpotato whitefly Bemisia tabaci and thrips species such as the tobacco thrips, Thrips tabaci and the western flower thrips Frankliniella occidentalis are major agricultural pests in various vegetable, ornamental and field crops. These pests cause extensive damage by a direct feeding on plants, reducing quality of the produce, secreting honeydew and transmitting economically important viruses. Management programs of both whitefly and thrips species rely on using chemical insecticides, resulting thereby in developing resistance to all major insecticide classes makes them a continuous problem in many cropping systems. Resistance monitoring is a major approach for the management and reducing resistance, and thus during the last decade B. tabaci, T. tabaci and F. occidentalis populations in Israel have been monitored for resistance to major insecticide classes. Monitoring results show that many T. tabaci and F. occidentalis populations were found to be resistant to major insecticides used for controlling thrips species, primarily spinosad, while whitefly populations were found to exhibit varying levels of resistance to neonicotinoids and other classes, depending on the whitefly biotype and other agricultural practices. The long-term monitoring results and their integration into resistance management programs will be presented in this review.

Published

2016

14. Fitness costs associated with insecticide resistance

Author

Murad Ghanim and Adi Kliot

Subjects

business.industry, media_common.quotation_subject, fungi, Genetic Fitness, General Medicine, Insect, Drug resistance, Biology, Detoxification enzymes, Toxic chemical, Biotechnology, Toxicology, Insecticide resistance, Insect Science, Biological dispersal, business, Agronomy and Crop Science, media_common, Fitness cost

Abstract

Insects are exposed to a variety of stress factors in their environment, and, in many cases for insect pests to agriculture, those factors include toxic chemical insecticides. Coping with the toxicity of insecticides can be costly and requires energy and resource allocation for adaptation and survival. Several behavioural, physiological and genetic mechanisms are used by insects to handle toxic insecticides, sometimes leading to resistance by constitutive overexpression of detoxification enzymes or inducing mutations in the target sites. Such actions are costly and may affect reproduction, impair dispersal ability and have several other effects on the insect's fitness. Fitness costs resulting from resistance to insecticides has been reported in many insects from different orders, and several examples are given in this mini-review.

Published

2012

15. Fluorescent in situ hybridization for the localization of viruses, bacteria and other microorganisms in insect and plant tissues

Author

Murad Ghanim and Adi Kliot

Subjects

0301 basic medicine, Tissue Fixation, Transcription, Genetic, Microorganism, 030106 microbiology, Oligonucleotides, Nanotechnology, In situ hybridization, Signal-To-Noise Ratio, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, chemistry.chemical_compound, Plant virus, medicine, Animals, RNA, Messenger, Symbiosis, Molecular Biology, In Situ Hybridization, Fluorescence, Fluorescent Dyes, biology, medicine.diagnostic_test, Diptera, fungi, Peas, biology.organism_classification, Biochemistry, chemistry, Gene Expression Regulation, Nucleic acid, Weevils, Botrytis, Molecular probe, Digoxigenin, Bacteria, DNA, Wolbachia, Fluorescence in situ hybridization

Abstract

Methods for the localization of cellular components such as nucleic acids, proteins, cellular vesicles and more, and the localization of microorganisms including viruses, bacteria and fungi have become an important part of any research program in biological sciences that enable the visualization of these components in fixed and live tissues without the need for complex processing steps. The rapid development of microscopy tools and technologies as well as related fluorescent markers and fluorophores for many cellular components, and the ability to design DNA and RNA sequence-based molecular probes and antibodies which can be visualized fluorescently, have rapidly advanced this field. This review will focus on some of the localizations methods which have been used in plants and insect pests in agriculture, and other microorganisms, which are rapidly advancing the research in agriculture-related fields.

Published

2015

16. Is there a role for symbiotic bacteria in plant virus transmission by insects?

Author

Patricia V. Pinheiro, Murad Ghanim, Adi Kliot, and Michelle Cilia

Subjects

0106 biological sciences, Genetics, 0303 health sciences, Virus transmission, fungi, food and beverages, biochemical phenomena, metabolism, and nutrition, Biology, 01 natural sciences, Virology, Phenotype, law.invention, 010602 entomology, 03 medical and health sciences, Transmission (mechanics), law, Insect Science, Plant virus, Pathogen, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Symbiotic bacteria

Abstract

During the process of circulative plant virus transmission by insect vectors, viruses interact with different insect vector tissues prior to transmission to a new host plant. An area of intense debate in the field is whether bacterial symbionts of insect vectors are involved in the virus transmission process. We critically review the literature in this area and present a simple model that can be used to quantitatively settle the debate. The simple model determines whether the symbiont is involved in virus transmission and determines what fraction of the pathogen transmission phenotype is contributed by the symbiont. The model is general and can be applied to any vector-pathogen-symbiont interactions.

Published

2014

17. Diversity and Localization of Bacterial Endosymbionts from Whitefly Species Collected in Brazil

Author

Adi Kliot, Murad Ghanim, Valdir Atsushi Yuki, Marcelo Agenor Pavan, Renate Krause-Sakate, Jorge Alberto Marques Rezende, Julio Massaharu Marubayashi, Agr Res Org, Universidade Estadual Paulista (Unesp), Inst Agron Campinas, and Escola Super Agr

Subjects

food.ingredient, Science, Molecular Sequence Data, Population, Trialeurodes, Whitefly, Microbiology, Microbial Ecology, Hemiptera, food, Enterobacteriaceae, Mutualism, Botany, Animals, Symbiosis, education, Molecular Biology, education.field_of_study, Multidisciplinary, Ecology, biology, Biology and Life Sciences, Agriculture, Bacteriome, Greenhouse whitefly, biology.organism_classification, SIMBIOSE, Species Interactions, Medicine, Wolbachia, Arsenophonus, Brazil, Research Article

Abstract

Made available in DSpace on 2015-03-18T15:56:04Z (GMT). No. of bitstreams: 0 Previous issue date: 2014-09-26Bitstream added on 2015-03-18T16:28:28Z : No. of bitstreams: 1 WOS000342685600067.pdf: 879625 bytes, checksum: 2e56db3f677cbd0d33020d8f46518bef (MD5) Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) Whiteflies (Hemiptera: Aleyrodidae) are sap-sucking insect pests, and some cause serious damage in agricultural crops by direct feeding and by transmitting plant viruses. Whiteflies maintain close associations with bacterial endosymbionts that can significantly influence their biology. All whitefly species harbor a primary endosymbiont, and a diverse array of secondary endosymbionts. In this study, we surveyed 34 whitefly populations collected from the states of Sao Paulo, Bahia, Minas Gerais and Parana in Brazil, for species identification and for infection with secondary endosymbionts. Sequencing the mitochondrial Cytochrome Oxidase I gene revealed the existence of five whitefly species: The sweetpotato whitefly Bemisia tabaci B biotype (recently termed Middle East-Asia Minor 1 or MEAM1), the greenhouse whitefly Trialeurodes vaporariorum, B. tabaci A biotype (recently termed New World 2 or NW2) collected only from Euphorbia, the Acacia whitefly Tetraleurodes acaciae and Bemisia tuberculata both were detected only on cassava. Sequencing rRNA genes showed that Hamiltonella and Rickettsia were highly prevalent in all MEAM1 populations, while Cardinium was close to fixation in only three populations. Surprisingly, some MEAM1 individuals and one NW2 population were infected with Fritschea. Arsenopnohus was the only endosymbiont detected in T. vaporariorum. In T. acaciae and B. tuberculata populations collected from cassava, Wolbachia was fixed in B. tuberculata and was highly prevalent in T. acaciae. Interestingly, while B. tuberculata was additionally infected with Arsenophonus, T. acaciae was infected with Cardinium and Fritschea. Fluorescence in situ hybridization analysis on representative individuals showed that Hamiltonella, Arsenopnohus and Fritschea were localized inside the bacteriome, Cardinium and Wolbachia exhibited dual localization patterns inside and outside the bacteriome, and Rickettsia showed strict localization outside the bacteriome. This study is the first survey of whitely populations collected in Brazil, and provides further insights into the complexity of infection with secondary endosymionts in whiteflies. Agr Res Org, Volcani Ctr, Dept Entomol, IL-50250 Bet Dagan, Israel UNESP, Fac Ciencias, Dept Fitossanidade, Botucatu, Sao Paolo, Brazil Inst Agron Campinas, Campinas, Sao Paolo, Brazil Escola Super Agr, Dept Fitopato & Nematol, Piracicaba, Sao Paolo, Brazil UNESP, Fac Ciencias, Dept Fitossanidade, Botucatu, Sao Paolo, Brazil CAPES: 9521/11-9

Published

2014

18. Fluorescence in situ Hybridizations (FISH) for the Localization of Viruses and Endosymbiotic Bacteria in Plant and Insect Tissues

Author

Pakkianathan Britto Cathrin, Marisa Škaljac, Julio Massaharu Marubayashi, Marina Brumin, Murad Ghanim, Eduard Belausov, Adi Kliot, Svetlana Kontsedalov, Henryk Czosnek, and Galina Lebedev

Subjects

Genetics, Reporter gene, medicine.diagnostic_test, General Immunology and Microbiology, Hybridization probe, General Chemical Engineering, General Neuroscience, Computational biology, In situ hybridization, Biology, General Biochemistry, Genetics and Molecular Biology, Gene expression profiling, chemistry.chemical_compound, chemistry, medicine, DNA microarray, Gene, DNA, Fluorescence in situ hybridization

Abstract

Fluorescence in situ hybridization (FISH) is a name given to a variety of techniques commonly used for visualizing gene transcripts in eukaryotic cells and can be further modified to visualize other components in the cell such as infection with viruses and bacteria. Spatial localization and visualization of viruses and bacteria during the infection process is an essential step that complements expression profiling experiments such as microarrays and RNAseq in response to different stimuli. Understanding the spatiotemporal infections with these agents complements biological experiments aimed at understanding their interaction with cellular components. Several techniques for visualizing viruses and bacteria such as reporter gene systems or immunohistochemical methods are time-consuming, and some are limited to work with model organisms and involve complex methodologies. FISH that targets RNA or DNA species in the cell is a relatively easy and fast method for studying spatiotemporal localization of genes and for diagnostic purposes. This method can be robust and relatively easy to implement when the protocols employ short hybridizing, commercially-purchased probes, which are not expensive. This is particularly robust when sample preparation, fixation, hybridization, and microscopic visualization do not involve complex steps. Here we describe a protocol for localization of bacteria and viruses in insect and plant tissues. The method is based on simple preparation, fixation, and hybridization of insect whole mounts and dissected organs or hand-made plant sections, with 20 base pairs short DNA probes conjugated to fluorescent dyes on their 5' or 3' ends. This protocol has been successfully applied to a number of insect and plant tissues, and can be used to analyze expression of mRNAs or other RNA or DNA species in the cell.

Published

2014

19. Adaptation to nicotine in the facultative tobacco-feeding hemipteran Bemisia tabaci

Author

Adi, Kliot, Svetlana, Kontsedalov, John S, Ramsey, Georg, Jander, and Murad, Ghanim

Subjects

Hemiptera, Insecticide Resistance, Insecticides, Nicotine, Cytochrome P-450 Enzyme System, Oviposition, Tobacco, Animals, Gene Expression, Biological Assay

Abstract

Plant defensive metabolites such as nicotine can provide barriers to host-range expansion by generalist herbivores. Nicotine is one of the most abundant and toxic plant secondary metabolites in nature and is defined by high toxicity to plant-feeding insects. There is significant variation in nicotine tolerance among Bemisia tabaci (tobacco whitefly) isolates. Some nicotine-tolerant B. tabaci strains can consume 40-fold higher nicotine levels than susceptible strains, and also show cross-resistance to neonicotinoid insecticides. In this study, biological and molecular assays were used to investigate the responses of B. tabaci strains that differ in their ability to tolerate dietary nicotine.Egg laying and honeydew secretion bioassays as well as gene expression microarrays were used to measure B. tabaci biological parameters and gene transcripts misregulated in response to nicotine in resistant and susceptible strains. The resistant B. tabaci strain laid significantly fewer eggs and excreted more honeydew on a tobacco strain with high levels of nicotine, suggesting a fitness cost effect. The molecular response was drastic in the susceptible strain, while the resistant strain exhibited moderate response. Higher expression of the previously identified CYP6CM1 P450 monooxygenase gene related to the resistance to neonicotinoids, as well as other P450s and metabolic genes, was identified in the resistant and susceptible strains after exposure to nicotine.Nicotine is a very toxic plant natural compound, and its mode of action resembles that of synthetic neonicotinoids. The biological and molecular responses observed in this study suggest that nicotine may play an important role in providing barriers for host-plant expansion by generalists, and may act as a natural factor that contributes to the development of insect populations resistant to synthetic pesticides.

Published

2013

20. Effects of radiation on inherited sterility in the European grapevine moth (Lobesia botrana)

Author

Hadass, Steinitz, Adi, Sadeh, Adi, Kliot, and Ally, Harari

Subjects

Male, Sexual Behavior, Animal, Flight, Animal, Oviposition, Longevity, Metamorphosis, Biological, Animals, Female, Moths, Pest Control, Biological

Abstract

The sterile insect technique (SIT) is an alternative, environmentally friendly method for controlling insect pests. In the Lepidoptera, a low dose of gamma irradiation causes inherited sterility (SIT-IS), leading to full sterility in females but only partial sterility in males, which successfully compete with wild males for mates. This study examined the effect of a low radiation dose (150 Gy) on the fitness parameters of male and female Lobesia botrana, a polyphagous and major pest of vineyards found in the Middle East, Europe and the Americas.Irradiation of the pupae did not affect their emergence rate, flight ability out of a cylinder, male response to sex pheromone in a field cage or male or female mating success. A major effect of irradiation was observed in the significantly reduced number of irradiated females' offspring reaching pupation, and as a consequence a limited number of F2 offspring. The effect of irradiation on male partial sterility (also called inherited sterility) was reflected in the male-biased sex ratio of F1 offspring of irradiated males, the reduced number of F1 offspring and the very low number of F2 descendants.This study demonstrates the feasibility of controlling L. botrana using SIT-IS. Adding this method to the arsenal of environmentally friendly tools to control this pest may assist in further reducing the use of insecticides on edible crops.

Published

2013

21. RNA Interference and Its Potential for Developing New Control Methods Against Insect Pests

Author

Murad Ghanim and Adi Kliot

Subjects

Regulation of gene expression, biology, ved/biology, fungi, ved/biology.organism_classification_rank.species, RNA, Computational biology, Argonaute, RNA interference, biology.protein, Model organism, Gene, Functional genomics, Dicer

Abstract

RNA interference (RNAi) is a novel mechanism for the regulation of gene expression that was first discovered in the model nematode Caenorhabditis elegans. Since its discovery, there has been an explosion in the number of publications that described the mechanisms by which RNAi is activated and regulated in many organisms. Major advancements in this field include the discovery that double-stranded RNA molecules are a major factor that drives the initiation of the process, discovering the role of small interfering RNAs, mechanisms of RNA cleavage by Dicer and the discovery of the first Argonaute proteins in model organisms such as C. elegans, Drosophila melanogaster and mammalian cell lines. Despite these important discoveries in model organisms, non-model organisms still suffer major lack in understanding their RNAi machinery, especially the components of the pathway and the enzymes involved. There is a great potential of RNAi in studying gene function and regulation and complementing functional genomics approaches. RNAi might foster the discovery of new gene functions and unravel new technologies for the suppression of the harmful traits caused by disease agents such as viruses, pathogenic bacteria, fungi and insect pests in animal and plant systems. However, a major challenge remains the technologies by which RNAi signals can be delivered and triggered, while preventing non specific effects.

Published

2012

22. Fitness costs associated with insecticide resistance

Author

Adi, Kliot and Murad, Ghanim

Subjects

Insecticides, Insecta, Species Specificity, Drug Resistance, Animals, Humans, Genetic Fitness

Abstract

Insects are exposed to a variety of stress factors in their environment, and, in many cases for insect pests to agriculture, those factors include toxic chemical insecticides. Coping with the toxicity of insecticides can be costly and requires energy and resource allocation for adaptation and survival. Several behavioural, physiological and genetic mechanisms are used by insects to handle toxic insecticides, sometimes leading to resistance by constitutive overexpression of detoxification enzymes or inducing mutations in the target sites. Such actions are costly and may affect reproduction, impair dispersal ability and have several other effects on the insect's fitness. Fitness costs resulting from resistance to insecticides has been reported in many insects from different orders, and several examples are given in this mini-review.

Published

2011