Advances in Disease Vector Research

Volume 10 of Advances in Disease Vector Research consists of seven chapters on vectors that affect human or animal health and six chapters on plant pathogens and their vectors. In Chapter 1, Yasuo Chinzei and DeMar Taylor discuss hormonal regulation of vitellogenesis in ticks. Many blood sucking insects and ticks transmit pathogens by engorgement, which induces vitellogenesis and oviposition in adult animals. To investigate the pathogen transmission mechanism in vector animals, information on the host physiological and endocrinological conditions after engorgement is useful and important because pathogen development or proliferation occurs in the vector hosts at the same time as the host reproduction. Chinzei and Taylor have shown that in ticks, juvenile hormone (JH) is not involved in the endocrinological processes inducing vitellogenin biosynthesis. Synganglion (tick brain) factor(s) (vitellogenesis inducing factor, VIF) is more important to initiate vitellogenesis after engorgement, and ecdysteroids are also related to induction of vitellogenin synthesis. In their chapter, based mainly on their own experimental data, the authors discuss the characterization of main yolk protein, vitellogenin (Vg) , biosynthesis and processing in the fat body, and hormonal regulation of Vg synthesis in tick systems, including ixodid and argasid ticks.

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This series spans the disciplines of entomology, plant pathology and virology by exploring the mechanisms by which vectors - carriers of disease agents - acquire and transmit pathogens such as viruses to their plant and animal hosts. The series covers the spectrum of vectors from mosquitos and leafhoppers to nematodes, and pathogens from viruses to mycoplasmas to protozoa. Articles deal with the emerging science of vector ecology, and consider both biotic and abiotic environmental influences on disease transmission. As a forum to present current thinking in this field, the series is an important resource for researchers and students involved in understanding and overcoming the many vector-borne diseases of plants, animals, and humans.

Contenu
1 Hormonal Regulation of Vitellogenin Biosynthesis in Ticks.- Vitellogenesis in Ticks.- Vitellogenin in Ticks.- Site of Vitellogenin Synthesis.- Vitellogenin Biosynthesis and Processing.- Hormonal Control of Vitellogenesis.- Regulation Factors of Vitellogenesis and Ovarian Development.- Conclusion.- References.- 2 The Biology of Theileria Species in Ixodid Ticks in Relation to Parasite Transmission.- Theileria Species.- Ixodid Vectors.- Development Cycle of Theileria in Ticks.- Factors that Control the Dynamic of Theileria Transmission.- Conclusions.- References.- 3 A Model for Relationships among the Tick-Borne Encephalitis Virus, Its Main Vectors, and Hosts.- Basic Principles.- Analysis of Former Schemes for TBE Virus Circulation.- Generation Balance of the Main Virus Vector.- The Virus Population Balance in Relation to the Development of the Main Vector Generation.- Major Ecological Aspects of the TBE Virus Life Scheme.- Analysis of the Model.- Principles of Dynamics of the Epizootic Process.- Conclusions.- References.- 4 Genetics of Insect Vector Competence for Arboviruses.- and Background.- Vector Competence.- Genetics of Vector Competence.- Molecular Biology and Genetics of Vector Competence.- Conclusions.- References.- 5 The Endocrinology of the Adult Female Mosquito.- Juvenile Hormone.- Ecdysteroids.- Peptides.- Hormonal Regulation of Egg Development in Mosquitoes Other Than Aedes aegypti.- Implications for Vector Biology.- Conclusions.- References.- 6 Human Malaria Transmission: Reconciling Field and Laboratory Data.- Measuring Malaria Transmission.- Factors Influencing Malaria Transmission.- Conclusions.- References.- 7 Factors Affecting Filarial Transmission by Simuliids.- The Filarial Parasite.- The Simuliid Vector.- Filaria Transmission.- Conclusions.- References.- 8 Strategies for Controlling African Cassava Mosaic Geminivirus.- Possible Control Measures.- Integration of Control Measures.- Conclusions.- References.- 9 Practices and Perspective of Control of Papaya Ringspot Virus by Cross Protection.- Generation of Mild Virus Strains of PRV.- Large Scale Application in Taiwan.- Application in Hawaii.- Application in Other Parts of the World.- Potential Disadvantages.- Problems of Strain-Specific Protection.- Search for Mild Strain Derived from Local Severe Strains.- Cross Protection Integrated with Tolerant Varieties.- Construction of Attenuated Strains by Recombinant DNA Technique.- Innovative Approach on Genetically Engineered Cross Protection.- Concluding Remarks.- References.- 10 Tomato Yellow Leaf Curl Virus, a Whitefly-Borne Geminivirus of Tomatoes.- Host Range.- Cytopathology of TYLCV.- Virus Purification.- Serological Relationships.- The Molecular Biology of TYLCV.- TYLCV-Like Geminiviruses.- The Phylogeny of TYLCV.- Virus-Vector Relationships Biological Interaction with the Vector.- Epidemiology.- Control.- Concluding Remarks.- References.- 11 Propagative Transmission of Plant and Animal Viruses by Insects: Factors Affecting Vector Specificity and Competence.- Transmission Characteristics of Propagative Insect-Borne Viruses.- Sequence of Events in a Propagative Transmission Cycle.- Intrinsic Factors Affecting Vector Specificity, Efficiency, and Competence.- Extrinsic Factors Affecting Vector Competence.- Pathogenicity and Modulation of Viruses in Their Insect Vectors.- Conclusions and Prospects.- References.- 12. Vectors of Plant Parasites of the Genus Phytomonas (Protozoa, Zoomastigophorea, Kinetoplastida).- Family Trypanosomatidae.- Genus Phytomonas.- Trypanosomatids in Hemiptera.- Hemiptera as Vectors.-Mouthparts and Salivary Glands.- Evidence Linking Hemiptera to Transmission of Phytomonas of Latex Plants.- Habits of Vectors of Latex Phytomonas.- Discovery of Transmission of Phloem-Infecting Phytomonas.- Discovery of Transmission of Fruit-Infecting Phytomonas.- Discovery of Phytomonas in Insects.- Cycle in Insect.- Opportunities for Future Work.- References.- 13 Molecular Biology of Plant Virus-Vector Interactions.- Types of Virus Vectors.- Virus-Vector Interactions.- Specific Vectors.- Sites of Interactions in Vectors.- Virus Genes Involved in Vector Interactions.- Discussion.- References.