about
Conditioning individual mosquitoes to an odor: sex, source, and timeReframing critical needs in vector biology and management of vector-borne disease.An agent-based model of the population dynamics of Anopheles gambiaeControl of malaria and other vector-borne protozoan diseases in the tropics: enduring challenges despite considerable progress and achievements.Next-generation site-directed transgenesis in the malaria vector mosquito Anopheles gambiae: self-docking strains expressing germline-specific phiC31 integrase.Mitigating Future Avian Malaria Threats to Hawaiian Forest Birds from Climate Change.The toxin and antidote puzzle: new ways to control insect pest populations through manipulating inheritancePerceptions and recommendations by scientists for a potential release of genetically modified mosquitoes in Nigeria.Transgenesis and paratransgenesis to control insect-borne diseases: current status and future challenges.Site-specific integration and expression of an anti-malarial gene in transgenic Anopheles gambiae significantly reduces Plasmodium infections.Comparative fitness assessment of Anopheles stephensi transgenic lines receptive to site-specific integration.Engineered resistance to Plasmodium falciparum development in transgenic Anopheles stephensi.Medusa: a novel gene drive system for confined suppression of insect populations.Knockdown of mitogen-activated protein kinase (MAPK) signalling in the midgut of Anopheles stephensi mosquitoes using antisense morpholinos.Male mating history and body size influence female fecundity and longevity of the dengue vector Aedes aegypti.Establishment of a self-propagating population of the African malaria vector Anopheles arabiensis under semi-field conditionsSemele: a killer-male, rescue-female system for suppression and replacement of insect disease vector populations.Reactive oxygen species-dependent cell signaling regulates the mosquito immune response to Plasmodium falciparum.New insights into the population structure of Anopheles gambiae s.s. in the Gulf of Guinea Islands revealed by Herves transposable elements.Inverse Medea as a novel gene drive system for local population replacement: a theoretical analysisEvaluating paratransgenesis as a potential control strategy for African trypanosomiasis.Defects in coatomer protein I (COPI) transport cause blood feeding-induced mortality in Yellow Fever mosquitoes.Secretion of anti-Plasmodium effector proteins from a natural Pantoea agglomerans isolate by using PelB and HlyA secretion signalsLow- and high-tech approaches to control Plasmodium parasite transmission by anopheles mosquitoes.A Drosophila toolkit for the visualization and quantification of viral replication launched from transgenic genomes.Requirements for effective malaria control with homing endonuclease genes.Confinement of gene drive systems to local populations: a comparative analysisA computer simulation model of Wolbachia invasion for disease vector population modification.General principles of single-construct chromosomal gene drive.Transgenic Anopheles stephensi coexpressing single-chain antibodies resist Plasmodium falciparum development.Evidence of polyandry for Aedes aegypti in semifield enclosuresEthical issues in field trials of genetically modified disease-resistant mosquitoes.Exogenous gypsy insulator sequences modulate transgene expression in the malaria vector mosquito, Anopheles stephensi.Overexpression of phosphatase and tensin homolog improves fitness and decreases Plasmodium falciparum development in Anopheles stephensi.Asaia accelerates larval development of Anopheles gambiae.The Cartagena Protocol and genetically modified mosquitoes.Molecular phylogeny of the Myzorhynchella Section of Anopheles (Nyssorhynchus) (Diptera: Culicidae): genetic support for recently described and resurrected species.Teilhard de Chardin's oeuvre within an ongoing discussion of a gene drive release for public health reasons.Using Multicore Technologies to Speed Up Complex Simulations of Population Evolution
P2860
Q27322364-6744CCE1-697A-4CB7-88FD-F11E11BDD59DQ27490965-32E3B046-760B-45C0-941E-EF83BC841943Q28656177-563A0685-6CE9-4341-9DA2-52183CEB0CDCQ30565638-7D62314F-1C9E-428C-B8BA-3D28B407B548Q30604719-022FDE00-F3F8-4F8A-A038-DD4DCD3CDDF5Q31153301-C6D51CED-5ED6-4AF5-A542-A1CA8DB94E47Q33352046-5A2521F9-51E4-4BB0-8353-949785B0B7D5Q33612725-F948BC41-7E21-4B1F-BD5A-9E67148E9978Q33665453-BC1C2959-DBFE-4F5A-B396-6D0460C7562DQ33808793-D5748558-9E5A-4D75-9AC5-D16FCB014179Q33823736-C77A3E3D-7838-49DC-B437-BF96D8ADB19CQ33886121-BEBA12E0-4074-4E4B-9D8B-391C7B3216F3Q33939967-A05121D8-24FD-44AA-877D-B1346964D66AQ34156491-46533D5F-F1EB-457A-99FB-5DA35A43D3B6Q34278958-35945774-B73F-4152-A376-847E706A8AE8Q34473802-901EDC15-C54E-4376-BE81-11DFA977192BQ34537606-A8FCEF81-2200-4035-9807-89E2531EA763Q34589267-06093451-3B0E-47FF-9B0B-29ECEA3237CAQ34702203-5BCC8B79-78A0-4D2B-8B57-3D1AA87EA9F1Q34792574-7D97DB45-6D77-480A-BE3B-4D419647C6F5Q34965795-305F4E78-FC4C-4664-B455-AE3F5B5E0560Q35049233-4903A7F5-7190-4A0C-B31F-3C3A13088C17Q35080925-F4874F40-5A2D-478E-A9DA-64BAAC9DA4B5Q35169676-B87402B3-435F-49E5-BE9C-BA62B739EA57Q35410067-864F8091-8586-45F9-A3AB-8975D9D1DA75Q35470978-7B6C0962-451A-4B25-9252-F5B4CC3ED14AQ35677131-141F8823-BD3B-4315-81D8-A3C9C599FB22Q35800146-0788B3F1-1B4A-40E4-B5C4-D60B43737CC2Q36076142-8BEEB062-453C-4D59-AA0D-46D65ED0C093Q36094377-99D6117E-4E8B-4727-B987-84B57C1BD475Q36112221-CC0DC966-774D-4247-AF0C-9FA4C748539DQ36750931-1E70D3E4-D09B-49BC-95E4-9FFA7F349CDDQ36820014-87D35948-8B7B-4742-BA9F-3C8B66B61796Q37211363-41A61D59-7477-40A8-A74B-10631DEFAC06Q37726818-E6CCD916-E0DA-4FAD-A178-F4DAF67A8C7FQ44153634-25A4CC73-AEBA-4AD3-B73E-C5AC5AEDBDF7Q44160608-FA0D8203-8B89-4903-B2A3-F2E3F4CCE6ECQ47131533-356EC982-CE03-4998-9E09-74C62766B7A7Q58917950-6196124A-92ED-49D3-9792-BC04F005EC01
P2860
description
2009 nî lūn-bûn
@nan
2009 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
Malaria Control with Transgenic Mosquitoes
@ast
Malaria Control with Transgenic Mosquitoes
@en
Malaria Control with Transgenic Mosquitoes
@nl
type
label
Malaria Control with Transgenic Mosquitoes
@ast
Malaria Control with Transgenic Mosquitoes
@en
Malaria Control with Transgenic Mosquitoes
@nl
prefLabel
Malaria Control with Transgenic Mosquitoes
@ast
Malaria Control with Transgenic Mosquitoes
@en
Malaria Control with Transgenic Mosquitoes
@nl
P2860
P921
P1433
P1476
Malaria Control with Transgenic Mosquitoes
@en
P2093
Charles E Taylor
John M Marshall
P2860
P356
10.1371/JOURNAL.PMED.1000020
P407
P5008
P577
2009-02-10T00:00:00Z