2020
Linked-read sequencing identifies abundant microinversions and introgression in the arboviral vector Aedes aegypti
Redmond S, Sharma A, Sharakhov I, Tu Z, Sharakhova M, Neafsey D. Linked-read sequencing identifies abundant microinversions and introgression in the arboviral vector Aedes aegypti. BMC Biology 2020, 18: 26. PMID: 32164699, PMCID: PMC7068900, DOI: 10.1186/s12915-020-0757-y.Peer-Reviewed Original ResearchMeSH KeywordsAedesAnimalsChromosome InversionChromosomesGenetic IntrogressionGenetic VariationHigh-Throughput Nucleotide SequencingMosquito VectorsConceptsChromosomal inversionsFuture population genetic studiesRelated sister speciesPolytene chromosome analysisArboviral vector Aedes aegyptiLinked-read sequencingPopulation genetic studiesChromosome banding patternsHost-feeding preferencesAedes aegyptiPhenotypic divergenceSister speciesSecondary contactChromosomal diversityDeep Illumina sequencingDipteran insectsRepetitive genomesIllumina sequencingFeeding preferencesGenomic rearrangementsHost preferenceSequencing dataVector Aedes aegyptiGenetic studiesSubspecies
2019
In Silico Karyotyping of Chromosomally Polymorphic Malaria Mosquitoes in the Anopheles gambiae Complex
Love R, Redmond S, Pombi M, Caputo B, Petrarca V, della Torre A, Consortium T, Besansky N. In Silico Karyotyping of Chromosomally Polymorphic Malaria Mosquitoes in the Anopheles gambiae Complex. G3: Genes, Genomes, Genetics 2019, 9: 3249-3262. PMID: 31391198, PMCID: PMC6778791, DOI: 10.1534/g3.119.400445.Peer-Reviewed Original ResearchConceptsInversion genotypesSingle nucleotide polymorphismsInversion polymorphismTag single nucleotide polymorphismsChromosomal inversion polymorphismTag SNP genotypesAnopheles gambiae complexParacentric inversion polymorphismEnvironmental heterogeneityChromosomal rearrangementsImportant phenotypesMalaria mosquitoesSilico karyotypingNatural variationGambiae complexMosquito speciesTraditional cytogeneticsCytogenetic methodsBiallelic genotypesSignificant vectorSNP genotypesGonotrophic stagesNucleotide polymorphismsGenomeHuman malaria
2018
Improved reference genome of Aedes aegypti informs arbovirus vector control
Matthews BJ, Dudchenko O, Kingan SB, Koren S, Antoshechkin I, Crawford JE, Glassford WJ, Herre M, Redmond SN, Rose NH, Weedall GD, Wu Y, Batra SS, Brito-Sierra CA, Buckingham SD, Campbell CL, Chan S, Cox E, Evans BR, Fansiri T, Filipović I, Fontaine A, Gloria-Soria A, Hall R, Joardar VS, Jones AK, Kay RGG, Kodali VK, Lee J, Lycett GJ, Mitchell SN, Muehling J, Murphy MR, Omer AD, Partridge FA, Peluso P, Aiden AP, Ramasamy V, Rašić G, Roy S, Saavedra-Rodriguez K, Sharan S, Sharma A, Smith ML, Turner J, Weakley AM, Zhao Z, Akbari OS, Black WC, Cao H, Darby AC, Hill CA, Johnston JS, Murphy TD, Raikhel AS, Sattelle DB, Sharakhov IV, White BJ, Zhao L, Aiden EL, Mann RS, Lambrechts L, Powell JR, Sharakhova MV, Tu Z, Robertson HM, McBride CS, Hastie AR, Korlach J, Neafsey DE, Phillippy AM, Vosshall LB. Improved reference genome of Aedes aegypti informs arbovirus vector control. Nature 2018, 563: 501-507. PMID: 30429615, PMCID: PMC6421076, DOI: 10.1038/s41586-018-0692-z.Peer-Reviewed Original ResearchMeSH KeywordsAedesAnimalsArbovirus InfectionsArbovirusesDengue VirusDNA Copy Number VariationsFemaleGenetic VariationGenetics, PopulationGenome, InsectGenomicsGlutathione TransferaseInsect ControlInsecticide ResistanceMaleMolecular Sequence AnnotationMosquito VectorsMultigene FamilyPyrethrinsReference StandardsSex Determination ProcessesConceptsGenome assemblySex-determining M locusHigh-quality genome assemblyInsecticide resistancePopulation genomic analysesQuantitative trait lociGlutathione S-transferase geneEgg-laying sitesNew biological insightsDangerous viral pathogensCopy number variationsDengue vector competenceCytogenetic mapTrait lociReference genomeGenomic analysisBiological insightsDisease vectorsM locusFemale Aedes aegypti mosquitoesIonotropic receptorsVector competenceHuman hostAedes aegypti mosquitoesLoci
2017
Genetic diversity of the African malaria vector Anopheles gambiae
Miles A, Harding N, Bottà G, Clarkson C, Antão T, Kozak K, Schrider D, Kern A, Redmond S, Sharakhov I, Pearson R, Bergey C, Fontaine M, Donnelly M, Lawniczak M, Kwiatkowski D, Donnelly M, Ayala D, Besansky N, Burt A, Caputo B, della Torre A, Fontaine M, Godfray H, Hahn M, Kern A, Kwiatkowski D, Lawniczak M, Midega J, Neafsey D, O’Loughlin S, Pinto J, Riehle M, Sharakhov I, Vernick K, Weetman D, Wilding C, White B, Troco A, Pinto J, Diabaté A, O’Loughlin S, Burt A, Costantini C, Rohatgi K, Besansky N, Elissa N, Pinto J, Coulibaly B, Riehle M, Vernick K, Pinto J, Dinis J, Midega J, Mbogo C, Bejon P, Wilding C, Weetman D, Mawejje H, Donnelly M, Weetman D, Wilding C, Donnelly M, Stalker J, Rockett K, Drury E, Mead D, Jeffreys A, Hubbart C, Rowlands K, Isaacs A, Jyothi D, Malangone C, Vauterin P, Jeffery B, Wright I, Hart L, Kluczyński K, Cornelius V, MacInnis B, Henrichs C, Giacomantonio R, Kwiatkowski D. Genetic diversity of the African malaria vector Anopheles gambiae. Nature 2017, 552: 96-100. PMID: 29186111, PMCID: PMC6026373, DOI: 10.1038/nature24995.Peer-Reviewed Original Research
2011
VectorBase: improvements to a bioinformatics resource for invertebrate vector genomics
Megy K, Emrich S, Lawson D, Campbell D, Dialynas E, Hughes D, Koscielny G, Louis C, MacCallum R, Redmond S, Sheehan A, Topalis P, Wilson D, . VectorBase: improvements to a bioinformatics resource for invertebrate vector genomics. Nucleic Acids Research 2011, 40: d729-d734. PMID: 22135296, PMCID: PMC3245112, DOI: 10.1093/nar/gkr1089.Peer-Reviewed Original ResearchConceptsBioinformatics resourcesHigh-throughput dataPopulation geneticsTaxonomic coverageInsecticide resistance dataGenome browserGenomic variationInvertebrate vectorsGenomic featuresBiology resourcesExpression dataHuman pathogensTsetse fliesGenomeBody liceTimely releaseVectorBaseGenomicsGeneticsBioinformaticsFliesMultiple typesAnnotationLicePathogens
2006
Ensembl 2006
Birney E, Andrews D, Caccamo M, Chen Y, Clarke L, Coates G, Cox T, Cunningham F, Curwen V, Cutts T, Down T, Durbin R, Fernandez-Suarez X, Flicek P, Gräf S, Hammond M, Herrero J, Howe K, Iyer V, Jekosch K, Kähäri A, Kasprzyk A, Keefe D, Kokocinski F, Kulesha E, London D, Longden I, Melsopp C, Meidl P, Overduin B, Parker A, Proctor G, Prlic A, Rae M, Rios D, Redmond S, Schuster M, Sealy I, Searle S, Severin J, Slater G, Smedley D, Smith J, Stabenau A, Stalker J, Trevanion S, Ureta-Vidal A, Vogel J, White S, Woodwark C, Hubbard T. Ensembl 2006. Nucleic Acids Research 2006, 34: d556-d561. PMID: 16381931, PMCID: PMC1347495, DOI: 10.1093/nar/gkj133.Peer-Reviewed Original ResearchConceptsGenome variation dataHuman genome variation dataNumber of genomesChordate genomesLarge genome sequencesMammalian genomesRegulatory annotationsYeast genomeRNA genesGenome sequenceCiona intestinalisGenomeVariation dataAnnotationGenesOpossumIntestinalisIntegrated sourceSequenceRhesus macaquesImport