Efficient production of male Wolbachia-infected Aedes aegypti mosquitoes enables large-scale suppression of wild populations
Crawford, Jacob E, Clarke, David W, Criswell, Victor, Desnoyer, Mark, Cornel, Devon, Deegan, Brittany, Gong, Kyle, Hopkins, Kaycie C, Howell, Paul, Hyde, Justin S, Livni, Josh, Behling, Charlie, Benza, Renzo, Chen, Willa, Dobson, Karen L, Eldershaw, Craig, Greeley, Daniel, Han, Yi, Hughes, Bridgette, Kakani, Evdoxia, Karbowski, Joe, Kitchell, Angus, Lee, Erika, Lin, Teresa, Liu, Jianyi, Lozano, Martin, MacDonald, Warren, Mains, James W, Metlitz, Matty, Mitchell, Sara N, Moore, David, Ohm, Johanna R, Parkes, Kathleen, Porshnikoff, Alexandra, Robuck, Chris, Sheridan, Martin, Sobecki, Robert, Smith, Peter, Stevenson, Jessica, Sullivan, Jordan, Wasson, Brian, Weakley, Allison M, Wilhelm, Mark, Won, Joshua, Yasunaga, Ari, Chan, William C, Holeman, Jodi, Snoad, Nigel, Upson, Linus, Zha, Tiantian, Dobson, Stephen L, Mulligan, F Steven, Massaro, Peter, White, Bradley J
Published in Nature biotechnology (01.04.2020)
Published in Nature biotechnology (01.04.2020)
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Author Correction: Efficient production of male Wolbachia-infected Aedes aegypti mosquitoes enables large-scale suppression of wild populations
Crawford, Jacob E, Clarke, David W, Criswell, Victor, Desnoyer, Mark, Cornel, Devon, Deegan, Brittany, Gong, Kyle
Published in Nature biotechnology (01.08.2020)
Published in Nature biotechnology (01.08.2020)
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Journal Article