Benchmarking next-generation transcriptome sequencing for functional and evolutionary genomics. Gibbons JG, Janson EM, Hittinger CT, Johnston M, Abbot P, Rokas A (2009) Mol Biol Evol 26: 2731-44 Mapping the Human Memory B Cell and Serum Neutralizing Antibody Responses to Dengue Virus Serotype 4 Infection and Vaccination. Nivarthi UK, Kose N, Sapparapu G, Widman D, Gallichotte E, Pfaff JM, Doranz BJ, Weiskopf D, Sette A, Durbin AP, Whitehead SS, Baric R, Crowe JE, de Silva AM (2017) J Virol 91: Efficiency of salivary gland invasion by malaria sporozoites is controlled by rapid sporozoite destruction in the mosquito haemocoel. Hillyer JF, Barreau C, Vernick KD (2007) Int J Parasitol 37: 673-81 Increased survivorship following bacterial infection by the mosquito Aedes aegypti as compared to Anopheles gambiae correlates with increased transcriptional induction of antimicrobial peptides. Coggins SA, Estévez-Lao TY, Hillyer JF (2012) Dev Comp Immunol 37: 390-401 Identification of a chemosensory receptor from the yellow fever mosquito, Aedes aegypti, that is highly conserved and expressed in olfactory and gustatory organs. Melo AC, Rützler M, Pitts RJ, Zwiebel LJ (2004) Chem Senses 29: 403-10 Conservation of indole responsive odorant receptors in mosquitoes reveals an ancient olfactory trait. Bohbot JD, Jones PL, Wang G, Pitts RJ, Pask GM, Zwiebel LJ (2011) Chem Senses 36: 149-60 Molecular characterization of the Aedes aegypti odorant receptor gene family. Bohbot J, Pitts RJ, Kwon HW, Rützler M, Robertson HM, Zwiebel LJ (2007) Insect Mol Biol 16: 525-37 A novel member of the RING-finger gene family associated with reproductive tissues of the mosquito, Aaedes aegypti. Zhao X, Smartt CT, Hillyer JF, Christensen BM (2000) Insect Mol Biol 9: 301-8 The antibacterial innate immune response by the mosquito Aedes aegypti is mediated by hemocytes and independent of Gram type and pathogenicity. Hillyer JF, Schmidt SL, Christensen BM (2004) Microbes Infect 6: 448-59 Characterization of hemocytes from the yellow fever mosquito, Aedes aegypti. Hillyer JF, Christensen BM (2002) Histochem Cell Biol 117: 431-40 Mosquito phenoloxidase and defensin colocalize in melanization innate immune responses. Hillyer JF, Christensen BM (2005) J Histochem Cytochem 53: 689-98 Aedes aegypti glutamine synthetase: expression and gene structure. Smartt CT, Kiley LM, Hillyer JF, Dasgupta R, Christensen BM (2001) Gene 274: 35-45 Use of chemical probes to explore the toxicological potential of the K/Cl cotransporter (KCC) as a novel insecticide target to control the primary vector of dengue and Zika virus, Aedes aegypti. Prael FJ, Chen R, Li Z, Reed CW, Lindsley CW, Weaver CD, Swale DR (2018) Pestic Biochem Physiol 151: 10-17 Rapid phagocytosis and melanization of bacteria and Plasmodium sporozoites by hemocytes of the mosquito Aedes aegypti. Hillyer JF, Schmidt SL, Christensen BM (2003) J Parasitol 89: 62-9
Hints: (1) double-click or double-tap to navigate to a node. (2) Grab a node and move it to arrange the graph.