With the help of colleagues like Paul Linser, Dmitri Boudko, Bernard Okech and Kenneth Sterling, this phase of his career has proven to be very productive, with more papers in the last decade than many BIBW2992 research buy mid-career scientists. The group has
characterised new classes of amino-acid transporters and identified a candidate for the K+/H+ ‘Wieczorek antiporter’ that with the H+ V-ATPase would account for the so-called K+ pump of insect epithelia. Meanwhile, with Tabachnick he has mobilized the Florida Mosquito Control establishment to lobby Congress about the threat that tropical disease vector mosquitoes could pose as bioterrorist agents ( Tabachnick et al., 2011). Bill’s dream continues to this day with efforts to work out the voltage coupling between H+ V-ATPase (V), Na+/H+ antiporter (A) and a nutrient amino acid transporter (N) ( Fig. 2). He and Ken Sterling are studying this VAN trio in brush border membrane vesicles isolated in massive amounts from whole A. aegypti larvae (AeBBMVw) and
are screening them for inhibitors of VAN components as environmentally friendly mosquitocides. “
“The authors acknowledge that larvae of holometabolous insects in many orders have legs and apologize for an incorrect statement in the Introductory sentence in JIP 57: 1437–1445. “
“The Southern house mosquito, Culex quinquefasciatus Say, has the largest repertoire of odorant receptors (ORs) of all dipteran species cAMP inhibitor whose genomes have been hitherto sequenced ( Arensburger et al., 2010) and may possess Navitoclax one of the most, if not
the most, acute olfactory system in mosquitoes for the reception of host-derived compounds, such as nonanal ( Syed and Leal, 2009). Several species of Culex, including Cx. quinquefasciatus, blood feed on birds and humans and serve as bridge vectors of West Nile virus in the United States ( Andreadis, 2012). Throughout the world, Culex mosquitoes are pathogen vectors for human diseases, including filariasis and various types of encephalitis. Understanding how they perceive the world through small, signal-carrying molecules (semiochemicals) may lead us to discover novel repellents for reducing bites and disease transmission as well as “green chemicals” for monitoring and controlling mosquito populations. Only two Culex ORs have been de-orphanized ( Hughes et al., 2010 and Pelletier et al., 2010) to date. Our initial approach was based on the identification of ORs in the Culex genome that share high amino acid identity with orthologs from the malaria mosquito, Anopheles gambiae. We have demonstrated that these ORs were sensitive to compounds known to be oviposition attractants for Culex mosquitoes ( Blackwell et al., 1993, Leal et al., 2008, Mboera et al.