Ae). J Med Pamoic acid disodium medchemexpress Entomol 1999, 36:30108. 24. Gentile C, Rivas GBS, Meireles-Filho ACA, Lima JBP, Peixoto AA: Circadian expression of clock genes in two mosquito bpV(phen) Biological Activity disease vectors: cry2 is various. J Biol Rhythms 2009, 24:44451. 25. Chadee DD: The diel oviposition periodicity of Aedes aegypti (L.) (Diptera: Culicidae) in Trinidad, West Indies: Effects of forced egg retention. Bull Entomol Res 2010, one hundred:59903. 26. Naucke TJ, et al: Field evaluation of your efficacy of proprietary repellent formulations with IR3535 and picaridin against Aedes aegypti. Parasitol Res 2007, 101:16977. 27. Wong J, Astete H, Morrison AC, Scott TW: Sampling considerations for designing Aedes aegypti (Diptera:Culicidae) oviposition research in Iquitos, Peru: Substrate preference, diurnal periodicity, and gonotrophic cycle length. J Med Entomol 2011, 48:452. 28. Gentile C, et al: Cloning and everyday expression of the timeless gene in Aedes aegypti (Diptera: Culicidae). Insect Biochem Mol Biol 2006, 36:87884. 29. Chahad-Ehlers S, Gentile C, Lima JBP, Peixoto AA, Bruno RV: Analysis of cycle gene expression in Aedes aegypti brains by in situ hybridization. PLoS A single 2013, 8:e52559. 30. Rund SSC, Hou TY, Ward SM, Collins FH, Duffield GE: Genome-wide profiling of diel and circadian gene expression in the malaria vector Anopheles gambiae. Proc Natl Acad Sci USA 2011, 108:E421 430. 31. Yuan Q, Metterville D, Briscoe AD, Reppert SM: Insect cryptochromes: Gene duplication and loss define diverse approaches to construct insect circadian clocks. Mol Biol Evol 2007, 24:94855. 32. Zhu H, Yuan Q, Froy O, Casselman A, Reppert SM: The two CRYs with the butterfly. Curr Biol 2005, 15:R953 954. 33. Mathias D, Jacky L, Bradshaw WE, Holzapfel CM: Geographic and developmental variation in expression of the circadian rhythm gene, timeless, within the pitcherplant mosquito, Wyeomyia smithii. J Insect Physiol 2005, 51:66167. 34. Ptitsyn A, et al: Rhythms and synchronization patterns in gene expression in the Aedes aegypti mosquito. BMC Genomics 2011, 12:153. 35. Duffield GE, et al: Circadian applications of transcriptional activation, signaling, and protein turnover revealed by microarray analysis of mammalian cells. Curr Biol 2002, 12:55157. 36. Panda S, et al: Coordinated transcription of essential pathways inside the mouse by the circadian clock. Cell 2002, 109:30720. 37. Ceriani MF, et al: Genome-wide expression analysis in Drosophila reveals genes controlling circadian behavior. J Neurosci 2002, 22:9305319. 38. Straume M: DNA microarray time series evaluation: Automated statistical assessment of circadian rhythms in gene expression patterning. Techniques Enzymol 2004, 383:14966. 39. Khan S, Rowe SC, Harmon FG: Coordination of the maize transcriptome by a conserved circadian clock. BMC Plant Biol 2010, 10:126. 40. Hughes ME, et al: Harmonics of circadian gene transcription in mammals. PLoS Genet 2009, five:e1000442. 41. Covington MF, Maloof JN, Straume M, Kay SA, Harmer SL: Global transcriptome analysis reveals circadian regulation of key pathways in plant development and improvement. Genome Biol 2008, 9:R130. 42. Sato TK, et al: A functional genomics tactic reveals Rora as a component with the mammalian circadian clock. Neuron 2004, 43:52737. 43. Stevenson BJ, et al: Cytochrome P450 6M2 in the malaria vector Anopheles gambiae metabolizes pyrethroids: Sequential metabolism of deltamethrin revealed. Insect Biochem Mol Biol 2011, 41:49202.Rund et al. BMC Genomics 2013, 14:218 http:www.biomedcentral.com1471-216414Page 18 of44. Hughes.