Cook Peter E, Hugo Leon E, Iturbe-Ormaetxe Iñaki, Williams Craig R, Chenoweth Stephen F, Ritchie Scott A, Ryan Peter A, Kay Brian H, Blows Mark W, O'Neill Scott L
School of Integrative Biology, University of Queensland, Brisbane, Queensland 4072, Australia.
Proc Natl Acad Sci U S A. 2006 Nov 28;103(48):18060-5. doi: 10.1073/pnas.0604875103. Epub 2006 Nov 16.
Age is a critical determinant of an adult female mosquito's ability to transmit a range of human pathogens. Despite its central importance, relatively few methods exist with which to accurately determine chronological age of field-caught mosquitoes. This fact is a major constraint on our ability to fully understand the relative importance of vector longevity to disease transmission in different ecological contexts. It also limits our ability to evaluate novel disease control strategies that specifically target mosquito longevity. We report the development of a transcriptional profiling approach to determine age of adult female Aedes aegypti under field conditions. We demonstrate that this approach surpasses current cuticular hydrocarbon methods for both accuracy of predicted age as well as the upper limits at which age can be reliably predicted. The method is based on genes that display age-dependent expression in a range of dipteran insects and, as such, is likely to be broadly applicable to other disease vectors.
年龄是成年雌性蚊子传播一系列人类病原体能力的关键决定因素。尽管其至关重要,但能够准确确定野外捕获蚊子实际年龄的方法相对较少。这一事实严重限制了我们全面理解在不同生态环境中病媒寿命对疾病传播相对重要性的能力。它还限制了我们评估专门针对蚊子寿命的新型疾病控制策略的能力。我们报告了一种转录谱分析方法的开发,用于在野外条件下确定成年雌性埃及伊蚊的年龄。我们证明,这种方法在预测年龄的准确性以及能够可靠预测年龄的上限方面都超过了目前的表皮碳氢化合物方法。该方法基于在一系列双翅目昆虫中显示出年龄依赖性表达的基因,因此可能广泛适用于其他病媒。