Rützler Michael, Lu Tan, Zwiebel Laurence J
Department of Biological Sciences, Program in Developmental Biology, Centers for Molecular Neuroscience and Chemical Biology, Institute for Global Health, Vanderbilt University, Nashville, Tennessee 37235, USA.
J Comp Neurol. 2006 Dec 1;499(4):533-45. doi: 10.1002/cne.21083.
To initiate a comprehensive investigation of chemosensory signal transduction downstream of odorant receptors, we identified and characterized the complete set of genes that encode G-protein alpha subunits in the genome of the malaria vector mosquito An. gambiae. Data are provided on the tissue-specific expression patterns of 10 corresponding aga-transcripts in adult mosquitoes and pre-imago developmental stages. Specific immunoreactivity in chemosensory hairs of female antennae provides evidence in support of the participation of a subset of AGalphaq isoforms in olfactory signal transduction in this mosquito. In contrast, AGalphao is localized along the flagellar axon bundle but is absent from chemosensory sensilla, which suggests that this G-protein alpha subunit does not participate in olfactory signal transduction.
为了对气味受体下游的化学感应信号转导进行全面研究,我们在疟蚊冈比亚按蚊的基因组中鉴定并表征了编码G蛋白α亚基的全套基因。提供了10种相应aga转录本在成年蚊子和成虫前期发育阶段的组织特异性表达模式的数据。雌性触角化学感应毛中的特异性免疫反应提供了证据,支持AGalphaq亚型的一个子集参与这种蚊子的嗅觉信号转导。相比之下,AGalphao定位于鞭毛轴突束,但化学感应感受器中不存在,这表明该G蛋白α亚基不参与嗅觉信号转导。