Laboratório de Biologia Molecular de Insetos, Instituto Oswaldo Cruz, Fundação Oswaldo Cruz, Rio de Janeiro- RJ, Brazil.
Instituto Nacional de Ciência e Tecnologia em Entomologia Molecular (INCT-EM), CNPq, Rio de Janeiro- RJ, Brazil.
PLoS One. 2023 Oct 19;18(10):e0287237. doi: 10.1371/journal.pone.0287237. eCollection 2023.
Circadian oscillators (i.e., circadian clocks) are essential to producing the circadian rhythms observed in virtually all multicellular organisms. In arthropods, many rhythmic behaviors are generated by oscillations of the central pacemaker, specific groups of neurons of the protocerebrum in which the circadian oscillator molecular machinery is expressed and works; however, oscillators located in other tissues (i.e., peripheral clocks) could also contribute to certain rhythms, but are not well known in non-model organisms. Here, we investigated whether eight clock genes that likely constitute the Aedes aegypti clock are expressed in a circadian manner in the previtellogenic ovaries of this mosquito. Also, we asked if insemination by conspecific males would alter the expression profiles of these clock genes. We observed that the clock genes do not have a rhythmic expression profile in the ovaries of virgin (VF) or inseminated (IF) females, except for period, which showed a rhythmic expression profile in ovaries of IF kept in light and dark (LD) cycles, but not in constant darkness (DD). The mean expression of seven clock genes was affected by the insemination status (VF or IF) or the light condition (LD 12:12 or DD), among which five were affected solely by the light condition, one solely by the insemination status, and one by both factors. Our results suggest that a functional circadian clock is absent in the ovaries of A. aegypti. Still, their differential mean expression promoted by light conditions or insemination suggests roles other than circadian rhythms in this mosquito's ovaries.
昼夜节律振荡器(即生物钟)对于产生几乎所有多细胞生物中观察到的昼夜节律至关重要。在节肢动物中,许多有节奏的行为是由中央起搏器的振荡产生的,中央起搏器是特定的脑前区神经元群体,其中表达和运作生物钟分子机制;然而,位于其他组织(即外周时钟)的振荡器也可能对某些节律做出贡献,但在非模式生物中还不太清楚。在这里,我们研究了构成埃及伊蚊生物钟的八个时钟基因是否在这种蚊子的未受精卵卵巢中以昼夜节律的方式表达。此外,我们还询问了同种雄性的授精是否会改变这些时钟基因的表达谱。我们观察到,除了周期基因外,这些时钟基因在未受精(VF)或受精(IF)雌性的卵巢中没有节律性表达模式,周期基因在 IF 保持在光照和黑暗(LD)循环的卵巢中表现出节律性表达模式,但在持续黑暗(DD)中没有。七个时钟基因的平均表达受到受精状态(VF 或 IF)或光照条件(LD 12:12 或 DD)的影响,其中五个仅受光照条件影响,一个仅受受精状态影响,一个受两个因素影响。我们的结果表明,A. aegypti 卵巢中不存在功能性生物钟。尽管如此,它们受光照条件或授精影响的差异表达表明,在这种蚊子的卵巢中,除了昼夜节律之外,它们还具有其他作用。
