Flies Drosophila(果蠅)到底是什麼?
Flies Drosophila 果蠅 - Thus, we show, for the first time, that a circadian clock-independent pathway originating from peripherally distributed mechanosensors can promote daytime sleep of flies Drosophila melanogaster Significance Statement:Our tendency to fall asleep in moving vehicles or the practice of rocking infants to sleep suggests that slow rhythmic movement can induce sleep, although we do not understand the mechanistic basis of this phenomenon. [1] Here, we present the results from an experimental study in which we exposed fruit flies Drosophila melanogaster to either no mate choice or 1 of 2 different sexual selection regimes (pre- and postcopulatory sexual selection) for 6 generations, under different thermal regimes. [2] The question of how and why DR modifies the fate of lifespan in fruit flies Drosophila melanogaster has prompted us to emphasize by attending the control food composition first. [3] In this study, harmine (at 0-200 mg/L) showed a dose-dependent inhibitory effect on the pupal weight, length, height, pupation rate and eclosion rate of fruit flies Drosophila melanogaster, which was similar to the inhibition induced by the well-known botanical insect growth regulator azadirachtin. [4] ABSTRACT Fitness and behavioral traits are optimized according to the rearing environment to ensure survival of most organisms including fruit flies Drosophila melanogaster. [5] Although recent reports have demonstrated that the fruit flies Drosophila melanogaster are capable of visual cue-driven place learning and idiothetic path integration [1-4], the depth and flexibility of Drosophila's ability to solve spatial tasks and the underlying neural substrate and genetic basis have not been extensively explored. [6]因此,我們首次表明,源自外圍分佈的機械傳感器的與晝夜節律無關的通路可以促進果蠅的白天睡眠。緩慢的有節奏的運動可以誘發睡眠,儘管我們不了解這種現象的機制基礎。 [1] 在這裡,我們展示了一項實驗研究的結果,其中我們將果蠅黑腹果蠅暴露於無配偶選擇或 2 種不同性選擇方案(交配前和交配後性選擇)中的 6 代,在不同的熱狀態下。 [2] DR如何以及為什麼改變果蠅的壽命命運這一問題促使我們首先關注控制食物成分。 [3] 在本研究中,harmine (0-200 mg/L) 對果蠅果蠅蛹的重量、長度、高度、化蛹率和羽化率表現出劑量依賴性抑製作用,這與著名的植物性昆蟲生長調節劑印楝素。 [4] 摘要 根據飼養環境優化健身和行為特徵,以確保大多數生物體的生存,包括果蠅果蠅。 [5] 儘管最近的報導表明果蠅果蠅能夠進行視覺線索驅動的位置學習和特異路徑整合[1-4],但果蠅解決空間任務的能力的深度和靈活性以及潛在的神經基質和遺傳基礎已經沒有被廣泛探索。 [6]
Fruit Flies Drosophila 果蠅果蠅
Here, we present the results from an experimental study in which we exposed fruit flies Drosophila melanogaster to either no mate choice or 1 of 2 different sexual selection regimes (pre- and postcopulatory sexual selection) for 6 generations, under different thermal regimes. [1] The question of how and why DR modifies the fate of lifespan in fruit flies Drosophila melanogaster has prompted us to emphasize by attending the control food composition first. [2] In this study, harmine (at 0-200 mg/L) showed a dose-dependent inhibitory effect on the pupal weight, length, height, pupation rate and eclosion rate of fruit flies Drosophila melanogaster, which was similar to the inhibition induced by the well-known botanical insect growth regulator azadirachtin. [3] ABSTRACT Fitness and behavioral traits are optimized according to the rearing environment to ensure survival of most organisms including fruit flies Drosophila melanogaster. [4] Although recent reports have demonstrated that the fruit flies Drosophila melanogaster are capable of visual cue-driven place learning and idiothetic path integration [1-4], the depth and flexibility of Drosophila's ability to solve spatial tasks and the underlying neural substrate and genetic basis have not been extensively explored. [5]在這裡,我們展示了一項實驗研究的結果,其中我們將果蠅黑腹果蠅暴露於無配偶選擇或 2 種不同性選擇方案(交配前和交配後性選擇)中的 6 代,在不同的熱狀態下。 [1] DR如何以及為什麼改變果蠅的壽命命運這一問題促使我們首先關注控制食物成分。 [2] 在本研究中,harmine (0-200 mg/L) 對果蠅果蠅蛹的重量、長度、高度、化蛹率和羽化率表現出劑量依賴性抑製作用,這與著名的植物性昆蟲生長調節劑印楝素。 [3] 摘要 根據飼養環境優化健身和行為特徵,以確保大多數生物體的生存,包括果蠅果蠅。 [4] 儘管最近的報導表明果蠅果蠅能夠進行視覺線索驅動的位置學習和特異路徑整合[1-4],但果蠅解決空間任務的能力的深度和靈活性以及潛在的神經基質和遺傳基礎已經沒有被廣泛探索。 [5]
flies drosophila melanogaster 黑腹果蠅
Thus, we show, for the first time, that a circadian clock-independent pathway originating from peripherally distributed mechanosensors can promote daytime sleep of flies Drosophila melanogaster Significance Statement:Our tendency to fall asleep in moving vehicles or the practice of rocking infants to sleep suggests that slow rhythmic movement can induce sleep, although we do not understand the mechanistic basis of this phenomenon. [1] Here, we present the results from an experimental study in which we exposed fruit flies Drosophila melanogaster to either no mate choice or 1 of 2 different sexual selection regimes (pre- and postcopulatory sexual selection) for 6 generations, under different thermal regimes. [2] The question of how and why DR modifies the fate of lifespan in fruit flies Drosophila melanogaster has prompted us to emphasize by attending the control food composition first. [3] In this study, harmine (at 0-200 mg/L) showed a dose-dependent inhibitory effect on the pupal weight, length, height, pupation rate and eclosion rate of fruit flies Drosophila melanogaster, which was similar to the inhibition induced by the well-known botanical insect growth regulator azadirachtin. [4] ABSTRACT Fitness and behavioral traits are optimized according to the rearing environment to ensure survival of most organisms including fruit flies Drosophila melanogaster. [5] Although recent reports have demonstrated that the fruit flies Drosophila melanogaster are capable of visual cue-driven place learning and idiothetic path integration [1-4], the depth and flexibility of Drosophila's ability to solve spatial tasks and the underlying neural substrate and genetic basis have not been extensively explored. [6]因此,我們首次表明,源自外圍分佈的機械傳感器的與晝夜節律無關的通路可以促進果蠅的白天睡眠。緩慢的有節奏的運動可以誘發睡眠,儘管我們不了解這種現象的機制基礎。 [1] 在這裡,我們展示了一項實驗研究的結果,其中我們將果蠅黑腹果蠅暴露於無配偶選擇或 2 種不同性選擇方案(交配前和交配後性選擇)中的 6 代,在不同的熱狀態下。 [2] DR如何以及為什麼改變果蠅的壽命命運這一問題促使我們首先關注控制食物成分。 [3] 在本研究中,harmine (0-200 mg/L) 對果蠅果蠅蛹的重量、長度、高度、化蛹率和羽化率表現出劑量依賴性抑製作用,這與著名的植物性昆蟲生長調節劑印楝素。 [4] 摘要 根據飼養環境優化健身和行為特徵,以確保大多數生物體的生存,包括果蠅果蠅。 [5] 儘管最近的報導表明果蠅果蠅能夠進行視覺線索驅動的位置學習和特異路徑整合[1-4],但果蠅解決空間任務的能力的深度和靈活性以及潛在的神經基質和遺傳基礎已經沒有被廣泛探索。 [6]