Sheeba V, Chandrashekaran M K, Joshi Amitabh, Sharma Vijay Kumar
Evolutionary Biology Laboratory, Evolutionary and Organismal Biology Unit, Jawaharlal Nehru Centre for Advanced Scientific Research, PO Box 6436, Jakkur, Bangalore 560 064, India.
Naturwissenschaften. 2002 Nov;89(11):512-4. doi: 10.1007/s00114-002-0360-9. Epub 2002 Sep 28.
The locomotor activity rhythm of flies from four populations of Drosophila melanogaster, maintained under constant light for more than 600 generations, was recorded in continuous light (LL) and continuous darkness (DD) using four different protocols. The main objective behind these experiments was to estimate the proportion of flies exhibiting circadian rhythm of locomotor activity in LL, and to investigate whether this could be increased by subjecting the flies to various light regimes. About 26% of the flies exhibited a circadian rhythm of locomotor activity in LL, and the proportion increased to about 48% after an exposure to 12 h of darkness. About 77% of the flies exhibited a circadian locomotor activity rhythm in DD. Persistence of circadian locomotor activity rhythm in a considerable proportion of these flies suggests an intrinsic adaptive value to possessing circadian rhythmicity, derived, perhaps, from the need to synchronise various processes within the organism.
对在持续光照下维持了600多代的四个黑腹果蝇种群的果蝇,采用四种不同方案在持续光照(LL)和持续黑暗(DD)条件下记录其运动活动节律。这些实验背后的主要目的是估计在LL条件下表现出昼夜运动活动节律的果蝇比例,并研究通过使果蝇处于各种光照条件下是否可以提高这一比例。约26%的果蝇在LL条件下表现出昼夜运动活动节律,在暴露于12小时黑暗后,这一比例增加到约48%。约77%的果蝇在DD条件下表现出昼夜运动活动节律。这些果蝇中相当一部分的昼夜运动活动节律的持续存在表明拥有昼夜节律具有内在的适应性价值,这可能源于使生物体内各种过程同步的需要。