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Circadian Systems: Longevity as a Function of Circadian Resonance in Drosophila melanogaster

机译：昼夜节律系统：黑腹果蝇的寿命作为昼夜节律共振的函数。

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Drosophila melanogaster, which had been reared under standard conditions (25° and a 24-hr light/dark cycle involving 12 hr of light) were exposed, on the first day of adult life, to four environments (all at 25°) as follows: (i) a 24-hr day consisting of 12 hr light and 12 hr dark; (ii) a 21-hr day (10.5 hr light, 10.5 hr dark); (iii) a 27-hr day (13.5 hr light, 13.5 hr dark); and (iv) constant light. The experiment was repeated four times. In all four experiments the flies on a 24-hr day lived significantly longer than the flies in the other environments. This result, comparable to other observations on plants, indicates that eukaryotic systems as oscillators perform most effectively when they are driven close to their natural “circadian” frequency.

机译：在标准条件下饲养的果蝇（Drosophila melanogaster）（在25°和24小时光照/黑暗周期（包括12小时光照）下）在成年后的第一天暴露于以下四种环境（均在25°）：（i）24小时工作日，包括12小时光照和12小时黑暗；（ii）每天21小时（10.5小时光照，10.5小时黑暗）；（iii）每天27小时（每天13.5小时，黑暗13.5小时）；（iv）持续发光。重复实验四次。在所有四个实验中，一天24小时的苍蝇的寿命明显长于其他环境中的苍蝇。该结果可与植物上的其他观察结果相比较，表明真核系统作为振荡器在接近自然“昼夜节律”频率时能最有效地发挥作用。

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期刊名称 Proceedings of the National Academy of Sciences of the United States of America
作者
Colin S. Pittendrigh; Dorothea H. Minis;
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年(卷),期 1972(69),6
年度 1972
页码 1537–1539
总页数 3
原文格式 PDF
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专利

1. Neuroanatomical details of the lateral neurons of Drosophila melanogaster Drosophila melanogaster support their functional role in the circadian system [J] . Schubert Frank K., Hagedorn Nicolas, Yoshii Taishi, The Journal of Comparative Neurology . 2018 ,第7期

机译：果蝇的神经杀菌细节果蝇果蝇果蝇果蝇的细节支持他们在昼夜节束系统中的功能作用
2. Functional Role of CREB-Binding Protein in the Circadian Clock System of Drosophila melanogaster [J] . Chunghun Lim, Jongbin Lee, Changtaek Choi, Molecular and Cellular Biology . 2007 ,第13期

机译：CREB结合蛋白在果蝇昼夜节律系统中的功能作用。
3. Circadian gene variants and the skeletal muscle circadian clock contribute to the evolutionary divergence in longevity across Drosophila populations [J] . Hunt Liam C., Jiao Jianqin, Wang Yong-Dong, Genome research . 2019 ,第8期

机译：昼夜基因变体和骨骼肌昼夜昼夜昼夜昼夜造成果蝇种群的寿命进化差异
4. Characterization of the Drosophila melanogaster Neuropeptidome and the Identification of Circadian Related Neuropeptides across Multiple Mass Spectrometric Platforms [C] . Kristin J. Boggio, Yun-Wei A. Hsu, Kevin Y. Amon, American Society for Mass Spectrometry Conference on Mass Spectrometry and Allied Topics . 2011

机译：奇节藻甙的特征是多挖掘机的神经肽和多种质谱平台核核苷酸相关神经肽的鉴定
5. Bioinformatic techniques in Drosophila circadian biology: An interdisciplinary approach to gene discovery and behavior analysis of the circadian clock of Drosophila melanogaster. [D] . Keegan, Kevin Patrick. 2009

机译：果蝇昼夜节律生物学中的生物信息学技术：一种跨学科方法，用于研究果蝇昼夜节律时钟的基因发现和行为分析。
6. Functional Role of CREB-Binding Protein in the Circadian Clock System of Drosophila melanogaster [O] . Chunghun Lim, Jongbin Lee, Changtaek Choi, 2007

机译：CREB结合蛋白在果蝇昼夜节律系统中的功能作用。
7. Circadian Systems: Longevity as a Function of Circadian Resonance in Drosophila melanogaster* [O] . Pittendrigh, Colin S., Minis, Dorothea H. 1972

机译：昼夜节律系统：黑腹果蝇的寿命与昼夜节律的关系*

Circadian Systems: Longevity as a Function of Circadian Resonance in Drosophila melanogaster

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