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相关概念视频

Biological Clocks and Seasonal Responses02:45

Biological Clocks and Seasonal Responses

The circadian—or biological—clock is an intrinsic, timekeeping, molecular mechanism that allows plants to coordinate physiological activities over 24-hour cycles called circadian rhythms. Photoperiodism is a collective term for the biological responses of plants to variations in the relative lengths of dark and light periods. The period of light-exposure is called the photoperiod.
Circadian Rhythms and Gene Regulation02:19

Circadian Rhythms and Gene Regulation

The biological clock is involved in many aspects of regulating complex physiology in all animals. It was in 1935 when German zoologists, Hans Kalmus and Erwin Bünning, discovered the existence of circadian rhythm in Drosophila melanogaster. However, the internal molecular mechanisms behind the circadian clock remained a mystery until 1984, when Jeffrey C. Hall, Michael Rosbash, and Michael W. Young discovered the expression of the Per gene oscillating over a 24-hour cycle. In subsequent years,...
Relative Frequency Histogram01:14

Relative Frequency Histogram

The relative frequency depicts the proportion of data points that have each value. The frequency tells the number of data points that have each value. Like the histogram, a relative frequency histogram also has the same shape with a horizontal scale (the x-axis), but the vertical scale (the y-axis) is marked with relative frequencies (percentages of the whole) instead of actual frequencies. A relative frequency histogram is a graphical representation of a frequency distribution where the...
Circadian Rhythms and Gene Regulation02:19

Circadian Rhythms and Gene Regulation

The biological clock is involved in many aspects of regulating complex physiology in all animals. It was in 1935 when German zoologists, Hans Kalmus and Erwin Bünning, discovered the existence of circadian rhythm in Drosophila melanogaster. However, the internal molecular mechanisms behind the circadian clock remained a mystery until 1984, when Jeffrey C. Hall, Michael Rosbash, and Michael W. Young discovered the expression of the Per gene oscillating over a 24-hour cycle. In subsequent years,...
Ranks01:02

Ranks

Unlike parametric methods, nonparametric statistics are ideal for nominal and ordinal data, requiring fewer assumptions about the population's nature or distribution. This makes nonparametric methods easier to apply and interpret, as they do not depend on parameters like mean or standard deviation. One common approach in nonparametric analysis is to sort data according to a specific criterion. For instance, we might arrange weather data from hottest to coldest days in a month or rank cities...
Run Charts01:12

Run Charts

Run charts serve as an essential instrument for visualizing the performance of various processes over time, enabling the identification of trends and patterns crucial for quality improvement. These charts map out a series of data points chronologically, offering insights into the stability and efficiency of a process. A run chart's creation involves plotting data points on a graph, with the time intervals on the horizontal axis and the specific measurements on the vertical axis. For example,...

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相关实验视频

Updated: Jun 26, 2026

Monitoring Cell-autonomous Circadian Clock Rhythms of Gene Expression Using Luciferase Bioluminescence Reporters
10:38

Monitoring Cell-autonomous Circadian Clock Rhythms of Gene Expression Using Luciferase Bioluminescence Reporters

Published on: September 27, 2012

排名时钟的时间表

Michael Batty1

  • 1Centre for Advanced Spatial Analysis, The Bartlett School, University College London, 1-19 Torrington Place, London WC1E 6BT, UK. m.batty@ucl.ac.uk

Nature
|December 1, 2006
PubMed
概括
此摘要是机器生成的。

城市和企业分布中的排名大小缩放掩盖了微观层面的动荡. 新的 新的 新的 新的

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Last Updated: Jun 26, 2026

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Published on: September 27, 2012

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科学领域:

  • 城市研究是城市研究.
  • 经济地理 经济地理
  • 历史社会学的历史社会学.

背景情况:

  • 许多现实世界的分布,就像城市的大小一样,遵循权力规律.
  • 以前的研究经常静态地分析这些分布,缺少时间动态.
  • 宏观稳定性可以掩盖微层波动性和排名变化.

研究的目的:

  • 分析等级大小分布的时间动态.
  • 引入一种新的图形方法,即"钟",用于检查微动力学.
  • 挑战等级规模扩展和传统增长模型的普遍性.

主要方法:

  • 使用"机关时钟"的图形表示.
  • 对美国 (1790-),英国 (1901-) 和世界 (430BC-) 的城市大小分布的分析.
  • 观察到的微动力学与传统增长模型的预测进行比较.

主要成果:

  • 排名大小缩放不是普遍的;微动力学揭示了随着时间的推移显著的排名变化.
  • 城市和文明在规模和等级上呈现出快速的上升和下降.
  • "机关时钟"可视化了宏观稳定分布中的微层流.

结论:

  • 基于比例增长的传统模型无法解释观察到的微动力学.
  • 时间分析挑战了等级大小缩放的普遍性.
  • 需要对城市和经济动态有更细致的理解,并考虑到微观水平的波动性.