Natural variability and individuality of walking behavior in Drosophila.

IF 2.8 2区 生物学 Q2 BIOLOGY Journal of Experimental Biology Pub Date : 2024-10-18 DOI:10.1242/jeb.247878
Vincent Godesberg, Till Bockemühl, Ansgar Büschges
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Abstract

Insects use walking behavior in a large number of contexts, such as exploration, foraging, escape and pursuit, or migration. A lot is known on how nervous systems produce this behavior in general and also how certain parameters vary with regard to walking direction or speed, for instance. An aspect that has not received much attention is if and how walking behavior varies across individuals of a particular species. To address this, we created a large corpus of kinematic walking data of many individuals of the fruit fly Drosophila. We only selected instances of straight walking in a narrow range of walking speeds to minimize the influence of high-level parameters, like turning and walking speed, aiming to uncover more subtle aspects of variability. Using high-speed videography and automated annotation we captured the positions of the six leg tips for thousands of steps and used principal components analysis to characterize the postural space individuals used during walking. Our analysis shows that the largest part of walking kinematics can be described by five principal components (PCs). Separation of these five PCs into a 2-dimensional and a 3-dimensional subspace divided the description of walking behavior into invariant features shared across individuals and features that relate to the specifics of individuals; the latter features can be regarded as idiosyncrasies. We also demonstrate that this approach can detect the effects of experimental interventions in an unbiased manner and that general aspects of individuality, such as the the individual walking posture, can be described.

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果蝇行走行为的自然变异性和个体性
昆虫在许多情况下都有行走行为,如探索、觅食、逃跑和追逐或迁徙。关于神经系统如何产生这种行为,以及某些参数在行走方向或速度等方面如何变化,人们已经知道了很多。一个尚未受到广泛关注的方面是,行走行为是否以及如何在特定物种的不同个体之间发生变化。为了解决这个问题,我们创建了一个庞大的果蝇个体运动学行走数据语料库。我们只选取了在较窄的行走速度范围内直线行走的实例,以尽量减少转弯和行走速度等高级参数的影响,目的是发现更微妙的变异性。通过高速摄像和自动注释,我们捕捉到了数千步中六条腿尖的位置,并使用主成分分析法描述了个体在行走过程中使用的姿势空间。我们的分析表明,行走运动学的最大部分可以用五个主成分(PC)来描述。将这五个主成分分离成二维和三维子空间,可将行走行为描述分为个体共有的不变特征和与个体具体情况相关的特征;后一种特征可被视为特异性。我们还证明,这种方法能以无偏的方式检测出实验干预的效果,并能描述个体性的一般方面,如个体的行走姿势。
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来源期刊
CiteScore
5.50
自引率
10.70%
发文量
494
审稿时长
1 months
期刊介绍: Journal of Experimental Biology is the leading primary research journal in comparative physiology and publishes papers on the form and function of living organisms at all levels of biological organisation, from the molecular and subcellular to the integrated whole animal.
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