一种用于研究复杂行为的多动物追踪器。

A multi-animal tracker for studying complex behaviors.

作者信息

Itskovits Eyal, Levine Amir, Cohen Ehud, Zaslaver Alon

机构信息

Department of Genetics, The Silberman Institute of Life Science, Edmond J. Safra Campus, The Hebrew University of Jerusalem, Jerusalem, 91904, Israel.

School of Computer Science and Engineering, Hebrew University, Jerusalem, Israel.

出版信息

BMC Biol. 2017 Apr 6;15(1):29. doi: 10.1186/s12915-017-0363-9.

DOI:10.1186/s12915-017-0363-9

PMID:28385158

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5383998/

Abstract

BACKGROUND

Animals exhibit astonishingly complex behaviors. Studying the subtle features of these behaviors requires quantitative, high-throughput, and accurate systems that can cope with the often rich perplexing data.

RESULTS

Here, we present a Multi-Animal Tracker (MAT) that provides a user-friendly, end-to-end solution for imaging, tracking, and analyzing complex behaviors of multiple animals simultaneously. At the core of the tracker is a machine learning algorithm that provides immense flexibility to image various animals (e.g., worms, flies, zebrafish, etc.) under different experimental setups and conditions. Focusing on C. elegans worms, we demonstrate the vast advantages of using this MAT in studying complex behaviors. Beginning with chemotaxis, we show that approximately 100 animals can be tracked simultaneously, providing rich behavioral data. Interestingly, we reveal that worms' directional changes are biased, rather than random - a strategy that significantly enhances chemotaxis performance. Next, we show that worms can integrate environmental information and that directional changes mediate the enhanced chemotaxis towards richer environments. Finally, offering high-throughput and accurate tracking, we show that the system is highly suitable for longitudinal studies of aging- and proteotoxicity-associated locomotion deficits, enabling large-scale drug and genetic screens.

CONCLUSIONS

Together, our tracker provides a powerful and simple system to study complex behaviors in a quantitative, high-throughput, and accurate manner.

摘要

背景

动物表现出惊人的复杂行为。研究这些行为的细微特征需要能够处理通常丰富且复杂的数据的定量、高通量和准确的系统。

结果

在此，我们展示了一种多动物追踪器（MAT），它为同时成像、追踪和分析多种动物的复杂行为提供了用户友好的端到端解决方案。该追踪器的核心是一种机器学习算法，它在不同的实验设置和条件下为各种动物（如线虫、果蝇、斑马鱼等）成像提供了极大的灵活性。以秀丽隐杆线虫为例，我们展示了使用这种MAT在研究复杂行为方面的巨大优势。从趋化性开始，我们表明大约100只动物可以同时被追踪，提供丰富的行为数据。有趣的是，我们发现线虫的方向变化是有偏向的，而不是随机的——这是一种显著提高趋化性表现的策略。接下来，我们表明线虫可以整合环境信息，并且方向变化介导了对更丰富环境的增强趋化性。最后，通过提供高通量和准确的追踪，我们表明该系统非常适合对与衰老和蛋白毒性相关的运动缺陷进行纵向研究，从而实现大规模的药物和基因筛选。

结论

总之，我们的追踪器提供了一个强大且简单的系统，以定量、高通量和准确的方式研究复杂行为。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/20c5/5383998/34b296e58ab5/12915_2017_363_Fig1_HTML.jpg

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一种用于研究复杂行为的多动物追踪器。

A multi-animal tracker for studying complex behaviors.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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