Structural Repetition Detector: multi-scale quantitative mapping of molecular complexes through microscopy

Afonso Mendes, Bruno M. Saraiva, Guillaume Jacquemet, Joao I. Mamede, Christophe Leterrier, Ricardo Henriques
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Abstract

From molecules to organelles, cells exhibit recurring structural motifs across multiple scales. Understanding these structures provides insights into their functional roles. While super-resolution microscopy can visualise such patterns, manual detection in large datasets is challenging and biased. We present the Structural Repetition Detector (SReD), an unsupervised computational framework that identifies repetitive biological structures by exploiting local texture repetition. SReD formulates structure detection as a similarity-matching problem between local image regions. It detects recurring patterns without prior knowledge or constraints on the imaging modality. We demonstrate SReD's capabilities on various fluorescence microscopy images. Quantitative analyses of three datasets highlight SReD's utility: estimating the periodicity of spectrin rings in neurons, detecting HIV-1 viral assembly, and evaluating microtubule dynamics modulated by EB3. Our open-source ImageJ and Fiji plugin enables unbiased analysis of repetitive structures across imaging modalities in diverse biological contexts.
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结构重复探测器:通过显微镜绘制分子复合物的多尺度定量图谱
从分子到细胞器,细胞在多个尺度上表现出重复出现的结构模式。了解这些结构有助于深入了解它们的功能作用。虽然超分辨率显微镜可以将这些模式可视化,但在大型数据集中进行人工检测具有挑战性和偏差性。我们提出了结构重复检测器(SReD),这是一种无监督计算框架,通过利用局部纹理重复来识别重复的生物结构。SReD 将结构检测表述为局部图像区域之间的相似性匹配问题。它可以检测重复模式,而无需先验知识,也不受成像模式的限制。我们在各种荧光显微图像上演示了 SReD 的功能。对三个数据集的定量分析凸显了 SReD 的实用性:估算神经元中谱系蛋白环的周期性、检测 HIV-1 病毒组装以及评估 EB3 调节的微管动力学。我们的开源 ImageJ 和 Fiji 插件能够在不同的生物环境中对各种成像模式的重复结构进行无偏分析。
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