Deep learning for automatic segmentation of the nuclear envelope in electron microscopy data, trained with volunteer segmentations.

IF 3.6 3区生物学 Q3 CELL BIOLOGY

Traffic Pub Date : 2021-07-01 DOI:10.1111/tra.12789

Helen Spiers, Harry Songhurst, Luke Nightingale, Joost de Folter, Roger Hutchings, Christopher J Peddie, Anne Weston, Amy Strange, Steve Hindmarsh, Chris Lintott, Lucy M Collinson, Martin L Jones

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引用次数: 37

Abstract

Advancements in volume electron microscopy mean it is now possible to generate thousands of serial images at nanometre resolution overnight, yet the gold standard approach for data analysis remains manual segmentation by an expert microscopist, resulting in a critical research bottleneck. Although some machine learning approaches exist in this domain, we remain far from realizing the aspiration of a highly accurate, yet generic, automated analysis approach, with a major obstacle being lack of sufficient high-quality ground-truth data. To address this, we developed a novel citizen science project, Etch a Cell, to enable volunteers to manually segment the nuclear envelope (NE) of HeLa cells imaged with serial blockface scanning electron microscopy. We present our approach for aggregating multiple volunteer annotations to generate a high-quality consensus segmentation and demonstrate that data produced exclusively by volunteers can be used to train a highly accurate machine learning algorithm for automatic segmentation of the NE, which we share here, in addition to our archived benchmark data.

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电子显微镜数据中核膜自动分割的深度学习，与志愿者分割训练。

体积电子显微镜的进步意味着现在可以在一夜之间以纳米分辨率生成数千张串行图像，然而数据分析的黄金标准方法仍然是由专家显微镜进行手动分割，这导致了关键的研究瓶颈。虽然在这个领域存在一些机器学习方法，但我们仍然远远没有实现高度准确，但通用的自动化分析方法的愿望，主要障碍是缺乏足够的高质量的真实数据。为了解决这个问题，我们开发了一个新的公民科学项目，蚀刻细胞，使志愿者能够手动分割海拉细胞的核膜(NE)，这些细胞是用串行块面扫描电子显微镜成像的。我们展示了聚合多个志愿者注释以生成高质量共识分割的方法，并证明完全由志愿者生成的数据可用于训练用于NE自动分割的高精度机器学习算法，除了我们存档的基准数据外，我们还在这里分享了该算法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Traffic 生物-细胞生物学

CiteScore

8.10

自引率

2.20%

发文量

审稿时长

2 months

期刊介绍： Traffic encourages and facilitates the publication of papers in any field relating to intracellular transport in health and disease. Traffic papers span disciplines such as developmental biology, neuroscience, innate and adaptive immunity, epithelial cell biology, intracellular pathogens and host-pathogen interactions, among others using any eukaryotic model system. Areas of particular interest include protein, nucleic acid and lipid traffic, molecular motors, intracellular pathogens, intracellular proteolysis, nuclear import and export, cytokinesis and the cell cycle, the interface between signaling and trafficking or localization, protein translocation, the cell biology of adaptive an innate immunity, organelle biogenesis, metabolism, cell polarity and organization, and organelle movement. All aspects of the structural, molecular biology, biochemistry, genetics, morphology, intracellular signaling and relationship to hereditary or infectious diseases will be covered. Manuscripts must provide a clear conceptual or mechanistic advance. The editors will reject papers that require major changes, including addition of significant experimental data or other significant revision. Traffic will consider manuscripts of any length, but encourages authors to limit their papers to 16 typeset pages or less.