Alfons Riedinger scite author profile

Alfons Riedinger

4Publications

7Citation Statements Received

103Citation Statements Given

How they've been cited

How they cite others

103

Affiliations

European Bioinformatics Institute, European Molecular Biology Laboratory, European Molecular Biology Laboratory

Publications

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Crosshair, semi-automated targeting for electron microscopy with a motorised ultramicrotome

Meechan

Guan

Riedinger

et al. 2022

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Volume electron microscopy (EM) is a time-consuming process – often requiring weeks or months of continuous acquisition for large samples. In order to compare the ultrastructure of a number of individuals or conditions, acquisition times must therefore be reduced. For resin-embedded samples, one solution is to selectively target smaller regions of interest by trimming with an ultramicrotome. This is a difficult and labour-intensive process, requiring manual positioning of the diamond knife and sample, and much time and training to master. Here, we have developed a semi-automated workflow for targeting with a modified ultramicrotome. We adapted two recent commercial systems to add motors for each rotational axis (and also each translational axis for one system), allowing precise and automated movement. We also developed a user-friendly software to convert X-ray images of resin-embedded samples into angles and cutting depths for the ultramicrotome. This is provided as an open-source Fiji plugin called Crosshair. This workflow is demonstrated by targeting regions of interest in a series of Platynereis dumerilii samples.

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Author response: Crosshair, semi-automated targeting for electron microscopy with a motorised ultramicrotome

Meechan

Guan

Riedinger

et al. 2022

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Crosshair, semi-automated targeting for electron microscopy with a motorised ultramicrotome

Meechan

Guan

Riedinger

et al. 2022

Preprint

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Volume electron microscopy (EM) is a time consuming process - often requiring weeks or months of continuous acquisition for large samples. In order to compare the ultrastructure of a number of individuals or conditions, acquisition times must therefore be reduced. For resin-embedded samples, one solution is to selectively target smaller regions of interest by trimming with an ultramicrotome. This is a difficult and labour-intensive process, requiring manual positioning of the diamond knife and sample, and much time and training to master. Here, we have developed a semi-automated workflow for targeting with a modified ultramicrotome. We adapted two recent commercial systems to add motors for each rotational axis (and also each translational axis for one system), allowing precise and automated movement. We also developed a user-friendly software to convert X-ray images of resin-embedded samples into angles and cutting depths for the ultramicrotome. This is provided as an open-source Fiji plugin called Crosshair. This workflow is demonstrated by targeting regions of interest in a series of Platynereis dumerilii samples.

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Digital Microscopy (ODMS)

Nolte

Dietrich

Höring

et al. 2006

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