aNMJ-morph: a simple macro for rapid analysis of neuromuscular junction morphology

Large-scale data analysis of synaptic morphology is becoming increasingly important to the field of neurobiological research (e.g. 'connectomics'). In particular, a detailed knowledge of neuromuscular junction (NMJ) morphology has proven to be important for understanding the form and funct...

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Veröffentlicht in:	Royal Society open science 2020-04, Vol.7 (4), p.200128-200128, Article 200128
Hauptverfasser:	Minty, Gavin, Hoppen, Alex, Boehm, Ines, Alhindi, Abrar, Gibb, Larissa, Potter, Ellie, Wagner, Boris C., Miller, Janice, Skipworth, Richard J. E., Gillingwater, Thomas H., Jones, Ross A.
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Schlagworte:	Biochemistry, Cellular and Molecular Biology fiji imagej macro Multidisciplinary Sciences neuromuscular junction nmj-morph Science & Technology Science & Technology - Other Topics
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creator	Minty, Gavin Hoppen, Alex Boehm, Ines Alhindi, Abrar Gibb, Larissa Potter, Ellie Wagner, Boris C. Miller, Janice Skipworth, Richard J. E. Gillingwater, Thomas H. Jones, Ross A.
description	Large-scale data analysis of synaptic morphology is becoming increasingly important to the field of neurobiological research (e.g. 'connectomics'). In particular, a detailed knowledge of neuromuscular junction (NMJ) morphology has proven to be important for understanding the form and function of synapses in both health and disease. The recent introduction of a standardized approach to the morphometric analysis of the NMJ-'NMJ-morph'-has provided the first common software platform with which to analyse and integrate NMJ data from different research laboratories. Here, we describe the design and development of a novel macro-'automated NMJ-morph' or 'aNMJ-morph'-to update and streamline the original NMJ-morph methodology. ImageJ macro language was used to encode the complete NMJ-morph workflow into seven navigation windows that generate robust data for 19 individual pre-/post-synaptic variables. The aNMJ-morph scripting was first validated against reference data generated by the parent workflow to confirm data reproducibility. aNMJ-morph was then compared with the parent workflow in large-scale data analysis of original NMJ images (240 NMJs) by multiple independent investigators. aNMJ-morph conferred a fourfold increase in data acquisition rate compared with the parent workflow, with average analysis times reduced to approximately 1 min per NMJ. Strong concordance was demonstrated between the two approaches for all 19 morphological variables, confirming the robust nature of aNMJ-morph. aNMJ-morph is a freely available and easy-to-use macro for the rapid and robust analysis of NMJ morphology and offers significant improvements in data acquisition and learning curve compared to the original NMJ-morph workflow.
doi_str_mv	10.1098/rsos.200128
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E.</creatorcontrib><creatorcontrib>Gillingwater, Thomas H.</creatorcontrib><creatorcontrib>Jones, Ross A.</creatorcontrib><title>aNMJ-morph: a simple macro for rapid analysis of neuromuscular junction morphology</title><title>Royal Society open science</title><addtitle>ROY SOC OPEN SCI</addtitle><addtitle>R Soc Open Sci</addtitle><description>Large-scale data analysis of synaptic morphology is becoming increasingly important to the field of neurobiological research (e.g. 'connectomics'). In particular, a detailed knowledge of neuromuscular junction (NMJ) morphology has proven to be important for understanding the form and function of synapses in both health and disease. The recent introduction of a standardized approach to the morphometric analysis of the NMJ-'NMJ-morph'-has provided the first common software platform with which to analyse and integrate NMJ data from different research laboratories. Here, we describe the design and development of a novel macro-'automated NMJ-morph' or 'aNMJ-morph'-to update and streamline the original NMJ-morph methodology. ImageJ macro language was used to encode the complete NMJ-morph workflow into seven navigation windows that generate robust data for 19 individual pre-/post-synaptic variables. The aNMJ-morph scripting was first validated against reference data generated by the parent workflow to confirm data reproducibility. aNMJ-morph was then compared with the parent workflow in large-scale data analysis of original NMJ images (240 NMJs) by multiple independent investigators. aNMJ-morph conferred a fourfold increase in data acquisition rate compared with the parent workflow, with average analysis times reduced to approximately 1 min per NMJ. 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subjects	Biochemistry, Cellular and Molecular Biology fiji imagej macro Multidisciplinary Sciences neuromuscular junction nmj-morph Science & Technology Science & Technology - Other Topics
title	aNMJ-morph: a simple macro for rapid analysis of neuromuscular junction morphology
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