High Throughput Analysis of Golgi Structure by Imaging Flow Cytometry

High Throughput Analysis of Golgi Structure by Imaging Flow Cytometry

Abstract The Golgi apparatus is a dynamic organelle, which regulates the vesicular trafficking. While cellular trafficking requires active changes of the Golgi membranes, these are not accompanied by changes in the general Golgi’s structure. However, cellular processes such as mitosis, apoptosis and...

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Main Authors: Inbal Wortzel, Gabriela Koifman, Varda Rotter, Rony Seger, Ziv Porat
Format: Article
Language:English
Published: Nature Publishing Group 2017-04-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-017-00909-y
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spelling doaj-4796301aa11b4508800e2f0e548c2abb2020-12-08T02:02:00ZengNature Publishing GroupScientific Reports2045-23222017-04-017111110.1038/s41598-017-00909-yHigh Throughput Analysis of Golgi Structure by Imaging Flow CytometryInbal Wortzel0Gabriela Koifman1Varda Rotter2Rony Seger3Ziv Porat4Dept. of Biological Regulation, the Weizmann Institute of ScienceDept. Of Molecular Cell Biology, the Weizmann Institute of ScienceDept. Of Molecular Cell Biology, the Weizmann Institute of ScienceDept. of Biological Regulation, the Weizmann Institute of ScienceDept. of Life Sciences Core Facilities, the Weizmann Institute of ScienceAbstract The Golgi apparatus is a dynamic organelle, which regulates the vesicular trafficking. While cellular trafficking requires active changes of the Golgi membranes, these are not accompanied by changes in the general Golgi’s structure. However, cellular processes such as mitosis, apoptosis and migration require fragmentation of the Golgi complex. Currently, these changes are most commonly studied by basic immunofluorescence and quantified by manual and subjective classification of the Golgi structure in 100–500 stained cells. Several other high-throughput methods exist as well, but those are either complicated or do not provide enough morphological information. Therefore, a simple and informative high content methodology should be beneficial for the study of Golgi architecture. Here we describe the use of high-throughput imaging flow cytometry for quantification of Golgi fragmentation, which provides a simple way to analyze the changes in an automated, quantitative and non-biased manner. Furthermore, it provides a rapid and accurate way to analyze more than 50,000 cells per sample. Our results demonstrate that this method is robust and statistically powerful, thus, providing a much-needed analytical tool for future studies on Golgi dynamics, and can be adapted to other experimental systems.https://doi.org/10.1038/s41598-017-00909-y
collection DOAJ
language English
format Article
sources DOAJ
author Inbal Wortzel
Gabriela Koifman
Varda Rotter
Rony Seger
Ziv Porat
spellingShingle Inbal Wortzel
Gabriela Koifman
Varda Rotter
Rony Seger
Ziv Porat
High Throughput Analysis of Golgi Structure by Imaging Flow Cytometry
Scientific Reports
author_facet Inbal Wortzel
Gabriela Koifman
Varda Rotter
Rony Seger
Ziv Porat
author_sort Inbal Wortzel
title High Throughput Analysis of Golgi Structure by Imaging Flow Cytometry
title_short High Throughput Analysis of Golgi Structure by Imaging Flow Cytometry
title_full High Throughput Analysis of Golgi Structure by Imaging Flow Cytometry
title_fullStr High Throughput Analysis of Golgi Structure by Imaging Flow Cytometry
title_full_unstemmed High Throughput Analysis of Golgi Structure by Imaging Flow Cytometry
title_sort high throughput analysis of golgi structure by imaging flow cytometry
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2017-04-01
description Abstract The Golgi apparatus is a dynamic organelle, which regulates the vesicular trafficking. While cellular trafficking requires active changes of the Golgi membranes, these are not accompanied by changes in the general Golgi’s structure. However, cellular processes such as mitosis, apoptosis and migration require fragmentation of the Golgi complex. Currently, these changes are most commonly studied by basic immunofluorescence and quantified by manual and subjective classification of the Golgi structure in 100–500 stained cells. Several other high-throughput methods exist as well, but those are either complicated or do not provide enough morphological information. Therefore, a simple and informative high content methodology should be beneficial for the study of Golgi architecture. Here we describe the use of high-throughput imaging flow cytometry for quantification of Golgi fragmentation, which provides a simple way to analyze the changes in an automated, quantitative and non-biased manner. Furthermore, it provides a rapid and accurate way to analyze more than 50,000 cells per sample. Our results demonstrate that this method is robust and statistically powerful, thus, providing a much-needed analytical tool for future studies on Golgi dynamics, and can be adapted to other experimental systems.
url https://doi.org/10.1038/s41598-017-00909-y
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