Combined flow cytometry and high-throughput image analysis for the study of essential genes in Caenorhabditis elegans

Combined flow cytometry and high-throughput image analysis for the study of essential genes in Caenorhabditis elegans

Abstract Background Advances in automated image-based microscopy platforms coupled with high-throughput liquid workflows have facilitated the design of large-scale screens utilising multicellular model organisms such as Caenorhabditis elegans to identify genetic interactions, therapeutic drugs or di...

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Main Authors: Blanca Hernando-Rodríguez, Annmary Paul Erinjeri, María Jesús Rodríguez-Palero, Val Millar, Sara González-Hernández, María Olmedo, Bettina Schulze, Ralf Baumeister, Manuel J. Muñoz, Peter Askjaer, Marta Artal-Sanz
Format: Article
Language:English
Published: BMC 2018-03-01
Series:BMC Biology
Subjects:
C. elegans
Essential genes
Worm sorting
Image analysis
High-content
High-throughput
Online Access:http://link.springer.com/article/10.1186/s12915-018-0496-5
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language English
format Article
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author Blanca Hernando-Rodríguez
Annmary Paul Erinjeri
María Jesús Rodríguez-Palero
Val Millar
Sara González-Hernández
María Olmedo
Bettina Schulze
Ralf Baumeister
Manuel J. Muñoz
Peter Askjaer
Marta Artal-Sanz
spellingShingle Blanca Hernando-Rodríguez
Annmary Paul Erinjeri
María Jesús Rodríguez-Palero
Val Millar
Sara González-Hernández
María Olmedo
Bettina Schulze
Ralf Baumeister
Manuel J. Muñoz
Peter Askjaer
Marta Artal-Sanz
Combined flow cytometry and high-throughput image analysis for the study of essential genes in Caenorhabditis elegans
BMC Biology
C. elegans
Essential genes
Worm sorting
Image analysis
High-content
High-throughput
author_facet Blanca Hernando-Rodríguez
Annmary Paul Erinjeri
María Jesús Rodríguez-Palero
Val Millar
Sara González-Hernández
María Olmedo
Bettina Schulze
Ralf Baumeister
Manuel J. Muñoz
Peter Askjaer
Marta Artal-Sanz
author_sort Blanca Hernando-Rodríguez
title Combined flow cytometry and high-throughput image analysis for the study of essential genes in Caenorhabditis elegans
title_short Combined flow cytometry and high-throughput image analysis for the study of essential genes in Caenorhabditis elegans
title_full Combined flow cytometry and high-throughput image analysis for the study of essential genes in Caenorhabditis elegans
title_fullStr Combined flow cytometry and high-throughput image analysis for the study of essential genes in Caenorhabditis elegans
title_full_unstemmed Combined flow cytometry and high-throughput image analysis for the study of essential genes in Caenorhabditis elegans
title_sort combined flow cytometry and high-throughput image analysis for the study of essential genes in caenorhabditis elegans
publisher BMC
series BMC Biology
issn 1741-7007
publishDate 2018-03-01
description Abstract Background Advances in automated image-based microscopy platforms coupled with high-throughput liquid workflows have facilitated the design of large-scale screens utilising multicellular model organisms such as Caenorhabditis elegans to identify genetic interactions, therapeutic drugs or disease modifiers. However, the analysis of essential genes has lagged behind because lethal or sterile mutations pose a bottleneck for high-throughput approaches, and a systematic way to analyse genetic interactions of essential genes in multicellular organisms has been lacking. Results In C. elegans, non-conditional lethal mutations can be maintained in heterozygosity using chromosome balancers, commonly expressing green fluorescent protein (GFP) in the pharynx. However, gene expression or function is typically monitored by the use of fluorescent reporters marked with the same fluorophore, presenting a challenge to sort worm populations of interest, particularly at early larval stages. Here, we develop a sorting strategy capable of selecting homozygous mutants carrying a GFP stress reporter from GFP-balanced animals at the second larval stage. Because sorting is not completely error-free, we develop an automated high-throughput image analysis protocol that identifies and discards animals carrying the chromosome balancer. We demonstrate the experimental usefulness of combining sorting of homozygous lethal mutants and automated image analysis in a functional genomic RNA interference (RNAi) screen for genes that genetically interact with mitochondrial prohibitin (PHB). Lack of PHB results in embryonic lethality, while homozygous PHB deletion mutants develop into sterile adults due to maternal contribution and strongly induce the mitochondrial unfolded protein response (UPRmt). In a chromosome-wide RNAi screen for C. elegans genes having human orthologues, we uncover both known and new PHB genetic interactors affecting the UPRmt and growth. Conclusions The method presented here allows the study of balanced lethal mutations in a high-throughput manner. It can be easily adapted depending on the user’s requirements and should serve as a useful resource for the C. elegans community for probing new biological aspects of essential nematode genes as well as the generation of more comprehensive genetic networks.
topic C. elegans
Essential genes
Worm sorting
Image analysis
High-content
High-throughput
url http://link.springer.com/article/10.1186/s12915-018-0496-5
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spelling doaj-73586dd4ec594b62badd23661fa8bcd72020-11-25T00:52:35ZengBMCBMC Biology1741-70072018-03-0116111910.1186/s12915-018-0496-5Combined flow cytometry and high-throughput image analysis for the study of essential genes in Caenorhabditis elegansBlanca Hernando-Rodríguez0Annmary Paul Erinjeri1María Jesús Rodríguez-Palero2Val Millar3Sara González-Hernández4María Olmedo5Bettina Schulze6Ralf Baumeister7Manuel J. Muñoz8Peter Askjaer9Marta Artal-Sanz10Andalusian Center for Developmental Biology, Consejo Superior de Investigaciones Científicas/Junta de Andalucía/Universidad Pablo de OlavideAndalusian Center for Developmental Biology, Consejo Superior de Investigaciones Científicas/Junta de Andalucía/Universidad Pablo de OlavideAndalusian Center for Developmental Biology, Consejo Superior de Investigaciones Científicas/Junta de Andalucía/Universidad Pablo de OlavideGE Healthcare Life Sciences, Maynard Centre, Forest FarmAndalusian Center for Developmental Biology, Consejo Superior de Investigaciones Científicas/Junta de Andalucía/Universidad Pablo de OlavideAndalusian Center for Developmental Biology, Consejo Superior de Investigaciones Científicas/Junta de Andalucía/Universidad Pablo de OlavideCentre for Biological Signalling Studies (BIOSS), Laboratory for Bioinformatics and Molecular Genetics, Faculty of Biology, and ZBMZ Center for Biochemistry and Molecular Cell Biology (Faculty of Medicine), Albert-Ludwigs-University of FreiburgCentre for Biological Signalling Studies (BIOSS), Laboratory for Bioinformatics and Molecular Genetics, Faculty of Biology, and ZBMZ Center for Biochemistry and Molecular Cell Biology (Faculty of Medicine), Albert-Ludwigs-University of FreiburgAndalusian Center for Developmental Biology, Consejo Superior de Investigaciones Científicas/Junta de Andalucía/Universidad Pablo de OlavideAndalusian Center for Developmental Biology, Consejo Superior de Investigaciones Científicas/Junta de Andalucía/Universidad Pablo de OlavideAndalusian Center for Developmental Biology, Consejo Superior de Investigaciones Científicas/Junta de Andalucía/Universidad Pablo de OlavideAbstract Background Advances in automated image-based microscopy platforms coupled with high-throughput liquid workflows have facilitated the design of large-scale screens utilising multicellular model organisms such as Caenorhabditis elegans to identify genetic interactions, therapeutic drugs or disease modifiers. However, the analysis of essential genes has lagged behind because lethal or sterile mutations pose a bottleneck for high-throughput approaches, and a systematic way to analyse genetic interactions of essential genes in multicellular organisms has been lacking. Results In C. elegans, non-conditional lethal mutations can be maintained in heterozygosity using chromosome balancers, commonly expressing green fluorescent protein (GFP) in the pharynx. However, gene expression or function is typically monitored by the use of fluorescent reporters marked with the same fluorophore, presenting a challenge to sort worm populations of interest, particularly at early larval stages. Here, we develop a sorting strategy capable of selecting homozygous mutants carrying a GFP stress reporter from GFP-balanced animals at the second larval stage. Because sorting is not completely error-free, we develop an automated high-throughput image analysis protocol that identifies and discards animals carrying the chromosome balancer. We demonstrate the experimental usefulness of combining sorting of homozygous lethal mutants and automated image analysis in a functional genomic RNA interference (RNAi) screen for genes that genetically interact with mitochondrial prohibitin (PHB). Lack of PHB results in embryonic lethality, while homozygous PHB deletion mutants develop into sterile adults due to maternal contribution and strongly induce the mitochondrial unfolded protein response (UPRmt). In a chromosome-wide RNAi screen for C. elegans genes having human orthologues, we uncover both known and new PHB genetic interactors affecting the UPRmt and growth. Conclusions The method presented here allows the study of balanced lethal mutations in a high-throughput manner. It can be easily adapted depending on the user’s requirements and should serve as a useful resource for the C. elegans community for probing new biological aspects of essential nematode genes as well as the generation of more comprehensive genetic networks.http://link.springer.com/article/10.1186/s12915-018-0496-5C. elegansEssential genesWorm sortingImage analysisHigh-contentHigh-throughput

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