Purification of high-quality RNA from a small number of fluorescence activated cell sorted zebrafish cells for RNA sequencing purposes

Purification of high-quality RNA from a small number of fluorescence activated cell sorted zebrafish cells for RNA sequencing purposes

Abstract Background Transgenic zebrafish lines with the expression of a fluorescent reporter under the control of a cell-type specific promoter, enable transcriptome analysis of FACS sorted cell populations. RNA quality and yield are key determinant factors for accurate expression profiling. Limited...

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Main Authors: Siebe Loontiens, Lisa Depestel, Suzanne Vanhauwaert, Givani Dewyn, Charlotte Gistelinck, Karen Verboom, Wouter Van Loocke, Filip Matthijssens, Andy Willaert, Jo Vandesompele, Frank Speleman, Kaat Durinck
Format: Article
Language:English
Published: BMC 2019-03-01
Series:BMC Genomics
Subjects:
RNA isolation
FACS sorting
Zebrafish
RNA sequencing
Online Access:http://link.springer.com/article/10.1186/s12864-019-5608-2
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spelling doaj-acfc64ccb81d44cd82fb56d1745572ab2020-11-25T02:40:14ZengBMCBMC Genomics1471-21642019-03-0120111610.1186/s12864-019-5608-2Purification of high-quality RNA from a small number of fluorescence activated cell sorted zebrafish cells for RNA sequencing purposesSiebe Loontiens0Lisa Depestel1Suzanne Vanhauwaert2Givani Dewyn3Charlotte Gistelinck4Karen Verboom5Wouter Van Loocke6Filip Matthijssens7Andy Willaert8Jo Vandesompele9Frank Speleman10Kaat Durinck11Department of Biomolecular Medicine & Center for Medical Genetics, Ghent UniversityDepartment of Biomolecular Medicine & Center for Medical Genetics, Ghent UniversityDepartment of Biomolecular Medicine & Center for Medical Genetics, Ghent UniversityDepartment of Biomolecular Medicine & Center for Medical Genetics, Ghent UniversityDepartment of Biomolecular Medicine & Center for Medical Genetics, Ghent UniversityDepartment of Biomolecular Medicine & Center for Medical Genetics, Ghent UniversityDepartment of Biomolecular Medicine & Center for Medical Genetics, Ghent UniversityDepartment of Biomolecular Medicine & Center for Medical Genetics, Ghent UniversityDepartment of Biomolecular Medicine & Center for Medical Genetics, Ghent UniversityDepartment of Biomolecular Medicine & Center for Medical Genetics, Ghent UniversityDepartment of Biomolecular Medicine & Center for Medical Genetics, Ghent UniversityDepartment of Biomolecular Medicine & Center for Medical Genetics, Ghent UniversityAbstract Background Transgenic zebrafish lines with the expression of a fluorescent reporter under the control of a cell-type specific promoter, enable transcriptome analysis of FACS sorted cell populations. RNA quality and yield are key determinant factors for accurate expression profiling. Limited cell number and FACS induced cellular stress make RNA isolation of sorted zebrafish cells a delicate process. We aimed to optimize a workflow to extract sufficient amounts of high-quality RNA from a limited number of FACS sorted cells from Tg(fli1a:GFP) zebrafish embryos, which can be used for accurate gene expression analysis. Results We evaluated two suitable RNA isolation kits (the RNAqueous micro and the RNeasy plus micro kit) and determined that sorting cells directly into lysis buffer is a critical step for success. For low cell numbers, this ensures direct cell lysis, protects RNA from degradation and results in a higher RNA quality and yield. We showed that this works well up to 0.5× dilution of the lysis buffer with sorted cells. In our sort settings, this corresponded to 30,000 and 75,000 cells for the RNAqueous micro kit and RNeasy plus micro kit respectively. Sorting more cells dilutes the lysis buffer too much and requires the use of a collection buffer. We also demonstrated that an additional genomic DNA removal step after RNA isolation is required to completely clear the RNA from any contaminating genomic DNA. For cDNA synthesis and library preparation, we combined SmartSeq v4 full length cDNA library amplification, Nextera XT tagmentation and sample barcoding. Using this workflow, we were able to generate highly reproducible RNA sequencing results. Conclusions The presented optimized workflow enables to generate high quality RNA and allows accurate transcriptome profiling of small populations of sorted zebrafish cells.http://link.springer.com/article/10.1186/s12864-019-5608-2RNA isolationFACS sortingZebrafishRNA sequencing
collection DOAJ
language English
format Article
sources DOAJ
author Siebe Loontiens
Lisa Depestel
Suzanne Vanhauwaert
Givani Dewyn
Charlotte Gistelinck
Karen Verboom
Wouter Van Loocke
Filip Matthijssens
Andy Willaert
Jo Vandesompele
Frank Speleman
Kaat Durinck
spellingShingle Siebe Loontiens
Lisa Depestel
Suzanne Vanhauwaert
Givani Dewyn
Charlotte Gistelinck
Karen Verboom
Wouter Van Loocke
Filip Matthijssens
Andy Willaert
Jo Vandesompele
Frank Speleman
Kaat Durinck
Purification of high-quality RNA from a small number of fluorescence activated cell sorted zebrafish cells for RNA sequencing purposes
BMC Genomics
RNA isolation
FACS sorting
Zebrafish
RNA sequencing
author_facet Siebe Loontiens
Lisa Depestel
Suzanne Vanhauwaert
Givani Dewyn
Charlotte Gistelinck
Karen Verboom
Wouter Van Loocke
Filip Matthijssens
Andy Willaert
Jo Vandesompele
Frank Speleman
Kaat Durinck
author_sort Siebe Loontiens
title Purification of high-quality RNA from a small number of fluorescence activated cell sorted zebrafish cells for RNA sequencing purposes
title_short Purification of high-quality RNA from a small number of fluorescence activated cell sorted zebrafish cells for RNA sequencing purposes
title_full Purification of high-quality RNA from a small number of fluorescence activated cell sorted zebrafish cells for RNA sequencing purposes
title_fullStr Purification of high-quality RNA from a small number of fluorescence activated cell sorted zebrafish cells for RNA sequencing purposes
title_full_unstemmed Purification of high-quality RNA from a small number of fluorescence activated cell sorted zebrafish cells for RNA sequencing purposes
title_sort purification of high-quality rna from a small number of fluorescence activated cell sorted zebrafish cells for rna sequencing purposes
publisher BMC
series BMC Genomics
issn 1471-2164
publishDate 2019-03-01
description Abstract Background Transgenic zebrafish lines with the expression of a fluorescent reporter under the control of a cell-type specific promoter, enable transcriptome analysis of FACS sorted cell populations. RNA quality and yield are key determinant factors for accurate expression profiling. Limited cell number and FACS induced cellular stress make RNA isolation of sorted zebrafish cells a delicate process. We aimed to optimize a workflow to extract sufficient amounts of high-quality RNA from a limited number of FACS sorted cells from Tg(fli1a:GFP) zebrafish embryos, which can be used for accurate gene expression analysis. Results We evaluated two suitable RNA isolation kits (the RNAqueous micro and the RNeasy plus micro kit) and determined that sorting cells directly into lysis buffer is a critical step for success. For low cell numbers, this ensures direct cell lysis, protects RNA from degradation and results in a higher RNA quality and yield. We showed that this works well up to 0.5× dilution of the lysis buffer with sorted cells. In our sort settings, this corresponded to 30,000 and 75,000 cells for the RNAqueous micro kit and RNeasy plus micro kit respectively. Sorting more cells dilutes the lysis buffer too much and requires the use of a collection buffer. We also demonstrated that an additional genomic DNA removal step after RNA isolation is required to completely clear the RNA from any contaminating genomic DNA. For cDNA synthesis and library preparation, we combined SmartSeq v4 full length cDNA library amplification, Nextera XT tagmentation and sample barcoding. Using this workflow, we were able to generate highly reproducible RNA sequencing results. Conclusions The presented optimized workflow enables to generate high quality RNA and allows accurate transcriptome profiling of small populations of sorted zebrafish cells.
topic RNA isolation
FACS sorting
Zebrafish
RNA sequencing
url http://link.springer.com/article/10.1186/s12864-019-5608-2
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