Application-based guidelines for best practices in plant flow cytometry

Elwira Sliwinska¹, João Loureiro², Ilia J Leitch³, Petr Šmarda⁴, Jillian Bainard⁵, Petr Bureš⁴, Zuzana Chumová^{6

7}, Lucie Horová⁴, Petr Koutecký⁸, Magdalena Lučanová^{6

8}, Pavel Trávníček⁶, David W Galbraith^{9

10}

Affiliations

¹ Laboratory of Molecular Biology and Cytometry, Department of Agricultural Biotechnology, UTP University of Science and Technology, Bydgoszcz, Poland.
² Centre for Functional Ecology, Department of Life Sciences, University of Coimbra, Coimbra, Portugal.
³ Kew Science Directorate, Royal Botanic Gardens, Kew, Richmond, Surrey, UK.
⁴ Department of Botany and Zoology, Faculty of Science, Masaryk University, Brno, Czech Republic.
⁵ Swift Current Research and Development Centre, Agriculture and Agri-Food Canada, Swift Current, Saskatchewan, Canada.
⁶ Czech Academy of Sciences, Institute of Botany, Průhonice, Czech Republic.
⁷ Department of Botany, Faculty of Science, Charles University, Prague, Czech Republic.
⁸ Department of Botany, Faculty of Science, University of South Bohemia, České Budějovice, Czech Republic.
⁹ School of Plant Sciences, BIO5 Institute, Arizona Cancer Center, Department of Biomedical Engineering, University of Arizona, Tucson, Arizona, USA.
¹⁰ Henan University, School of Life Sciences, State Key Laboratory of Crop Stress Adaptation and Improvement, State Key Laboratory of Cotton Biology, Key Laboratory of Plant Stress Biology, Kaifeng, China.

PMID: 34585818
DOI: 10.1002/cyto.a.24499

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Application-based guidelines for best practices in plant flow cytometry

Elwira Sliwinska et al. Cytometry A. 2022 Sep.

Free article

. 2022 Sep;101(9):749-781.

doi: 10.1002/cyto.a.24499. Epub 2021 Sep 29.

Authors

Affiliations

¹ Laboratory of Molecular Biology and Cytometry, Department of Agricultural Biotechnology, UTP University of Science and Technology, Bydgoszcz, Poland.
² Centre for Functional Ecology, Department of Life Sciences, University of Coimbra, Coimbra, Portugal.
³ Kew Science Directorate, Royal Botanic Gardens, Kew, Richmond, Surrey, UK.
⁴ Department of Botany and Zoology, Faculty of Science, Masaryk University, Brno, Czech Republic.
⁵ Swift Current Research and Development Centre, Agriculture and Agri-Food Canada, Swift Current, Saskatchewan, Canada.
⁶ Czech Academy of Sciences, Institute of Botany, Průhonice, Czech Republic.
⁷ Department of Botany, Faculty of Science, Charles University, Prague, Czech Republic.
⁸ Department of Botany, Faculty of Science, University of South Bohemia, České Budějovice, Czech Republic.
⁹ School of Plant Sciences, BIO5 Institute, Arizona Cancer Center, Department of Biomedical Engineering, University of Arizona, Tucson, Arizona, USA.
¹⁰ Henan University, School of Life Sciences, State Key Laboratory of Crop Stress Adaptation and Improvement, State Key Laboratory of Cotton Biology, Key Laboratory of Plant Stress Biology, Kaifeng, China.

PMID: 34585818
DOI: 10.1002/cyto.a.24499

Abstract

Flow cytometry (FCM) is currently the most widely-used method to establish nuclear DNA content in plants. Since simple, 1-3-parameter, flow cytometers, which are sufficient for most plant applications, are commercially available at a reasonable price, the number of laboratories equipped with these instruments, and consequently new FCM users, has greatly increased over the last decade. This paper meets an urgent need for comprehensive recommendations for best practices in FCM for different plant science applications. We discuss advantages and limitations of establishing plant ploidy, genome size, DNA base composition, cell cycle activity, and level of endoreduplication. Applications of such measurements in plant systematics, ecology, molecular biology research, reproduction biology, tissue cultures, plant breeding, and seed sciences are described. Advice is included on how to obtain accurate and reliable results, as well as how to manage troubleshooting that may occur during sample preparation, cytometric measurements, and data handling. Each section is followed by best practice recommendations; tips as to what specific information should be provided in FCM papers are also provided.

Keywords: DNA base composition; DNA content; cell cycle; endoreduplication; flow cytometric seed screening; genome size; in vitro cultures; intraspecific variation; ploidy.

© 2021 Her Majesty the Queen in Right of Canada Cytometry Part A © 2021 International Society for Advancement of Cytometry. Reproduced with the permission of the Minister of Agriculture & Agri- Food Canada.

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References

REFERENCES

1. Sliwinska E. Flow cytometry - a modern method for exploring genome size and nuclear DNA synthesis in horticultural and medicinal plant species. Folia Horticulturae. 2018;30:103-28.
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1. Hanušová K, Čertner M, Urfus T, Koutecký P, Košnar J, Rothfels CJ, et al. Widespread co-occurrence of multiple ploidy levels in fragile ferns (Cystopteris fragilis complex; Cystopteridaceae) probably stems from similar ecology of cytotypes, their efficient dispersal and inter-ploidy hybridization. Ann Bot. 2019;123:845-55.
1. Chumová Z, Krejčíková J, Mandáková T, Suda J, Trávníček P. Evolutionary and taxonomic implications of variation in nuclear genome size: lesson from the grass genus Anthoxanthum (Poaceae). PLoS ONE. 2015;10:e0133748.
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Application-based guidelines for best practices in plant flow cytometry

Affiliations

Application-based guidelines for best practices in plant flow cytometry

Authors

Affiliations

Abstract

References

REFERENCES

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MeSH terms

Substances

LinkOut - more resources

Full Text Sources