A Flow Cytometry Protocol for Measurement of Plant Genome Size Using Frozen Material

A Flow Cytometry Protocol for Measurement of Plant Genome Size Using Frozen Material

Flow cytometry is widely applied to infer the ploidy and genome size (GS) of plant nuclei. The conventional approach of sample preparation, reliant on fresh plant material to release intact nuclei, often results in poor yields of nuclei in conditions when a plant material cannot be kept fresh due to...

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Bibliographic Details
Main Authors: Abhishek Soni, Lena Constantin, Agnelo Furtado, Robert J Henry
Format: Article
Language:English
Published: MDPI AG 2025-06-01
Series:Applied Biosciences
Subjects:
flow cytometry
FCM
genome size
picograms
plant genome
frozen plant material
Online Access:https://www.mdpi.com/2813-0464/4/2/28
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Summary:Flow cytometry is widely applied to infer the ploidy and genome size (GS) of plant nuclei. The conventional approach of sample preparation, reliant on fresh plant material to release intact nuclei, often results in poor yields of nuclei in conditions when a plant material cannot be kept fresh due to logistical constraints. Previous attempts to use frozen plant material were mainly limited to ploidy analysis and relied on chopping methods, which restrict the material input and often result in poor nuclei yield, especially in frozen samples, due to incomplete disruption. Here, we present a modified protocol for GS estimation using frozen plant material that facilitates larger volumes of tissue to be processed while improving debris removal. Nuclei isolated from this protocol can also be used for DNA or RNA extraction. Genome size estimates from frozen material are similar to those from fresh material, with a reduction in error range, although not always significant (<i>p</i> > 0.05). In certain species, frozen samples can yield substantially more nuclei than fresh material. With the addition of specific debris compensation algorithms, coefficient of variation (CV%) can be maintained below 5%. This method has special value in estimating the GS of samples collected from remote locations and frozen for use in plant genome sequencing. Freezing preserves high-quality DNA and RNA, enabling the same sample to be used for both flow cytometry and genome sequencing.
ISSN:2813-0464

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