Single‐egg comet assay: A protocol to quantify DNA damage in natural bioarchives

Single‐egg comet assay: A protocol to quantify DNA damage in natural bioarchives

Abstract The comet assay (CA), originally developed as toxicity test, quantifies DNA integrity from DNA distribution across an electric field. Compromised DNA moves across electric fields faster than intact DNA strands, leaving quantifiable signatures that resemble comet tails. Comet tail dimensions...

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Bibliographic Details
Main Authors: Rejin Salimraj, Alessio Perotti, Marcin W. Wojewodzic, Dagmar Frisch
Format: Article
Language:English
Published: Wiley 2025-02-01
Series:Methods in Ecology and Evolution
Subjects:
bioarchive
Daphnia
DNA degradation
paleogenomics
resurrection ecology
sedimentary propagules
Online Access:https://doi.org/10.1111/2041-210X.14493
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Summary:Abstract The comet assay (CA), originally developed as toxicity test, quantifies DNA integrity from DNA distribution across an electric field. Compromised DNA moves across electric fields faster than intact DNA strands, leaving quantifiable signatures that resemble comet tails. Comet tail dimensions reflect relative DNA damage. We optimised the CA protocol for individual dormant propagules (single‐egg comet assay or SE‐CA) to inform downstream analyses such as DNA sequencing of the DNA quality contained in natural genetic archives of past populations. As a model, we used dormant eggs of the microcrustacean Daphnia. We evaluated the feasibility of the SE‐CA protocol to quantify DNA damage caused by processing and storage conditions for dormant eggs and in dormant eggs retrieved from recently deposited to centuries‐old lake sediment. In conclusion, our protocol provides a cost‐effective method of assessing DNA damage in sedimentary propagules such as dormant Daphnia eggs. More generally, the SE‐CA is applicable to testing DNA integrity in individual propagules prior to genome sequencing or to quantify environmental impacts on natural sedimentary biobanks.
ISSN:2041-210X

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