Stable preservation and recovery of methylation marks from FTA elute cards in species with nucleated red blood cells using a customized DNA extraction method.

Stable preservation and recovery of methylation marks from FTA elute cards in species with nucleated red blood cells using a customized DNA extraction method.

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Specialized chemically-coated paper cards, such as Flinders Technology Associates (FTA) cards, provide simple and reliable storage of nucleic acids by protecting DNA from degradation. Owed to their simplicity, FTA cards are widely used in clinical testing, forensic science and specimen archives. Ori...

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Main Authors: Livia Gerber, Sarah L Whiteley, Erin E Hahn, Clare E Holleley
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2025-01-01
Series:PLoS ONE
Online Access:https://doi.org/10.1371/journal.pone.0329019
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author Livia Gerber
Sarah L Whiteley
Erin E Hahn
Clare E Holleley
author_facet Livia Gerber
Sarah L Whiteley
Erin E Hahn
Clare E Holleley
author_sort Livia Gerber
collection DOAJ
description Specialized chemically-coated paper cards, such as Flinders Technology Associates (FTA) cards, provide simple and reliable storage of nucleic acids by protecting DNA from degradation. Owed to their simplicity, FTA cards are widely used in clinical testing, forensic science and specimen archives. Originally developed for PCR-based applications that only require short DNA fragments, FTA cards are now being explored as an avenue for whole-genome and epigenetic sequencing applications. FTA cards and their corresponding DNA extraction protocols have not kept pace with advances in sequencing technologies. Because the initial protocols developed for FTA cards were geared towards applications using PCR amplification of short fragments, they typically yield low molecular weight DNA. This issue is particularly pronounced for FTA elute cards where heat-based elution at 95°C leads to DNA denaturation and fragmentation. Isolation of DNA from nucleated blood deposited onto FTA elute cards poses an additional challenge when compared to FTA classic cards, because hemoglobin is irreversibly bound to the card matrix, making the majority of DNA present in nucleated blood inaccessible. Here, we describe an easy, fast, and inexpensive protocol to extract high molecular weight DNA (>10 kb) of nucleated blood stored on FTA elute cards suitable for most genomic library preparations including those that interrogate DNA methylation. Our protocol yields a 14-fold increase in yield compared to numerous alternatives. Using our protocol, we demonstrate that high molecular weight DNA can still be extracted even after storage at ambient temperature for over a decade. Moreover, we show that DNA methylation marks are preserved on FTA elute cards, broadening the utility of FTA elute cards. This opens possibilities for (epi-)genomic studies using historical samples and enabling specimen collection where access to chemicals or cryogenic storage is limited - reducing project costs and extending collection opportunities into remote areas.
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issn 1932-6203
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publishDate 2025-01-01
publisher Public Library of Science (PLoS)
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spelling doaj-art-e05a22a93e40425c88600159e8bc6c3c2025-08-20T03:23:30ZengPublic Library of Science (PLoS)PLoS ONE1932-62032025-01-01207e032901910.1371/journal.pone.0329019Stable preservation and recovery of methylation marks from FTA elute cards in species with nucleated red blood cells using a customized DNA extraction method.Livia GerberSarah L WhiteleyErin E HahnClare E HolleleySpecialized chemically-coated paper cards, such as Flinders Technology Associates (FTA) cards, provide simple and reliable storage of nucleic acids by protecting DNA from degradation. Owed to their simplicity, FTA cards are widely used in clinical testing, forensic science and specimen archives. Originally developed for PCR-based applications that only require short DNA fragments, FTA cards are now being explored as an avenue for whole-genome and epigenetic sequencing applications. FTA cards and their corresponding DNA extraction protocols have not kept pace with advances in sequencing technologies. Because the initial protocols developed for FTA cards were geared towards applications using PCR amplification of short fragments, they typically yield low molecular weight DNA. This issue is particularly pronounced for FTA elute cards where heat-based elution at 95°C leads to DNA denaturation and fragmentation. Isolation of DNA from nucleated blood deposited onto FTA elute cards poses an additional challenge when compared to FTA classic cards, because hemoglobin is irreversibly bound to the card matrix, making the majority of DNA present in nucleated blood inaccessible. Here, we describe an easy, fast, and inexpensive protocol to extract high molecular weight DNA (>10 kb) of nucleated blood stored on FTA elute cards suitable for most genomic library preparations including those that interrogate DNA methylation. Our protocol yields a 14-fold increase in yield compared to numerous alternatives. Using our protocol, we demonstrate that high molecular weight DNA can still be extracted even after storage at ambient temperature for over a decade. Moreover, we show that DNA methylation marks are preserved on FTA elute cards, broadening the utility of FTA elute cards. This opens possibilities for (epi-)genomic studies using historical samples and enabling specimen collection where access to chemicals or cryogenic storage is limited - reducing project costs and extending collection opportunities into remote areas.https://doi.org/10.1371/journal.pone.0329019
spellingShingle Livia Gerber
Sarah L Whiteley
Erin E Hahn
Clare E Holleley
Stable preservation and recovery of methylation marks from FTA elute cards in species with nucleated red blood cells using a customized DNA extraction method.
PLoS ONE
title Stable preservation and recovery of methylation marks from FTA elute cards in species with nucleated red blood cells using a customized DNA extraction method.
title_full Stable preservation and recovery of methylation marks from FTA elute cards in species with nucleated red blood cells using a customized DNA extraction method.
title_fullStr Stable preservation and recovery of methylation marks from FTA elute cards in species with nucleated red blood cells using a customized DNA extraction method.
title_full_unstemmed Stable preservation and recovery of methylation marks from FTA elute cards in species with nucleated red blood cells using a customized DNA extraction method.
title_short Stable preservation and recovery of methylation marks from FTA elute cards in species with nucleated red blood cells using a customized DNA extraction method.
title_sort stable preservation and recovery of methylation marks from fta elute cards in species with nucleated red blood cells using a customized dna extraction method
url https://doi.org/10.1371/journal.pone.0329019
work_keys_str_mv AT liviagerber stablepreservationandrecoveryofmethylationmarksfromftaelutecardsinspecieswithnucleatedredbloodcellsusingacustomizeddnaextractionmethod
AT sarahlwhiteley stablepreservationandrecoveryofmethylationmarksfromftaelutecardsinspecieswithnucleatedredbloodcellsusingacustomizeddnaextractionmethod
AT erinehahn stablepreservationandrecoveryofmethylationmarksfromftaelutecardsinspecieswithnucleatedredbloodcellsusingacustomizeddnaextractionmethod
AT clareeholleley stablepreservationandrecoveryofmethylationmarksfromftaelutecardsinspecieswithnucleatedredbloodcellsusingacustomizeddnaextractionmethod

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