Herbarium DNA degradation – Falling to pieces non-randomly
Post-mortem damage in herbarium DNA, mostly from 18th and 19th century collections, and with specimens usually heat-treated for conservation, consists mainly of genome fragmentation (single- and double-stranded breaks) rather than miscoding lesions. With typical herbarium DNA fragment sizes encountered (20–200 6 https://www.jstor.org/stable/1220096 bp) this easily leads to insert sizes in library construction being smaller than Illumina read lengths applied (i.e. 100–250 bp). Using a previously-published series of 56 genome-skimmed herbarium DNA extracts representing 10 angiosperm families, overlapping read pairs were found to occur in roughly 80 % of all read pairs obtained. After merging such overlapping pairs, the resulting fragments and their length-distributions are considered to reflect actual DNA fragmentation. Similar to occurrence in ancient DNA, we found over-representation of purines at fragment-ends in herbarium material. Distributions of fragment lengths fit gamma rather than exponential distributions, without apparent correlation with specimen age. The observed gamma distributions would indicate higher-order degradation kinetics, implying multiple processes acting during degradation. Possibly, the genome skimming data used here, in which repetitive sequences or compartments are over-represented, has biased genomic fragment-length distributions and half-lives as compared to the non-repetitive fraction of plant genomes, but no data was available to test this hypothesis. Overall, our results imply that we cannot confirm whether a plant archival DNA half-live exists and what its rate would be.
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dig-wur-nl-wurpubs-6272172025-01-10 Bakker, F.T. Hemerik, L. Article/Letter to editor Bauhinia 29 (2023) ISSN: 2235-0284 Herbarium DNA degradation – Falling to pieces non-randomly 2023 Post-mortem damage in herbarium DNA, mostly from 18th and 19th century collections, and with specimens usually heat-treated for conservation, consists mainly of genome fragmentation (single- and double-stranded breaks) rather than miscoding lesions. With typical herbarium DNA fragment sizes encountered (20–200 6 https://www.jstor.org/stable/1220096 bp) this easily leads to insert sizes in library construction being smaller than Illumina read lengths applied (i.e. 100–250 bp). Using a previously-published series of 56 genome-skimmed herbarium DNA extracts representing 10 angiosperm families, overlapping read pairs were found to occur in roughly 80 % of all read pairs obtained. After merging such overlapping pairs, the resulting fragments and their length-distributions are considered to reflect actual DNA fragmentation. Similar to occurrence in ancient DNA, we found over-representation of purines at fragment-ends in herbarium material. Distributions of fragment lengths fit gamma rather than exponential distributions, without apparent correlation with specimen age. The observed gamma distributions would indicate higher-order degradation kinetics, implying multiple processes acting during degradation. Possibly, the genome skimming data used here, in which repetitive sequences or compartments are over-represented, has biased genomic fragment-length distributions and half-lives as compared to the non-repetitive fraction of plant genomes, but no data was available to test this hypothesis. Overall, our results imply that we cannot confirm whether a plant archival DNA half-live exists and what its rate would be. en application/pdf https://research.wur.nl/en/publications/herbarium-dna-degradation-falling-to-pieces-non-randomly 10.12685/bauhinia.1378 https://edepot.wur.nl/650753 Life Science https://creativecommons.org/licenses/by/4.0/ https://creativecommons.org/licenses/by/4.0/ Wageningen University & Research |
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Post-mortem damage in herbarium DNA, mostly from 18th and 19th century collections, and with specimens usually heat-treated for conservation, consists mainly of genome fragmentation (single- and double-stranded breaks) rather than miscoding lesions. With typical herbarium DNA fragment sizes encountered (20–200 6 https://www.jstor.org/stable/1220096 bp) this easily leads to insert sizes in library construction being smaller than Illumina read lengths applied (i.e. 100–250 bp). Using a previously-published series of 56 genome-skimmed herbarium DNA extracts representing 10 angiosperm families, overlapping read pairs were found to occur in roughly 80 % of all read pairs obtained. After merging such overlapping pairs, the resulting fragments and their length-distributions are considered to reflect actual DNA fragmentation. Similar to occurrence in ancient DNA, we found over-representation of purines at fragment-ends in herbarium material. Distributions of fragment lengths fit gamma rather than exponential distributions, without apparent correlation with specimen age. The observed gamma distributions would indicate higher-order degradation kinetics, implying multiple processes acting during degradation. Possibly, the genome skimming data used here, in which repetitive sequences or compartments are over-represented, has biased genomic fragment-length distributions and half-lives as compared to the non-repetitive fraction of plant genomes, but no data was available to test this hypothesis. Overall, our results imply that we cannot confirm whether a plant archival DNA half-live exists and what its rate would be. |
| format |
Article/Letter to editor |
| topic_facet |
Life Science |
| author |
Bakker, F.T. Hemerik, L. |
| author_facet |
Bakker, F.T. Hemerik, L. |
| author_sort |
Bakker, F.T. |
| title |
Herbarium DNA degradation – Falling to pieces non-randomly |
| title_short |
Herbarium DNA degradation – Falling to pieces non-randomly |
| title_full |
Herbarium DNA degradation – Falling to pieces non-randomly |
| title_fullStr |
Herbarium DNA degradation – Falling to pieces non-randomly |
| title_full_unstemmed |
Herbarium DNA degradation – Falling to pieces non-randomly |
| title_sort |
herbarium dna degradation – falling to pieces non-randomly |
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https://research.wur.nl/en/publications/herbarium-dna-degradation-falling-to-pieces-non-randomly |
| work_keys_str_mv |
AT bakkerft herbariumdnadegradationfallingtopiecesnonrandomly AT hemerikl herbariumdnadegradationfallingtopiecesnonrandomly |
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