Quantifying Soil Microbiome Abundance by Metatranscriptomics and Complementary Molecular Techniques-Cross-Validation and Perspectives

Mathilde Borg Dahl; Stella Brachmann; Andrea Söllinger; Marina Schnell; Laureen Ahlers; Magdalena Wutkowska; Katharina J Hoff; Neetika Nath; Verena Groß; Haitao Wang; Micha Weil; Marc Piecha; Marc Schaffer; Corinna Jensen; Andreas W Kuss; Christoph Gall; Erika Wimmer; Thomas Pribasnig; Alexander Tøsdal Tveit; Bjarni D Sigurdsson; Christa Schleper; Andreas Richter; Tim Urich

doi:10.1111/1755-0998.14130

Quantifying Soil Microbiome Abundance by Metatranscriptomics and Complementary Molecular Techniques-Cross-Validation and Perspectives

Mathilde Borg Dahl (Korresp. Autor*in)
, Stella Brachmann
, Andrea Söllinger
, Marina Schnell
, Laureen Ahlers
, Magdalena Wutkowska
, Katharina J Hoff
, Neetika Nath
, Verena Groß
, Haitao Wang
, Micha Weil
, Marc Piecha
, Marc Schaffer
, Corinna Jensen
, Andreas W Kuss
, Christoph Gall
, Erika Wimmer
, Thomas Pribasnig
, Alexander Tøsdal Tveit
, Bjarni D Sigurdsson

Christa Schleper, Andreas Richter, Tim Urich

Veröffentlichungen: Beitrag in Fachzeitschrift › Artikel › Peer Reviewed

Abstract

Linking meta-omics and biogeochemistry approaches in soils has remained challenging. This study evaluates the use of an internal RNA extraction standard and its potential for making quantitative estimates of a given microbial community size (biomass) in soil metatranscriptomics. We evaluate commonly used laboratory protocols for RNA processing, metatranscriptomic sequencing and quantitative reverse transcription polymerase chain reaction (qRT-PCR). Metatranscriptomic profiles from soil samples were generated using two library preparation protocols and prepared in triplicates. RNA extracted from pure cultures of Saccharolobus solfataricus was added to the samples as an internal nucleic acid extraction standard (NAEstd). RNA reads originating from NAEstd were identified with a 99.9% accuracy. A remarkable replication consistency between triplicates was seen (average Bray-Curtis dissimilarity 0.03 ± 0.02), in addition to a clear library preparation bias. Nevertheless, the between-sample pattern was not affected by library type. Estimates of 16S rRNA transcript abundance derived from qRT-PCR experiments, NAEstd and a previously published quantification method of metatranscriptomics (hereafter qMeTra) were compared with microbial biomass carbon (MBC) and nitrogen (MBN) extracts. The derived biomass estimates differed by orders of magnitude. While most estimates were significantly correlated with each other, no correlation was observed between NAEstd and MBC extracts. We discuss how simultaneous changes in community size and the soils nucleic acid retention strength might hamper accurate biomass estimation. Adding NAEstd has the potential to shed important light on nucleic acid retention in the substance matrix (e.g., soil) during extraction.

Originalsprache	Englisch
Aufsatznummer	e14130
Fachzeitschrift	Molecular Ecology Resources
Jahrgang	25
Ausgabenummer	7
DOIs	https://doi.org/10.1111/1755-0998.14130
Publikationsstatus	Elektronische Veröffentlichung vor Drucklegung - 3 Juni 2025

Fördermittel

M.B.D. and T.U. thank the German Research Foundation (DFG) for funding (BO 5559/1\u20101 and UR198/7\u20101). A.T.T. and A.S. acknowledge funding from the Research Council of Norway (FRIPRO projects LoAir, 315129 and SHRINK, 344999). M.W. was supported by The Czech Science Foundation project 21\u201017322M. We wish to thank Pall Sigur\u00F0sson, Dennis Metze, Biplabi Bhattarai and Coline Le Noir de Carlan for collecting soil samples and they and B.D.S. were supported by FutureArctic, a European Union's Horizon 2020 research and innovation program under the Marie Sk\u0142odowska\u2010Curie Actions (grant no. 813114). We thank colleagues at the University Greifswald: Anne Reinhard and Katrin Schoknecht for laboratory support and Michael Baumann (from the \u2018Wissenschaftliche Werkst\u00E4tten\u2019) for technical machine support, Prof. Lars Kaderali for hosting and maintaining the CAPUT server at the Center for Functional Genomics, University Greifswald, and DFG for funding of the Cluster (INST 292/146\u20101 FUGB). Funding: M.B.D. and T.U. thank the German Research Foundation (DFG) for funding (BO 5559/1\u20101 and UR198/7\u20101). A.T.T. and A.S. acknowledge funding from the Research Council of Norway (FRIPRO projects LoAir, 315129 and SHRINK, 344999). M.W. was supported by The Czech Science Foundation project 21\u201017322M. We wish to thank Pall Sigur\u00F0sson, Dennis Metze, Biplabi Bhattarai and Coline Le Noir de Carlan for collecting soil samples and they and B.D.S. were supported by FutureArctic, a European Union's Horizon 2020 research and innovation program under the Marie Sk\u0142odowska\u2010Curie Actions (grant no. 813114). We thank colleagues at the University Greifswald: Anne Reinhard and Katrin Schoknecht for laboratory support and Michael Baumann (from the \u2018Wissenschaftliche Werkst\u00E4tten\u2019) for technical machine support, Prof. Lars Kaderali for hosting and maintaining the CAPUT server at the Center for Functional Genomics, University Greifswald, and DFG for funding of the Cluster (INST 292/146\u20101 FUGB). Further, we thank Dr. Anders Lanzen for his insightful contributions. Prof. Daniel Huson and Dr. Benjamin Buchfink for extensive user support for MEGAN6 and DIAMOND, respectively. Finally, we wish to acknowledge the online community at Stack\u2010overflow and the open AI ChatGTP, both which have been indispensable resources for the bioinformatic work of this study. Open Access funding enabled and organized by Projekt DEAL.

ÖFOS 2012

106022 Mikrobiologie

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10.1111/1755-0998.14130Lizenz: CC BY 4.0

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Zitationsweisen

Dahl, M. B., Brachmann, S., Söllinger, A., Schnell, M., Ahlers, L., Wutkowska, M., Hoff, K. J., Nath, N., Groß, V., Wang, H., Weil, M., Piecha, M., Schaffer, M., Jensen, C., Kuss, A. W., Gall, C., Wimmer, E., Pribasnig, T., Tveit, A. T., ... Urich, T. (2025). Quantifying Soil Microbiome Abundance by Metatranscriptomics and Complementary Molecular Techniques-Cross-Validation and Perspectives. Molecular Ecology Resources, 25(7), Artikel e14130. Vorzeitige Online-Publikation. https://doi.org/10.1111/1755-0998.14130

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abstract = "Linking meta-omics and biogeochemistry approaches in soils has remained challenging. This study evaluates the use of an internal RNA extraction standard and its potential for making quantitative estimates of a given microbial community size (biomass) in soil metatranscriptomics. We evaluate commonly used laboratory protocols for RNA processing, metatranscriptomic sequencing and quantitative reverse transcription polymerase chain reaction (qRT-PCR). Metatranscriptomic profiles from soil samples were generated using two library preparation protocols and prepared in triplicates. RNA extracted from pure cultures of Saccharolobus solfataricus was added to the samples as an internal nucleic acid extraction standard (NAEstd). RNA reads originating from NAEstd were identified with a 99.9\% accuracy. A remarkable replication consistency between triplicates was seen (average Bray-Curtis dissimilarity 0.03 ± 0.02), in addition to a clear library preparation bias. Nevertheless, the between-sample pattern was not affected by library type. Estimates of 16S rRNA transcript abundance derived from qRT-PCR experiments, NAEstd and a previously published quantification method of metatranscriptomics (hereafter qMeTra) were compared with microbial biomass carbon (MBC) and nitrogen (MBN) extracts. The derived biomass estimates differed by orders of magnitude. While most estimates were significantly correlated with each other, no correlation was observed between NAEstd and MBC extracts. We discuss how simultaneous changes in community size and the soils nucleic acid retention strength might hamper accurate biomass estimation. Adding NAEstd has the potential to shed important light on nucleic acid retention in the substance matrix (e.g., soil) during extraction.",

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note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). Molecular Ecology Resources published by John Wiley \& Sons Ltd.",

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Dahl, MB, Brachmann, S, Söllinger, A, Schnell, M, Ahlers, L, Wutkowska, M, Hoff, KJ, Nath, N, Groß, V, Wang, H, Weil, M, Piecha, M, Schaffer, M, Jensen, C, Kuss, AW, Gall, C, Wimmer, E, Pribasnig, T, Tveit, AT, Sigurdsson, BD, Schleper, C , Richter, A & Urich, T 2025, 'Quantifying Soil Microbiome Abundance by Metatranscriptomics and Complementary Molecular Techniques-Cross-Validation and Perspectives', Molecular Ecology Resources, Jg. 25, Nr. 7, e14130. https://doi.org/10.1111/1755-0998.14130

TY - JOUR

T1 - Quantifying Soil Microbiome Abundance by Metatranscriptomics and Complementary Molecular Techniques-Cross-Validation and Perspectives

AU - Dahl, Mathilde Borg

AU - Brachmann, Stella

AU - Söllinger, Andrea

AU - Schnell, Marina

AU - Ahlers, Laureen

AU - Wutkowska, Magdalena

AU - Hoff, Katharina J

AU - Nath, Neetika

AU - Groß, Verena

AU - Wang, Haitao

AU - Weil, Micha

AU - Piecha, Marc

AU - Schaffer, Marc

AU - Jensen, Corinna

AU - Kuss, Andreas W

AU - Gall, Christoph

AU - Wimmer, Erika

AU - Pribasnig, Thomas

AU - Tveit, Alexander Tøsdal

AU - Sigurdsson, Bjarni D

AU - Schleper, Christa

AU - Richter, Andreas

AU - Urich, Tim

PY - 2025/6/3

Y1 - 2025/6/3

N2 - Linking meta-omics and biogeochemistry approaches in soils has remained challenging. This study evaluates the use of an internal RNA extraction standard and its potential for making quantitative estimates of a given microbial community size (biomass) in soil metatranscriptomics. We evaluate commonly used laboratory protocols for RNA processing, metatranscriptomic sequencing and quantitative reverse transcription polymerase chain reaction (qRT-PCR). Metatranscriptomic profiles from soil samples were generated using two library preparation protocols and prepared in triplicates. RNA extracted from pure cultures of Saccharolobus solfataricus was added to the samples as an internal nucleic acid extraction standard (NAEstd). RNA reads originating from NAEstd were identified with a 99.9% accuracy. A remarkable replication consistency between triplicates was seen (average Bray-Curtis dissimilarity 0.03 ± 0.02), in addition to a clear library preparation bias. Nevertheless, the between-sample pattern was not affected by library type. Estimates of 16S rRNA transcript abundance derived from qRT-PCR experiments, NAEstd and a previously published quantification method of metatranscriptomics (hereafter qMeTra) were compared with microbial biomass carbon (MBC) and nitrogen (MBN) extracts. The derived biomass estimates differed by orders of magnitude. While most estimates were significantly correlated with each other, no correlation was observed between NAEstd and MBC extracts. We discuss how simultaneous changes in community size and the soils nucleic acid retention strength might hamper accurate biomass estimation. Adding NAEstd has the potential to shed important light on nucleic acid retention in the substance matrix (e.g., soil) during extraction.

AB - Linking meta-omics and biogeochemistry approaches in soils has remained challenging. This study evaluates the use of an internal RNA extraction standard and its potential for making quantitative estimates of a given microbial community size (biomass) in soil metatranscriptomics. We evaluate commonly used laboratory protocols for RNA processing, metatranscriptomic sequencing and quantitative reverse transcription polymerase chain reaction (qRT-PCR). Metatranscriptomic profiles from soil samples were generated using two library preparation protocols and prepared in triplicates. RNA extracted from pure cultures of Saccharolobus solfataricus was added to the samples as an internal nucleic acid extraction standard (NAEstd). RNA reads originating from NAEstd were identified with a 99.9% accuracy. A remarkable replication consistency between triplicates was seen (average Bray-Curtis dissimilarity 0.03 ± 0.02), in addition to a clear library preparation bias. Nevertheless, the between-sample pattern was not affected by library type. Estimates of 16S rRNA transcript abundance derived from qRT-PCR experiments, NAEstd and a previously published quantification method of metatranscriptomics (hereafter qMeTra) were compared with microbial biomass carbon (MBC) and nitrogen (MBN) extracts. The derived biomass estimates differed by orders of magnitude. While most estimates were significantly correlated with each other, no correlation was observed between NAEstd and MBC extracts. We discuss how simultaneous changes in community size and the soils nucleic acid retention strength might hamper accurate biomass estimation. Adding NAEstd has the potential to shed important light on nucleic acid retention in the substance matrix (e.g., soil) during extraction.

KW - quantitative transcriptomics

KW - RNA

KW - metatranscriptomics

KW - biomass estimates

KW - extraction standard

UR - https://www.scopus.com/pages/publications/105007536276

U2 - 10.1111/1755-0998.14130

DO - 10.1111/1755-0998.14130

M3 - Article

C2 - 40459094

SN - 1755-098X

VL - 25

JO - Molecular Ecology Resources

JF - Molecular Ecology Resources

IS - 7

M1 - e14130

ER -

Quantifying Soil Microbiome Abundance by Metatranscriptomics and Complementary Molecular Techniques-Cross-Validation and Perspectives

Abstract

Fördermittel

ÖFOS 2012

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