Evaluation of Bacteria and Fungi DNA Abundance in Human Tissues

Gabriela E. de Albuquerque; Bruno S. Moda; Marianna S. Serpa; Gabriela P. Branco; Alexandre Defelicibus; Isabella K.T.M. Takenaka; Maria G. de Amorim; Elizabeth C. Miola; Valquiria C.A. Martins; Katia L. Torres; Stephania M. Bezerra; Laura C.L. Claro; Adriane G. Pelosof; Claudia Z. Sztokfisz; Lais L.S. Abrantes; Felipe J.F. Coimbra; Luiz P. Kowalski; Fábio A. Alves; Stênio C. Zequi; Klas I. Udekwu; Israel T. Silva; Diana N. Nunes; Thais F. Bartelli; Emmanuel Dias-Neto

doi:10.3390/genes13020237

Evaluation of Bacteria and Fungi DNA Abundance in Human Tissues

Gabriela E. de Albuquerque, Bruno S. Moda, Marianna S. Serpa, Gabriela P. Branco, Alexandre Defelicibus, Isabella K.T.M. Takenaka, Maria G. de Amorim, Elizabeth C. Miola, Valquiria C.A. Martins, Katia L. Torres, Stephania M. Bezerra, Laura C.L. Claro, Adriane G. Pelosof, Claudia Z. Sztokfisz, Lais L.S. Abrantes, Felipe J.F. Coimbra, Luiz P. Kowalski, Fábio A. Alves, Stênio C. Zequi, Klas I. UdekwuIsrael T. Silva, Diana N. Nunes, Thais F. Bartelli, Emmanuel Dias-Neto

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

Whereas targeted and shotgun sequencing approaches are both powerful in allowing the study of tissue-associated microbiota, the human: microorganism abundance ratios in tissues of interest will ultimately determine the most suitable sequencing approach. In addition, it is possible that the knowledge of the relative abundance of bacteria and fungi during a treatment course or in pathological conditions can be relevant in many medical conditions. Here, we present a qPCR-targeted approach to determine the absolute and relative amounts of bacteria and fungi and demonstrate their relative DNA abundance in nine different human tissue types for a total of 87 samples. In these tissues, fungi genomes are more abundant in stool and skin samples but have much lower levels in other tissues. Bacteria genomes prevail in stool, skin, oral swabs, saliva, and gastric fluids. These findings were confirmed by shotgun sequencing for stool and gastric fluids. This approach may contribute to a more comprehensive view of the human microbiota in targeted studies for assessing the abundance levels of microorganisms during disease treatment/progression and to indicate the most informative methods for studying microbial composition (shotgun versus targeted sequencing) for various samples types.

Original language	English (US)
Article number	237
Journal	Genes
Volume	13
Issue number	2
DOIs	https://doi.org/10.3390/genes13020237
State	Published - Feb 2022
Externally published	Yes

Keywords

16S
Metagenomics
Microbiome
Mycobiome
QPCR
Shotgun

ASJC Scopus subject areas

Genetics
Genetics(clinical)

Access to Document

10.3390/genes13020237

Cite this

de Albuquerque, G. E., Moda, B. S., Serpa, M. S., Branco, G. P., Defelicibus, A., Takenaka, I. K. T. M., de Amorim, M. G., Miola, E. C., Martins, V. C. A., Torres, K. L., Bezerra, S. M., Claro, L. C. L., Pelosof, A. G., Sztokfisz, C. Z., Abrantes, L. L. S., Coimbra, F. J. F., Kowalski, L. P., Alves, F. A., Zequi, S. C., ... Dias-Neto, E. (2022). Evaluation of Bacteria and Fungi DNA Abundance in Human Tissues. Genes, 13(2), Article 237. https://doi.org/10.3390/genes13020237

de Albuquerque, GE, Moda, BS, Serpa, MS, Branco, GP, Defelicibus, A, Takenaka, IKTM, de Amorim, MG, Miola, EC, Martins, VCA, Torres, KL, Bezerra, SM, Claro, LCL, Pelosof, AG, Sztokfisz, CZ, Abrantes, LLS, Coimbra, FJF, Kowalski, LP, Alves, FA, Zequi, SC, Udekwu, KI, Silva, IT, Nunes, DN, Bartelli, TF & Dias-Neto, E 2022, 'Evaluation of Bacteria and Fungi DNA Abundance in Human Tissues', Genes, vol. 13, no. 2, 237. https://doi.org/10.3390/genes13020237

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title = "Evaluation of Bacteria and Fungi DNA Abundance in Human Tissues",

abstract = "Whereas targeted and shotgun sequencing approaches are both powerful in allowing the study of tissue-associated microbiota, the human: microorganism abundance ratios in tissues of interest will ultimately determine the most suitable sequencing approach. In addition, it is possible that the knowledge of the relative abundance of bacteria and fungi during a treatment course or in pathological conditions can be relevant in many medical conditions. Here, we present a qPCR-targeted approach to determine the absolute and relative amounts of bacteria and fungi and demonstrate their relative DNA abundance in nine different human tissue types for a total of 87 samples. In these tissues, fungi genomes are more abundant in stool and skin samples but have much lower levels in other tissues. Bacteria genomes prevail in stool, skin, oral swabs, saliva, and gastric fluids. These findings were confirmed by shotgun sequencing for stool and gastric fluids. This approach may contribute to a more comprehensive view of the human microbiota in targeted studies for assessing the abundance levels of microorganisms during disease treatment/progression and to indicate the most informative methods for studying microbial composition (shotgun versus targeted sequencing) for various samples types.",

keywords = "16S, Metagenomics, Microbiome, Mycobiome, QPCR, Shotgun",

author = "{de Albuquerque}, {Gabriela E.} and Moda, {Bruno S.} and Serpa, {Marianna S.} and Branco, {Gabriela P.} and Alexandre Defelicibus and Takenaka, {Isabella K.T.M.} and {de Amorim}, {Maria G.} and Miola, {Elizabeth C.} and Martins, {Valquiria C.A.} and Torres, {Katia L.} and Bezerra, {Stephania M.} and Claro, {Laura C.L.} and Pelosof, {Adriane G.} and Sztokfisz, {Claudia Z.} and Abrantes, {Lais L.S.} and Coimbra, {Felipe J.F.} and Kowalski, {Luiz P.} and Alves, {F{\'a}bio A.} and Zequi, {St{\^e}nio C.} and Udekwu, {Klas I.} and Silva, {Israel T.} and Nunes, {Diana N.} and Bartelli, {Thais F.} and Emmanuel Dias-Neto",

note = "Publisher Copyright: {\textcopyright} 2022 by the authors. Licensee MDPI, Basel, Switzerland.",

year = "2022",

month = feb,

doi = "10.3390/genes13020237",

language = "English (US)",

volume = "13",

journal = "Genes",

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AU - de Albuquerque, Gabriela E.

AU - Moda, Bruno S.

AU - Serpa, Marianna S.

AU - Branco, Gabriela P.

AU - Defelicibus, Alexandre

AU - Takenaka, Isabella K.T.M.

AU - de Amorim, Maria G.

AU - Miola, Elizabeth C.

AU - Martins, Valquiria C.A.

AU - Torres, Katia L.

AU - Bezerra, Stephania M.

AU - Claro, Laura C.L.

AU - Pelosof, Adriane G.

AU - Sztokfisz, Claudia Z.

AU - Abrantes, Lais L.S.

AU - Coimbra, Felipe J.F.

AU - Kowalski, Luiz P.

AU - Alves, Fábio A.

AU - Zequi, Stênio C.

AU - Udekwu, Klas I.

AU - Silva, Israel T.

AU - Nunes, Diana N.

AU - Bartelli, Thais F.

AU - Dias-Neto, Emmanuel

PY - 2022/2

Y1 - 2022/2

N2 - Whereas targeted and shotgun sequencing approaches are both powerful in allowing the study of tissue-associated microbiota, the human: microorganism abundance ratios in tissues of interest will ultimately determine the most suitable sequencing approach. In addition, it is possible that the knowledge of the relative abundance of bacteria and fungi during a treatment course or in pathological conditions can be relevant in many medical conditions. Here, we present a qPCR-targeted approach to determine the absolute and relative amounts of bacteria and fungi and demonstrate their relative DNA abundance in nine different human tissue types for a total of 87 samples. In these tissues, fungi genomes are more abundant in stool and skin samples but have much lower levels in other tissues. Bacteria genomes prevail in stool, skin, oral swabs, saliva, and gastric fluids. These findings were confirmed by shotgun sequencing for stool and gastric fluids. This approach may contribute to a more comprehensive view of the human microbiota in targeted studies for assessing the abundance levels of microorganisms during disease treatment/progression and to indicate the most informative methods for studying microbial composition (shotgun versus targeted sequencing) for various samples types.

AB - Whereas targeted and shotgun sequencing approaches are both powerful in allowing the study of tissue-associated microbiota, the human: microorganism abundance ratios in tissues of interest will ultimately determine the most suitable sequencing approach. In addition, it is possible that the knowledge of the relative abundance of bacteria and fungi during a treatment course or in pathological conditions can be relevant in many medical conditions. Here, we present a qPCR-targeted approach to determine the absolute and relative amounts of bacteria and fungi and demonstrate their relative DNA abundance in nine different human tissue types for a total of 87 samples. In these tissues, fungi genomes are more abundant in stool and skin samples but have much lower levels in other tissues. Bacteria genomes prevail in stool, skin, oral swabs, saliva, and gastric fluids. These findings were confirmed by shotgun sequencing for stool and gastric fluids. This approach may contribute to a more comprehensive view of the human microbiota in targeted studies for assessing the abundance levels of microorganisms during disease treatment/progression and to indicate the most informative methods for studying microbial composition (shotgun versus targeted sequencing) for various samples types.

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KW - Metagenomics

KW - Microbiome

KW - Mycobiome

KW - QPCR

KW - Shotgun

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VL - 13

JO - Genes

JF - Genes

IS - 2

M1 - 237

ER -

Evaluation of Bacteria and Fungi DNA Abundance in Human Tissues

Abstract

Keywords

ASJC Scopus subject areas

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