Microfluidics and Metabolomics Reveal Symbiotic Bacterial–Fungal Interactions Between Mortierella elongata and Burkholderia Include Metabolite Exchange

We identified two poplar (Populus sp.)-associated microbes, the fungus, Mortierella elongata strain AG77, and the bacterium, Burkholderia strain BT03, that mutually promote each other’s growth. Using culture assays in concert with a novel microfluidic device to generate time-lapse videos, we found g...

Descripción completa

Detalles Bibliográficos
Autores principales: Uehling, Jessie K., Entler, Matthew R., Meredith, Hannah R., Millet, Larry J., Timm, Collin M., Aufrecht, Jayde A., Bonito, Gregory M., Engle, Nancy L., Labbé, Jessy L., Doktycz, Mitchel J., Retterer, Scott T., Spatafora, Joseph W., Stajich, Jason E., Tschaplinski, Timothy J., Vilgalys, Rytas J.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2019
Materias:
Microbiology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6779839/
https://www.ncbi.nlm.nih.gov/pubmed/31632357
http://dx.doi.org/10.3389/fmicb.2019.02163
_version_ 1783456985238208512
author Uehling, Jessie K.
Entler, Matthew R.
Meredith, Hannah R.
Millet, Larry J.
Timm, Collin M.
Aufrecht, Jayde A.
Bonito, Gregory M.
Engle, Nancy L.
Labbé, Jessy L.
Doktycz, Mitchel J.
Retterer, Scott T.
Spatafora, Joseph W.
Stajich, Jason E.
Tschaplinski, Timothy J.
Vilgalys, Rytas J.
author_facet Uehling, Jessie K.
Entler, Matthew R.
Meredith, Hannah R.
Millet, Larry J.
Timm, Collin M.
Aufrecht, Jayde A.
Bonito, Gregory M.
Engle, Nancy L.
Labbé, Jessy L.
Doktycz, Mitchel J.
Retterer, Scott T.
Spatafora, Joseph W.
Stajich, Jason E.
Tschaplinski, Timothy J.
Vilgalys, Rytas J.
author_sort Uehling, Jessie K.
collection PubMed
description We identified two poplar (Populus sp.)-associated microbes, the fungus, Mortierella elongata strain AG77, and the bacterium, Burkholderia strain BT03, that mutually promote each other’s growth. Using culture assays in concert with a novel microfluidic device to generate time-lapse videos, we found growth specific media differing in pH and pre-conditioned by microbial growth led to increased fungal and bacterial growth rates. Coupling microfluidics and comparative metabolomics data results indicated that observed microbial growth stimulation involves metabolic exchange during two ordered events. The first is an emission of fungal metabolites, including organic acids used or modified by bacteria. A second signal of unknown nature is produced by bacteria which increases fungal growth rates. We find this symbiosis is initiated in part by metabolic exchange involving fungal organic acids.
format Online
Article
Text
id pubmed-6779839
institution National Center for Biotechnology Information
language English
publishDate 2019
publisher Frontiers Media S.A.
record_format MEDLINE/PubMed
spelling pubmed-67798392019-10-18 Microfluidics and Metabolomics Reveal Symbiotic Bacterial–Fungal Interactions Between Mortierella elongata and Burkholderia Include Metabolite Exchange Uehling, Jessie K. Entler, Matthew R. Meredith, Hannah R. Millet, Larry J. Timm, Collin M. Aufrecht, Jayde A. Bonito, Gregory M. Engle, Nancy L. Labbé, Jessy L. Doktycz, Mitchel J. Retterer, Scott T. Spatafora, Joseph W. Stajich, Jason E. Tschaplinski, Timothy J. Vilgalys, Rytas J. Front Microbiol Microbiology We identified two poplar (Populus sp.)-associated microbes, the fungus, Mortierella elongata strain AG77, and the bacterium, Burkholderia strain BT03, that mutually promote each other’s growth. Using culture assays in concert with a novel microfluidic device to generate time-lapse videos, we found growth specific media differing in pH and pre-conditioned by microbial growth led to increased fungal and bacterial growth rates. Coupling microfluidics and comparative metabolomics data results indicated that observed microbial growth stimulation involves metabolic exchange during two ordered events. The first is an emission of fungal metabolites, including organic acids used or modified by bacteria. A second signal of unknown nature is produced by bacteria which increases fungal growth rates. We find this symbiosis is initiated in part by metabolic exchange involving fungal organic acids. Frontiers Media S.A. 2019-10-01 /pmc/articles/PMC6779839/ /pubmed/31632357 http://dx.doi.org/10.3389/fmicb.2019.02163 Text en Copyright © 2019 Uehling, Entler, Meredith, Millet, Timm, Aufrecht, Bonito, Engle, Labbé, Doktycz, Retterer, Spatafora, Stajich, Tschaplinski and Vilgalys. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Microbiology
Uehling, Jessie K.
Entler, Matthew R.
Meredith, Hannah R.
Millet, Larry J.
Timm, Collin M.
Aufrecht, Jayde A.
Bonito, Gregory M.
Engle, Nancy L.
Labbé, Jessy L.
Doktycz, Mitchel J.
Retterer, Scott T.
Spatafora, Joseph W.
Stajich, Jason E.
Tschaplinski, Timothy J.
Vilgalys, Rytas J.
Microfluidics and Metabolomics Reveal Symbiotic Bacterial–Fungal Interactions Between Mortierella elongata and Burkholderia Include Metabolite Exchange
title Microfluidics and Metabolomics Reveal Symbiotic Bacterial–Fungal Interactions Between Mortierella elongata and Burkholderia Include Metabolite Exchange
title_full Microfluidics and Metabolomics Reveal Symbiotic Bacterial–Fungal Interactions Between Mortierella elongata and Burkholderia Include Metabolite Exchange
title_fullStr Microfluidics and Metabolomics Reveal Symbiotic Bacterial–Fungal Interactions Between Mortierella elongata and Burkholderia Include Metabolite Exchange
title_full_unstemmed Microfluidics and Metabolomics Reveal Symbiotic Bacterial–Fungal Interactions Between Mortierella elongata and Burkholderia Include Metabolite Exchange
title_short Microfluidics and Metabolomics Reveal Symbiotic Bacterial–Fungal Interactions Between Mortierella elongata and Burkholderia Include Metabolite Exchange
title_sort microfluidics and metabolomics reveal symbiotic bacterial–fungal interactions between mortierella elongata and burkholderia include metabolite exchange
topic Microbiology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6779839/
https://www.ncbi.nlm.nih.gov/pubmed/31632357
http://dx.doi.org/10.3389/fmicb.2019.02163
work_keys_str_mv AT uehlingjessiek microfluidicsandmetabolomicsrevealsymbioticbacterialfungalinteractionsbetweenmortierellaelongataandburkholderiaincludemetaboliteexchange
AT entlermatthewr microfluidicsandmetabolomicsrevealsymbioticbacterialfungalinteractionsbetweenmortierellaelongataandburkholderiaincludemetaboliteexchange
AT meredithhannahr microfluidicsandmetabolomicsrevealsymbioticbacterialfungalinteractionsbetweenmortierellaelongataandburkholderiaincludemetaboliteexchange
AT milletlarryj microfluidicsandmetabolomicsrevealsymbioticbacterialfungalinteractionsbetweenmortierellaelongataandburkholderiaincludemetaboliteexchange
AT timmcollinm microfluidicsandmetabolomicsrevealsymbioticbacterialfungalinteractionsbetweenmortierellaelongataandburkholderiaincludemetaboliteexchange
AT aufrechtjaydea microfluidicsandmetabolomicsrevealsymbioticbacterialfungalinteractionsbetweenmortierellaelongataandburkholderiaincludemetaboliteexchange
AT bonitogregorym microfluidicsandmetabolomicsrevealsymbioticbacterialfungalinteractionsbetweenmortierellaelongataandburkholderiaincludemetaboliteexchange
AT englenancyl microfluidicsandmetabolomicsrevealsymbioticbacterialfungalinteractionsbetweenmortierellaelongataandburkholderiaincludemetaboliteexchange
AT labbejessyl microfluidicsandmetabolomicsrevealsymbioticbacterialfungalinteractionsbetweenmortierellaelongataandburkholderiaincludemetaboliteexchange
AT doktyczmitchelj microfluidicsandmetabolomicsrevealsymbioticbacterialfungalinteractionsbetweenmortierellaelongataandburkholderiaincludemetaboliteexchange
AT rettererscottt microfluidicsandmetabolomicsrevealsymbioticbacterialfungalinteractionsbetweenmortierellaelongataandburkholderiaincludemetaboliteexchange
AT spataforajosephw microfluidicsandmetabolomicsrevealsymbioticbacterialfungalinteractionsbetweenmortierellaelongataandburkholderiaincludemetaboliteexchange
AT stajichjasone microfluidicsandmetabolomicsrevealsymbioticbacterialfungalinteractionsbetweenmortierellaelongataandburkholderiaincludemetaboliteexchange
AT tschaplinskitimothyj microfluidicsandmetabolomicsrevealsymbioticbacterialfungalinteractionsbetweenmortierellaelongataandburkholderiaincludemetaboliteexchange
AT vilgalysrytasj microfluidicsandmetabolomicsrevealsymbioticbacterialfungalinteractionsbetweenmortierellaelongataandburkholderiaincludemetaboliteexchange

Ejemplares similares