Publication detail
Novel species identification and deep functional annotation of electrogenic biofilms, selectively enriched in a microbial fuel cell array
Szydlowski, L., Ehlich, J., Szczerbiak, P., Shibata, N., & Goryanin, I.
Original Title
Novel species identification and deep functional annotation of electrogenic biofilms, selectively enriched in a microbial fuel cell array
Type
journal article in Web of Science
Language
English
Original Abstract
In this study, electrogenic microbial communities originating from a single source were multiplied using our custom-made, 96-well-plate-based microbial fuel cell (MFC) array. Developed communities operated under different pH conditions and produced currents up to 19.4 A/m3 (0.6 A/m2) within 2 days of inoculation. Microscopic observations [combined scanning electron microscopy (SEM) and energy dispersive spectroscopy (EDS)] revealed that some species present in the anodic biofilm adsorbed copper on their surface because of the bioleaching of the printed circuit board (PCB), yielding Cu2 + ions up to 600 mg/L. Beta- diversity indicates taxonomic divergence among all communities, but functional clustering is based on reactor pH. Annotated metagenomes showed the high presence of multicopper oxidases and Cu-resistance genes, as well as genes encoding aliphatic and aromatic hydrocarbon-degrading enzymes, corresponding to PCB bioleaching. Metagenome analysis revealed a high abundance of Dietzia spp., previously characterized in MFCs, which did not grow at pH 4. Binning metagenomes allowed us to identify novel species, one belonging to Actinotalea, not yet associated with electrogenicity and enriched only in the pH 7 anode. Furthermore, we identified 854 unique protein-coding genes in Actinotalea that lacked sequence homology with other metagenomes. The function of some genes was predicted with high accuracy through deep functional residue identification (DeepFRI), with several of these genes potentially related to electrogenic capacity. Our results demonstrate the feasibility of using MFC arrays for the enrichment of functional electrogenic microbial consortia and data mining for the comparative analysis of either consortia or their members.
Keywords
microbial fuel cell; metagenome; function prediction; copper; printed circuit board (PCB); bioleaching
Authors
Szydlowski, L., Ehlich, J., Szczerbiak, P., Shibata, N., & Goryanin, I.
Released
14. 9. 2022
Publisher
FRONTIERS MEDIA SA
Location
LAUSANNE
ISBN
1664-302X
Periodical
Frontiers in Microbiology
Year of study
13
Number
14 September 202
State
Swiss Confederation
Pages from
1
Pages to
11
Pages count
11
URL
BibTex
@article{BUT179919,
author="Lukasz {Szydlowski} and Jiří {Ehlich} and Pawel {Szczerbiak} and Noriko {Shibata} and Igor {Goryanin}",
title="Novel species identification and deep functional annotation of electrogenic biofilms, selectively enriched in a microbial fuel cell array",
journal="Frontiers in Microbiology",
year="2022",
volume="13",
number="14 September 202",
pages="1--11",
doi="10.3389/fmicb.2022.951044",
issn="1664-302X",
url="https://www.frontiersin.org/articles/10.3389/fmicb.2022.951044/full"
}