Vázquez-Campos, Xabier


Publications
2

Metaproteomics reveals methyltransferases implicated in dichloromethane and glycine betaine fermentation by ‘Candidatus Formimonas warabiya’ strain DCMF

Citation
Holland et al. (2022). Frontiers in Microbiology 13
Names
Ca. Formimonas warabiya
Abstract
Dichloromethane (DCM; CH2Cl2) is a widespread pollutant with anthropogenic and natural sources. Anaerobic DCM-dechlorinating bacteria use the Wood–Ljungdahl pathway, yet dechlorination reaction mechanisms remain unclear and the enzyme(s) responsible for carbon-chlorine bond cleavage have not been definitively identified. Of the three bacterial taxa known to carry out anaerobic dechlorination of DCM, ‘Candidatus Formimonas warabiya’ strain DCMF is the only organism that can also ferment non-chlor

Genomic Insights Into the Archaea Inhabiting an Australian Radioactive Legacy Site

Citation
Vázquez-Campos et al. (2021). Frontiers in Microbiology 12
Names
“Nanoarchaeia” Ca. Tiddalikarchaeales Ca. Micrarchaeia “Tiddalikarchaeum” Ca. Norongarragalinales Ca. Micrarchaeales Ca. Norongarragalinaceae Ca. Micrarchaeaceae Ca. Norongarragalina meridionalis Ca. Anstonellales Ca. Norongarragalina Ca. Bilamarchaeaceae Ca. Bilamarchaeum dharawalense Ca. Anstonella Ca. Bilamarchaeum Ca. Burarchaeales Ca. Anstonellaceae Ca. Burarchaeaceae Ca. Anstonella stagnisolia Ca. Burarchaeum australiense Ca. Burarchaeum Ca. Gugararchaeales Ca. Gugararchaeum Ca. Gugararchaeaceae “Gugararchaeum adminiculabundum” Ca. Tiddalikarchaeaceae “Tiddalikarchaeum anstoanum” Ca. Methanoperedenaceae Ca. Methanoperedens Ca. Micrarchaeota
Abstract
During the 1960s, small quantities of radioactive materials were co-disposed with chemical waste at the Little Forest Legacy Site (LFLS, Sydney, Australia). The microbial function and population dynamics in a waste trench during a rainfall event have been previously investigated revealing a broad abundance of candidate and potentially undescribed taxa in this iron-rich, radionuclide-contaminated environment. Applying genome-based metagenomic methods, we recovered 37 refined archaeal MAGs, mainly