Baker, Brett J.


Publications
14

CitationNamesAbstract
Asgard archaea modulate potential methanogenesis substrates in wetland soil Valentin-Alvarado et al. (2024). Nature Communications 15 (1) Freyarchaeum deiterrae Ts Atabeyarchaeum deiterrae Ts Atabeyarchaeia Atabeyarchaeum Freyarchaeum Atabeyarchaeaceae Atabeyarchaeales Freyarchaeaceae Freyarchaeales Freyarchaeia
Description of Asgardarchaeum abyssi gen. nov. spec. nov., a novel species within the class Asgardarchaeia and phylum Asgardarchaeota in accordance with the SeqCode Tamarit et al. (2024). Systematic and Applied Microbiology Asgardarchaeota Asgardarchaeia Asgardarchaeales Asgardarchaeaceae Asgardarchaeum Asgardarchaeum abyssi Ts
Asgard archaea modulate potential methanogenesis substrates in wetland soil Valentin-Alvarado et al. (2023). Atabeyarchaeaceae Atabeyarchaeales Freyarchaeaceae Freyarchaeum deiterrae Ts Atabeyarchaeum Freyarchaeales Freyarchaeum Freyarchaeia Atabeyarchaeum deiterrae Ts Asgardarchaeota Atabeyarchaeia
Phylogenomics and ancestral reconstruction of Korarchaeota reveals genomic adaptation to habitat switching Tahon et al. (2023). “Korarchaeum calidifontum” “Caldabyssikora” “Korarchaeum” “Caldabyssikoraceae” “Caldabyssikora taketomiensis” “Caldabyssikora guaymasensis” “Thermotainarokoraceae” “Thermotainarokora guaymasensis” “Thermotainarokora taketomiensis” “Hydrocaminikoraceae”
Inference and reconstruction of the heimdallarchaeial ancestry of eukaryotes Eme et al. (2023). Nature 618 (7967) Asgardarchaeota
Expansion of Armatimonadota through marine sediment sequencing describes two classes with unique ecological roles Carlton et al. (2023). ISME Communications 3 (1) “Hebobacteraceae” “Hebobacterales” “Hebobacteria” “Zipacnadaceae” “Zipacnadales” “Zipacnadia” “Hebobacterum abditum” “Hebobacterum” “Zipacnadum vermilionense” “Zipacnadum”
New globally distributed bacterial phyla within the FCB superphylum Gong et al. (2022). Nature Communications 13 (1) “Orphanbacterum longqiense” “Joyebacterota” “Arandabacteraceae” “Arandabacterota” “Arandabacterales” “Arandabacteria” “Orphanbacterum” “Arandabacterum bohaiense” “Blakebacterota” “Orphanbacteraceae” “Joyebacterum haimaense” “Blakebacterum guaymasense” “Orphanbacterales” “Joyebacterum” “Blakebacterum” “Orphanbacteria” “Joyebacteraceae” “Blakebacteraceae” “Orphanbacterota” “Joyebacterales” “Blakebacterales” “Arandabacterum” “Joyebacteria” “Blakebacteria”
Asgard archaea capable of anaerobic hydrocarbon cycling Seitz et al. (2019). Nature Communications 10 (1)
Genomic insights into potential interdependencies in microbial hydrocarbon and nutrient cycling in hydrothermal sediments Dombrowski et al. (2017). Microbiome 5 (1) “Stahliibacteriota”
Asgard archaea illuminate the origin of eukaryotic cellular complexity Zaremba-Niedzwiedzka et al. (2017). Nature 541 (7637) Asgardarchaeota “Odinarchaeota”