Singleton, Caitlin M.


Publications
4

CitationNamesAbstract
Reevaluation of the Phylogenetic Diversity and Global Distribution of the Genus “CandidatusAccumulibacter” Petriglieri et al. (2022). mSystems 7 (3) “Accumulibacter” “Accumulibacter adiacens” “Accumulibacter meliphilus” “Accumulibacter propinquus” “Accumulibacter contiguus” “Accumulibacter vicinus” “Accumulibacter cognatus” “Accumulibacter affinis” “Accumulibacter proximus” “Accumulibacter necessarius” “Accumulibacter iunctus” “Accumulibacter similis” “Accumulibacter conexus” “Propionivibrio dominans” “Accumulibacter adjunctus” “Proximibacter danicus” “Proximibacter”
Low Global Diversity of Candidatus Microthrix, a Troublesome Filamentous Organism in Full-Scale WWTPs Nierychlo et al. (2021). Frontiers in Microbiology 12 “Neomicrothrix” “Neomicrothrix subdominans”
Discovery and ecogenomic context of a global Caldiserica-related phylum active in thawing permafrost, Candidatus Cryosericota phylum nov., Ca. Cryosericia class nov., Ca. Cryosericales ord. nov., Ca. Cryosericaceae fam. nov., comprising the four species Cryosericum septentrionale gen. nov. sp. nov., Ca. C. hinesii sp. nov., Ca. C. odellii sp. nov., Ca. C. terrychapinii sp. nov Martinez et al. (2019). Systematic and Applied Microbiology 42 (1) Ca. Cryosericaceae Ca. Cryosericales Ca. Cryosericia “Cryosericota” Ca. Cryosericum septentrionale “Cryosericum” Ca. Cryosericum hinesii Ca. Cryosericum odellii Ca. Cryosericum terrychapinii
Genome-centric view of carbon processing in thawing permafrost Woodcroft et al. (2018). Nature 560 (7716) “Methanoflorentales” “Acidiflorens” “Changshengia” “Acidiflorens stordalenmirensis” “Methanoflorens crillii” “Methanoflorentaceae”