General Chemistry


Publications
57

CitationNamesAbstract
Thousands of microbial genomes shed light on interconnected biogeochemical processes in an aquifer system Anantharaman et al. (2016). Nature Communications 7 (1) “Kerfeldiibacteriota” “Komeiliibacteriota” “Lindowiibacteriota” “Liptoniibacteriota” “Lloydiibacteriota” “Margulisiibacteriota” “Nealsoniibacteriota” “Niyogiibacteriota” “Portnoyibacteriota” “Raymondiibacteriota” “Ryaniibacteriota” “Schekmaniibacteriota” “Spechtiibacteriota” “Staskawicziibacteriota” “Sungiibacteriota” “Tagaibacteriota” “Tayloriibacteriota” “Terryibacteriota” “Vebleniibacteriota” “Yonathiibacteriota” “Zambryskiibacteriota” “Rifleibacteriota” “Ozemibacteria”
Enhanced biological phosphate removal from wastewater and clade-level population dynamics of “Candidatus Accumulibacter phosphatis” under free nitrous acid inhibition: Linked with detoxication Zeng et al. (2016). Chemical Engineering Journal 296 “Accumulibacter phosphatis”
Expression of the nirS, hzsA, and hdh Genes in Response to Nitrite Shock and Recovery in Candidatus Kuenenia stuttgartiensis Wang et al. (2016). Environmental Science & Technology 50 (13) “Kuenenia stuttgartensis”
Influence of nitrite accumulation on “Candidatus Accumulibacter” population structure and enhanced biological phosphorus removal from municipal wastewater Zeng et al. (2016). Chemosphere 144 “Accumulibacter”
Global metagenomic survey reveals a new bacterial candidate phylum in geothermal springs Eloe-Fadrosh et al. (2016). Nature Communications 7 (1) “Kryptoniota” Kryptonium thompsonii Ts Kryptonium “Chryseopegocella kryptomonas”
Biology of a widespread uncultivated archaeon that contributes to carbon fixation in the subsurface Probst et al. (2014). Nature Communications 5 (1) “Altiarchaeum” “Altiarchaeum hamiconexum” “Altiarchaeales”
C2/C3 fatty acid stress on anammox consortia dominated by Candidatus Jettenia asiatica Huang et al. (2014). Chemical Engineering Journal 253 Ca. Jettenia asiatica
Genome Reconstruction and Gene Expression of “Candidatus Accumulibacter phosphatis” Clade IB Performing Biological Phosphorus Removal Mao et al. (2014). Environmental Science & Technology 48 (17) “Accumulibacter phosphatis”
Metabolite Signature of Candidatus Liberibacter asiaticus Infection in Two Citrus Varieties Chin et al. (2014). Journal of Agricultural and Food Chemistry 62 (28) Ca. Liberibacter asiaticus
Discovery of a novel methanogen prevalent in thawing permafrost Mondav et al. (2014). Nature Communications 5 (1) “Methanoflorentales” “Methanoflorens crillii” “Methanoflorens”