Multidisciplinary


Publications
185

CitationNamesAbstract
Non-syntrophic methanogenic hydrocarbon degradation by an archaeal species Zhou et al. (2022). Nature 601 (7892) Methanoliparum thermophilum Ts
Proteome and strain analysis of cyanobacterium Candidatus “Phormidium alkaliphilum” reveals traits for success in biotechnology Ataeian et al. (2021). iScience 24 (12)
Heme auxotrophy in abundant aquatic microbial lineages Kim et al. (2021). Proceedings of the National Academy of Sciences 118 (47) “Planktophila rubra” “Planktophila aquatilis”
Multiple energy sources and metabolic strategies sustain microbial diversity in Antarctic desert soils Ortiz et al. (2021). Proceedings of the National Academy of Sciences 118 (45) “Ca. Aridivita willemsiae” “Ca. Aridivita” “Ca. Aridivitaceae” Ca. Aridivitales Ca. Aridivitia
Olive fruit fly and its obligate symbiont Candidatus Erwinia dacicola: Two new symbiont haplotypes in the Mediterranean basin Nobre (2021). PLOS ONE 16 (9) Ca. Erwinia dacicola
Disentangling the syntrophic electron transfer mechanisms of Candidatus geobacter eutrophica through electrochemical stimulation and machine learning Yuan et al. (2021). Scientific Reports 11 (1) “Geobacter eutrophicus”
Expanded diversity of Asgard archaea and their relationships with eukaryotes Liu et al. (2021). Nature 593 (7860) “Uabimicrobiales” “Borrarchaeales” “Borrarchaeia” Ca. Wukongarchaeum yapensis “Wukongarchaeum” Ca. Hodarchaeum mangrovi “Hodarchaeum” Ca. Kariarchaeum pelagius “Kariarchaeum” Ca. Borrarchaeum yapensis Ca. Borrarchaeum “Borrarchaeaceae” “Wukongarchaeaceae” Ca. Wukongarchaeales “Wukongarchaeia” “Wukongarchaeota” “Hodarchaeaceae” “Hodarchaeales” “Hodarchaeia” “Hodarchaeota” “Kariarchaeaceae” “Kariarchaeales” “Kariarchaeia” Ca. Kariarchaeota “Baldrarchaeum” Ca. Baldrarchaeum yapensis “Baldrarchaeaceae” “Baldrarchaeales” “Baldrarchaeia” Ca. Baldrarchaeota “Hermodarchaeum” Ca. Hermodarchaeum yapensis “Hermodarchaeaceae” “Hermodarchaeales” “Hermodarchaeia” “Hermodarchaeota”
Multiplex detection of “Candidatus Liberibacter asiaticus” and Spiroplasma citri by qPCR and droplet digital PCR Maheshwari et al. (2021). PLOS ONE 16 (3) Ca. Liberibacter asiaticus
‘Candidatus Phytoplasma asteris’ subgroups display distinct disease progression dynamics during the carrot growing season Clements et al. (2021). PLOS ONE 16 (2) Ca. Phytoplasma asteris
Genetic variation, phylogenetic relationship and spatial distribution of ‘Candidatus Phytoplasma ulmi’ strains in Germany Schneider et al. (2020). Scientific Reports 10 (1) Ca. Phytoplasma ulmi