Rinke, Christian


Publications
16

CitationNamesAbstract
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
Machine learning and metagenomics identifies uncharacterized taxa inferred to drive biogeochemical cycles in a subtropical hypereutrophic estuary Prabhu et al. (2024). ISME Communications 4 (1) “Hypereutrophica” “Hypereutrophica brisbanensis” Salinivivens Nitrosopumilus brisbanensis Eutrophomonas brisbanensis Ts Salinivivens marinus Ts Eutrophovita Eutrophosalina Eutrophomonas Salsuginivita brisbanensis Ts Eutrophobiales Eutrophovitaceae Eutrophocola Eutrophocola salsuginis Ts Eutrophobiaceae Eutrophobius Eutrophobius brisbanensis Ts Eutrophomonadaceae Eutrophovita brisbanensis Ts Salivitaceae Salivita Salivita marina Ts Salsuginivita Eutrophosalina marina Ts Marisalimonadaceae Marisalimonas Australimonadales Australimonadaceae Australimonas brisbanensis Ts Marisalimonas marina Ts Australimonas
Proposal of names for 329 higher rank taxa defined in the Genome Taxonomy Database under two prokaryotic codes Chuvochina et al. (2023). FEMS Microbiology Letters Methyloligellaceae Rhodomicrobiaceae Leptospiria Alicyclobacillia Natranaerobiia Jeotgalibacillaceae Brevinematia Amphibacillaceae Chitinimonas Chitinimonadaceae Marinicellaceae Ahniellaceae Pseudohongiellaceae Methanoculleaceae Methanofollaceae Methanosphaerulaceae Methanocellia Methanosarcinia Methanonatronarchaeia Methanoliparia Halobacteriota Exiguobacteriales Exiguobacteriaceae Salinicoccaceae Staphylococcales Gemellaceae Thermicanales Thermicanaceae Neiellaceae Oceanococcaceae Wohlfahrtiimonadaceae Thermaerobacteria Thermaerobacterales Thermaerobacteraceae Sedimentibacteraceae Proteiniboraceae Monoglobaceae Monoglobales Lutisporaceae Lutisporales Lachnospirales Christensenellales Caldicoprobacterales Caldicellulosiruptoraceae Caldicellulosiruptorales Oxobacteraceae Caloramatoraceae Acetivibrionaceae Acetivibrio Acetivibrionales Clostridiisalibacter Clostridiisalibacteraceae Caldisalinibacter Dethiosulfatibacteraceae Thermincolales Thermincolia Carboxydocellales Carboxydocellaceae Tindalliaceae Thermotaleaceae Natronincolaceae Filifactoraceae Caminicellaceae Anaerovoracaceae Peptostreptococcales Acidaminobacteraceae Mahellales Mahellaceae Thermosulfidibacterota Thermosulfidibacteria Thermosulfidibacterales Thermosulfidibacteraceae Elainellaceae Elainellales Phormidesmidaceae Phormidesmidales Hydrogenothermales Desulfurobacteriia “Paceibacteria” Vampirovibrionaceae Vampirovibrionales Vampirovibrionia Binataceae Binatales Binatia Hydrothermia Hydrothermales Hydrothermaceae Azobacteroidaceae Bipolaricaulales Bipolaricaulaceae Bipolaricaulia Hepatobacteraceae Hepatoplasmataceae Johnevansiaceae Johnevansiales Kapaibacteriaceae Kapaibacteriales Magnetobacteriaceae Methylomirabilaceae Methylomirabilales Methylomirabilia Muiribacteriaceae Muiribacteriales Muiribacteriia Nucleicultricaceae Obscuribacteraceae Promineifilaceae Promineifilales Pseudothioglobaceae Puniceispirillaceae Puniceispirillales Saccharimonadaceae Saccharimonadales Tenderiaceae Tenderiales Thermobaculaceae Thermobaculales Desulforudaceae Methylomirabilota Cloacimonadia Cloacimonadales Cloacimonadaceae Kapaibacteriia “Poriferisulfidales” Leptolyngbyaceae
Recoding of stop codons expands the metabolic potential of two novel Asgardarchaeota lineages Sun et al. (2021). ISME Communications 1 (1) Ca. Borrarchaeum weybense “Jordiarchaeum” “Jordiarchaeum madagascariense” “Sifarchaeaceae” “Jordiarchaeaceae” “Sifarchaeales” “Jordiarchaeales” “Sifarchaeia” “Jordiarchaeia” “Borrarchaeaceae” Ca. Borrarchaeum “Sifarchaeum” Ca. Sifarchaeum marinoarchaea Ca. Sifarchaeum subterraneus “Sifarchaeota”
A standardized archaeal taxonomy for the Genome Taxonomy Database Rinke et al. (2021). Nature Microbiology 6 (7) Asgardarchaeota Halobacteria Archaeoglobi “Parvarchaeales” “Parvarchaeum” “Parvarchaeaceae” Hadarchaeaceae Hadarchaeales Hadarchaeia Hydrothermarchaeaceae Hydrothermarchaeales Hydrothermarchaeia Hadarchaeota
Undinarchaeota illuminate DPANN phylogeny and the impact of gene transfer on archaeal evolution Dombrowski et al. (2020). Nature Communications 11 (1) “Undinarchaeia” “Undinarchaeota” “Naiadarchaeales” “Undinarchaeales” “Naiadarchaeaceae” “Undinarchaeaceae” “Undinarchaeum marinum”
A phylogenomic and ecological analysis of the globally abundant Marine Group II archaea (Ca. Poseidoniales ord. nov.) Rinke et al. (2019). The ISME Journal 13 (3) Poseidoniia Thalassarchaeum betae Ts Thalassarchaeum Poseidoniaceae Poseidonia Poseidonia alphae Ts Thalassarchaeaceae Poseidoniales Ca. Poseidonaceae “Nanohalarchaeota” “Poseidoniota”
The importance of designating type material for uncultured taxa Chuvochina et al. (2019). Systematic and Applied Microbiology 42 (1) Binatus soli Ts Binatus Binataceae Binatales Binatia Hydrothermus pacificus Ts Hydrothermus Hydrothermarchaeum profundi Ts Hydrothermarchaeum Hadarchaeum yellowstonense Ts Hadarchaeum Hadarchaeales Hydrothermarchaeaceae Hydrothermarchaeales Hydrothermarchaeia “Hydrothermarchaeota” Hadarchaeia Hadarchaeaceae Hadarchaeota
A standardized bacterial taxonomy based on genome phylogeny substantially revises the tree of life Parks et al. (2018). Nature Biotechnology 36 (10)
Addendum: Comparative Genomic Analysis of the Class Epsilonproteobacteria and Proposed Reclassification to Epsilonbacteraeota (phyl. nov.) Waite et al. (2018). Frontiers in Microbiology 9 Campylobacterota