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273


Nanobdella aerobiophila gen. nov., sp. nov., a thermoacidophilic, obligate ectosymbiotic archaeon, and proposal of Nanobdellaceae fam. nov., Nanobdellales ord. nov. and Nanobdellia class. nov

Citation
Kato et al. (2022). International Journal of Systematic and Evolutionary Microbiology 72 (8)
Names
Nanobdella aerobiophila T Nanobdella Nanobdellaceae Nanobdellales Nanobdellia
Abstract
A co-culture of a novel thermoacidophilic, obligate symbiotic archaeon, designated as strain MJ1T, with its specific host archaeon Metallosphaera sedula strain MJ1HA was obtained from a terrestrial hot spring in Japan. Strain MJ1T grew in the co-culture under aerobic conditions. Coccoid cells of strain MJ1T were 200–500 nm in diameter, and attached to the MJ1HA cells in the co-culture. The ranges and optima o

Parvicella tangerina gen. nov., sp. nov. (Parvicellaceae fam. nov., Flavobacteriales), first cultured representative of the marine clade UBA10066, and Lysobacter luteus sp. nov., from activated sludge of a seawater-processing wastewater treatment plant

Citation
Lucena et al. (2022). International Journal of Systematic and Evolutionary Microbiology 72 (8)
Names
Parvicellaceae
Abstract
Two strains isolated from a sample of activated sludge that was obtained from a seawater-based wastewater treatment plant on the southeastern Mediterranean coast of Spain have been characterized to achieve their taxonomic classification, since preliminary data suggested they could represent novel taxa. Given the uniqueness of this habitat, as this sort of plants are rare in the world and this one used seawater to process an influent containing intermediate products from amoxicillin synthesis, we

Judicial Opinions 112–122

Citation
Arahal et al. (2022). International Journal of Systematic and Evolutionary Microbiology 72 (8)
Names
Polyangiia Terrimicrobiia Endomicrobiia Spirosomataceae
Abstract
Opinion 112 denies the request to place Seliberia Aristovskaya and Parinkina 1963 (Approved Lists 1980) on the list of rejected names because the information provided is insufficient. For the same reason, Opinion 113 denies the request to reject Shewanella irciniae Lee et al. 2006 and Opinion 114 denies the request to reje

Revision of the ‘Candidatus Phytoplasma’ species description guidelines

Citation
Bertaccini et al. (2022). International Journal of Systematic and Evolutionary Microbiology 72 (4)
Names
Ca. Phytoplasma
Abstract
The genus ‘Candidatus Phytoplasma’ was proposed to accommodate cell wall-less bacteria that are molecularly and biochemically incompletely characterized, and colonize plant phloem and insect vector tissues. This provisional classification is highly relevant due to its application in epidemiological and ecological studies, mainly aimed at keeping the severe phytoplasma plant diseases under control worldwide. Given the increasing discovery of molecular diversity within the genus ‘Ca. Phytoplasma’,

CANDIDATUS LIST No. 3. Lists of names of prokaryotic Candidatus taxa

Citation
Oren, Garrity (2022). International Journal of Systematic and Evolutionary Microbiology 72 (1)
Names
Elulimicrobiia “Saccharimonadia” “Ozemibacteria” “Caenarcanales” “Fibrimonadales” “Methanoflorentales” “Ozemibacterales” “Fibrimonadaceae” “Ozemibacteraceae” “Acidiflorens” “Annandiella” “Aramenus” “Arocatia” “Changshengia” “Cibionibacter” “Cuticulibacterium” “Didemniditutus” “Endohaliclona” “Euplotella” “Fibrimonas” “Forterrea” “Ischnodemia” “Neowolbachia” “Nitrobium” “Ozemibacter” “Paracaedimonas” “Parafinniella” “Pleuronema” “Reconciliibacillus” “Roseilinea” “Rubidus” “Stammera” “Theodorhartigia” “Acidiflorens stordalenmirensis” “Anadelfobacter sociabilis” “Anaerococcus massiliensis” “Anaerococcus phoceensis” “Anaerococcus timonensis” “Annandiella adelgistsugae” “Annandiella pinicola” “Aramenus sulfurataquae” “Arocatia carayonii” “Azospirillum massiliense” “Bandiella numerosa” “Desulfofervidia” “Macinerneyibacteriia” “Nanohalobiia” “Nanoperiodontomorbia” “Nanosyncoccia” “Syntrophaliphaticia” “Undinarchaeia” “Bartonella gerbillinarum” “Bartonella khokhlovae” “Bartonella negevensis” “Bartonella rudakovii” “Borrelia africana” “Borrelia ivorensis” “Borrelia fainii” “Brocadia braziliensis” “Cibionibacter quicibialis” “Clostridium massiliense” “Clostridium timonense” “Cuticulibacterium kirbyi” “Cytophaga massiliensis” “Desulfopertinax cowenii” Desulfosporosinus infrequens “Didemniditutus mandelae” “Ehrlichia regneryi” “Ehrlichia shimanensis” “Endohaliclona renieramycinifaciens” “Adiutricales” “Desulfofervidales” “Fermentimicrarchaeales” “Entotheonella gemina” “Euplotella sexta” “Finniella dimorpha” “Fibrimonas termitidis” “Forterrea multitransposorum” “Halobeggiatoa borealis” “Ischnodemia utriculi” “Liberibacter brunswickensis” “Mastigocoleus perforans” “Methanoflorens crillii” “Mycoplasma erythrocervae” “Guanabaribacteriales” “Hakubellales” “Macinerneyibacteriales” “Methylospongiales” “Naiadarchaeales” “Nanogingivalales” “Nanohalobiales” “Tepidaquicellales” “Adiutricaceae” “Aminobacteroidaceae” “Chazhemtonibacteriaceae” “Fermentimicrarchaeaceae” “Hakubellaceae” “Macinerneyibacteriaceae” “Magnetomoraceae” “Nanogingivalaceae” “Nanohalobiaceae” “Tepidaquicellaceae” “Thiobarbaceae” “Undinarchaeaceae” “Abditibacter” “Acidifodinimicrobium” “Aminobacteroides” “Anthektikosiphon” “Vallotia laricis” “Vallotia japonica” “Typhincola belonochilicola” “Treponema suis” “Mycoplasma haematomelis” “Nardonella dryophthoridicola” “Nardonella hylobii” “Neoehrlichia tanzaniensis” “Neowolbachia serbiensis” “Tokpelaia hoelldobleri” “Ozemibacter sibiricus” “Paracaedimonas acanthamoebae” “Parafinniella ignota” “Peptoniphilus massiliensis” “Piscichlamydia cyprini” “Pleuronema perforans” “Pleuronema testarum” “Profftia japonica” “Profftia laricis” “Pseudomonas adelgistsugae” “Reconciliibacillus cellulosivorans” “Rickettsia laoensis” “Rickettsia mahosoti” “Roseilinea gracilis” “Sedimenticola endophacoides” “Spiroplasma holothuriicola” “Stammera capsulata” “Synechococcus calcipolaris” “Theodorhartigia pinicola” “Thiosymbium robbeae” “Weimeria bifida”
Abstract

Taxonomic note on the family Pseudonocardiaceae based on phylogenomic analysis and descriptions of Allosaccharopolyspora gen. nov. and Halosaccharopolyspora gen. nov

Citation
Teo et al. (2021). International Journal of Systematic and Evolutionary Microbiology 71 (10)
Names
Bounagaea Pseudonocardiaceae Amycolatopsis Actinoalloteichus cyanogriseus T Actinoalloteichus Actinoalloteichus caeruleus
Abstract
The taxonomic positions of members within the family Pseudonocardiaceae were assessed based on phylogenomic trees reconstructed using core-proteome and genome blast distance phylogeny approaches. The closely clustered genome sequences from the type strains of validly published names within the family Pseudonocardiaceae wer

The status Candidatus for uncultured taxa of Bacteria and Archaea: SWOT analysis

Citation
Pallen (2021). International Journal of Systematic and Evolutionary Microbiology 71 (9)
Names
Abstract
The status Candidatus was introduced to bacterial taxonomy in the 1990s to accommodate uncultured taxa defined by analyses of DNA sequences. Here I review the strengths, weaknesses, opportunities and threats (SWOT) associated with the status Candidatus in the light of a quarter century of use, twinned with recent developments in bacterial taxonomy and sequence-based taxonomic discovery. Despite ambiguities as to its scope, philosophical objections to its use and practical problems in implementat

‘Candidatus Xiphinematincola pachtaicus' gen. nov., sp. nov., an endosymbiotic bacterium associated with nematode species of the genus Xiphinema (Nematoda, Longidoridae)

Citation
Palomares-Rius et al. (2021). International Journal of Systematic and Evolutionary Microbiology 71 (7)
Names
“Xiphinematincola pachtaicus” Ca. Glomeribacter gigasporarum “Xiphinematincola”
Abstract
An intracellular bacterium, strain IAST, was observed to infect several species of the plant-parasitic nematode genus Xiphinema (Xiphinema astaregiense, Xiphinema incertum, Xiphinema madeirense, Xiphinema pachtaicum, Xiphinema parapachydermum and Xiphinema vallense). The bacterium could not be recovered on axenic medium. The 16S rRNA gene sequence of IAST was found to be new, being related to the family Burkholderiaceae, class Betaproteobacteria. Fungal endosymbionts

Alborzia kermanshahica gen. nov., sp. nov. (Chroococcales, Cyanobacteria), isolated from paddy fields in Iran

Citation
Nowruzi, Soares (2021). International Journal of Systematic and Evolutionary Microbiology 71 (6)
Names
Alborzia kermanshahica T Alborzia
Abstract
In Iran, polyphasic studies of unicellular cyanobacteria are still scarce, with more emphasis being placed on filamentous cyanobacteria in paddy fields and fresh water regions. In an effort to increase the knowledge of the diversity of unicellular cyanobacteria from paddy fields in Iran, we have isolated and characterized a new unicellular cyanobacterium strain. The strain was studied using a polyphasic approach based on morphological, ecological and phylogenetic analyses of the 16S–23S ITS rRNA