Halorubrum halophilum sp. nov., an extremely halophilic archaeon isolated from a salt-fermented seafood

A novel, red-pigmented, pleomorphic and short rod-shaped haloarchaeon, designated B8^T, was isolated from a salt-fermented seafood. Strain B8^T was found to be able to grow at 20–45 °C, in the presence of 15–30 % (w/v) NaCl and at pH 7.0–9.0. The optimum requirements were found to be a temperature range of 35–40 °C, pH 8.0 and the presence of 25 % NaCl. The cells of strain B8^T were observed to be Gram-staining negative and lysed in distilled water. Anaerobic growth did not occur in the presence of nitrate, l-arginine, dimethyl sulfoxide or trimethylamine N-oxide. The catalase and oxidase activities were found to be positive and nitrate was reduced in aerobic conditions. Tween 20, 40 and 80 were found to be hydrolyzed, whereas casein, gelatin and starch were not hydrolyzed. Indole or H₂S was not formed and urease activity was not detected. A phylogenetic analysis based on the 16S rRNA gene sequences indicated that strain B8^T is most closely related to members of the genus Halorubrum in the family Halobacteriaceae. Strain B8^T was found to have three 16S rRNA genes, rrnA, rrnB and rrnC; similarities between the 16S rRNA gene sequences are 99.0–99.8 %. Strain B8^T shared 99.0 % 16S rRNA gene sequence similarity with Halorubrum (Hrr.) lipolyticum JCM 13559^T and Hrr. saccharovorum DSM 1137^T, 98.8 % with Hrr. kocurii JCM 14978^T, 98.3 % with Hrr. lacusprofundi DSM 5036^T, 98.0 % with Hrr. arcis JCM 13916^T, 97.7 % with Hrr. aidingense JCM 13560^T and 97.0 % with Hrr. aquaticum JCM 14031^T, as well as 93.7–96.5 % with other type strains in the genus Halorubrum. The RNA polymerase subunit B′ gene sequence similarity of strain B8^T with Hrr. kocurii JCM 14978^T is 97.2 % and lower with other members of the genus Halorubrum. DNA–DNA hybridization experiments showed that strain B8^T shared equal or lower than 50 % relatedness with reference species in the genus Halorubrum. The genomic DNA G+C content of strain B8^T was determined to be 64.6 mol%. The major isoprenoid quinone of strain B8^T was identified as menaquinone-8 and the major polar lipids as phosphatidylglycerol, phosphatidylglycerol phosphate methyl ester, phosphatidylglycerol sulfate, sulfated mannosyl glucosyl diether and an unidentified phospholipid. Based on this polyphasic taxonomic study, strain B8^T is considered to represent a new species in the genus Halorubrum, for which the name Hrr. halophilum sp. nov. is proposed. The type strain is B8^T (=JCM 18963^T = CECT 8278^T).     

Oceanobacillus halophilum sp. nov. Isolated from a Mangrove Forest Soil

A halophilic, aerobic bacterium, designated GD01^T, was isolated from a mangrove forest soil near the South China Sea. Cells of strain GD01^T were Gram staining positive, oxidase positive, and catalase positive. The strain was rod shaped and motile by means of peritrichous flagella and produced ellipsoidal endospores. The strain was able to grow with NaCl at concentrations of 0.5–12 % (optimum 3–5 %, w/v), at temperatures of 20–50 °C (optimum 30 °C), and at pH 6.0–8.5 (optimum pH 7.0). Phylogenetic analysis based on 16S rRNA gene sequences showed that strain GD01^T formed a cluster with O. profundus DSM 18246^T (96.4 % 16S rRNA gene sequence similarity), O. caeni KCTC 13061^T (95.4 %), and O. oncorhynchi JCM 12661^T (94.5 %). The G+C content of strain GD01^T was 38.7 mol%. The major respiratory quinone was MK-7. The major cellular fatty acids (>5 %) were anteiso-C_15:0, iso-C_16:0 (13.7 %), anteiso-C_17:0 (12.6 %), iso-C_15:0 (9.9 %), iso-C_14:0 (9.5 %), and C_16:0 (5.0 %). The polar lipids consisted of diphosphatidylglycerol, phosphatidylglycerol, glycolipid, four unknown lipids, and four unknown phospholipids. Based on phenotypic characteristics, chemotaxonomic features, and phylogenetic analysis based on 16S rRNA gene sequences, the strain was identified to represent a distinct novel species in the genus Oceanobacillus, and the name proposed is Oceanobacillus halophilum sp. nov. with type train GD01^T (=CCTCC AB 2012863^T = KCTC 33101^T).     

Natronorubrum texcoconense sp. nov., a haloalkaliphilic archaeon isolated from soil of the former lake Texcoco (Mexico)

A new haloalkaliphilic archaeon, strain B4^T, was isolated from the former lake Texcoco in Mexico. The cells were Gram-negative, pleomorphic-shaped, pink to red pigmented and aerobic. Strain B4^T required at least 2.5 M NaCl for growth, with optimum growth at 3.4 M NaCl. It was able to grow over a pH range of 7.5–10.0 and temperature of 25–50 °C, with optimal growth at pH 9 and 37 °C. Cells are lysed in hypotonic treatment with less than 1.3 M NaCl. The major polar lipids of strain B4^T were phosphatidylglycerol and methyl-phosphatidylglycerophosphate. Phospholipids were detected, but not glycolipids. The nucleotide sequence of the 16S rRNA gene revealed that the strain B4^T was phylogenetically related to members of the genus Natronorubrum. Sequence similarity with Natronorubrum tibetense was 96.28 %, with Natronorubrum sulfidifaciens 95.06 % and Natronorubrum sediminis 94.98 %. The G+C content of the DNA was 63.3 mol%. The name of Natronorubrum texcoconense sp. nov. is proposed. The type strain is B4^T (=CECT 8067^T = JCM 17497^T).     

Halobellus rarus sp. nov., a halophilic archaeon from an inland salt lake of China

Two halophilic archaeal strains, YC21^T and YC77, were isolated from an inland salt lake of China. Both have pleomorphic rod-shaped cells that lyse in distilled water, stain Gram-negative and form red-pigmented colonies. They are neutrophilic, require at least 2.1 M NaCl for growth under the optimum growth temperature of 37 °C. The major polar lipids of the two strains were phosphatidylglycerol (PG), phosphatidylglycerol phosphate methyl ester (PGP-Me), phosphatidylglycerol sulfate (PGS), two major glycolipids (GL1 and GL2) chromatographically identical to sulfated mannosyl glucosyl diether (S-DGD-1) and mannosyl glucosyl diether (DGD-1), respectively. Trace amounts of two unidentified lipids (GL0-1 and GL0-2) were also detected. The 16S rRNA gene sequences of the two strains are 99.9 % identical, show 94.0–98.9 % similarity to the closest relative members of Halobellus of the family Halobacteriaceae. The rpoB′ gene similarity between strains YC21^T and YC77 is 99.8 % and show 90.3–95.3 % similarity to the closest relative members of Halobellus. The DNA G+C content of strains YC21^T and YC77 were 66.1 and 66.2 mol%, respectively. The DNA–DNA hybridization value between strain YC20^T and strain YC77 was 89 %, and the two strains showed low DNA–DNA relatedness with Halobellus limi TBN53^T, the most related member of Halobellus. The phenotypic, chemotaxonomic and phylogenetic properties suggest that strains YC21^T and YC77 represent a novel species of the genus Halobellus, for which the name Halobellus rarus sp. nov. is proposed. The type strain is YC21^T (=CGMCC 1.12121^T = JCM 18362^T).     

Halomonas borealis sp. nov. and Halomonas niordiana sp. nov., two new species isolated from seawater

Two Gram-negative strains obtained from tank water in a scallop hatchery in Norway, were phenotypically and genotypically characterized in order to clarify their taxonomic position. On the basis of 16S rRNA gene sequence analysis, these isolates, ATF 5.2^T and ATF 5.4^T, were included in the genus Halomonas, being their closest relatives H. smyrnensis and H. taeanensis, with similarities of 98.9% and 97.7%, respectively. Sequence analysis of the housekeeping genes atpA, ftsZ, gyrA, gyrB, mreB, rpoB, rpoD, rpoE, rpoH, rpoN and rpoS clearly differentiated the isolates from the currently described Halomonas species, and the phylogenetic analysis using concatenated sequences of these genes located them in two robust and independent branches. DNA–DNA hybridization (eDDH) percentage, together with average nucleotide identity (ANI), were calculated using the complete genome sequences of the strains, and demonstrate that the isolates constitute two new species of Halomonas, for which the names of Halomonas borealis sp. nov. and Halomonas niordiana sp. nov. are proposed, with type strains ATF 5.2^T (=CECT 9780^T = LMG 31367^T) and ATF 5.4^T (=CECT 9779^T = LMG 31227^T), respectively.     

Halolamina rubra sp. nov., a haloarchaeon isolated from non-purified solar salt

Two Gram-stain negative, rod-shaped and motile extreme halophiles, designated CBA1107^T and CBA1108, were isolated from non-purified solar salt. Based on the phylogenetic analysis, strains CBA1107^T and CBA1108 were shown to belong to the genus Halolamina, with similarities for the 16S rRNA gene sequences between strains CBA1107^T and Halolamina pelagica TBN21^T , Halolamina salina WSY15-H3^T and Halolamina salifodinae WSY15-H1^T of 98.3, 97.6 and 97.3 %, respectively; the similarities for the rpoB′ gene sequences between the same strains were 96.0, 95.3 and 94.6 %, respectively. The colonies of both strains were observed to be red pigmented on growth medium. Strain CBA1107^T was observed to grow at 20–50 °C, in the presence of 15–30 % NaCl, at pH 6.0–9.0, and with 0.005–0.5 M Mg²⁺. The cells of both strains lysed in distilled water. The DNA–DNA hybridization experiments showed that strain CBA1107^T shared 97 % relatedness with CBA1108 and <50 % relatedness with H. pelagica JCM 16809^T, H. salina JCM 18549^T and H. salifodinae JCM 18548^T. The genomic DNA G+C content of strain CBA1107^T was determined to be 65.1 mol%. The major polar lipids of the two strains were phosphatidylglycerol, phosphatidylglycerol phosphate methyl ester, phosphatidylglycerol sulfate and glycolipids including sulfated mannosyl glucosyl diether and mannosyl glucosyl diether. Based on the polyphasic taxonomic analyses, the strains are considered to represent a new taxon for which the name Halolamina rubra sp. nov. is proposed, with the type strain CBA1107^T (=CECT 8421^T =JCM 19436^T).     

Halogranum salarium sp. nov., a halophilic archaeon isolated from sea salt

Three halophilic archaea, strains B-1^T, B-3 and B-4, were isolated from evaporitic salt crystals from Namhae, Korea. Cells of the strains were Gram-stain-negative, motile and pleomorphic, and colonies were red-pigmented. The three isolates had identical 16S rRNA gene sequences and formed a tight phylogenetic clade with Halogranum rubrum RO2-11^T in the genus Halogranum, showing 99.5% sequence similarity. The next most closely related species were Halogranum amylolyticum and Halogranum gelatinilyticum (97.4 and 96.3% similarity to the respective type strains). The phylogeny based on the full-length RNA polymerase subunit B′ gene (rpoB′) was in agreement with the 16S rRNA gene sequence analysis, but allowed better discrimination. DNA-DNA hybridization between a representative strain (B-1^T) and the type strains of Hgn. rubrum, Hgn. amylolyticum and Hgn. gelatinilyticum revealed less than 40% relatedness. Polar lipid analysis showed that the three isolates contained phosphatidylglycerol, phosphatidylglycerol phosphate methyl ester and three glycolipids. Combined genotypic and phenotypic data supported the conclusion that strains B-1^T, B-3 and B-4 represent a novel species of the genus Halogranum, for which the name Halogranum salarium sp. nov. is proposed. The type strain is B-1^T (=KCTC 4066^T = DSM 23171^T).     

Halomonas qiaohouensis sp. nov., isolated from salt mine soil in southwest China

Two Gram-stain negative, moderately halophilic, aerobic, motile bacteria, designated strains YIM QH88^T and YIM QH103, were isolated from the Qiaohou salt mine in Yunnan, southwest China. Cells of the strains were observed to be rod-shaped and produce creamy-coloured colonies. Growth of the two strains was observed at 10–45 °C (optimum 25–37 °C), at pH 6.0–10.0 (optimum 7.0–8.0), and in the presence of 0.5–20 % (w/v) NaCl (optimum 2–6 %). The two strains were found to contain summed feature 8 (C18:1 ω7c/ω6c), C19:0 cyclo ω8c and C16:0 as the major cellular fatty acids. The polar lipids were identified as diphosphatidylglycerol, phosphatidylglycerol, phosphatidylethanolamine and unknown phospholipid. The G+C content of the genomic DNA of strains YIM QH88^T and YIM QH103 were determined to be 64.6 and 64.2 mol%, respectively, and the predominant respiratory quinone detected was ubiquinone 9. Phylogenetic analyses based on 16S rRNA gene sequences indicated that strains YIM QH88^T and YIM QH103 formed a distinct lineage within the genus Halomonas and were most closely related to Halomonas pantelleriensis DSM 9661^T with 97.3 and 97.5 % of 16S rRNA sequence similarity respectively. The DNA–DNA hybridization relatedness value for strains YIM QH88^T and YIM QH103 was 95.2 ± 0.8 %. The levels of DNA–DNA relatedness between each of these two strains and the type strains of phylogenetically closely related Halomonas species were clearly below 70 %. On the basis of their phylogenetic analysis, DNA–DNA hybridization relatedness, phenotypic and chemotaxonomic characteristics, strains YIM QH88^T and YIM QH103 should be classified as a novel species of the genus Halomonas, for which the name Halomonas qiaohouensis sp. nov. is proposed. The type strain is YIM QH88^T (=DSM 26770^T =CCTCC AB 2012965^T).     

Halomonas socia sp. nov., isolated from high salt culture of Dunaliella salina

A moderately halophilic bacteria designed strain NY-011^T was isolated from the high salt culture of Dunaliella salina in Chengdu of Sichuan Province, China. The isolate was Gram-negative, nonmotile, rod-shaped and 12.5–21.6 μm in length. Colonies on solid media are circular, wet, smooth and cream. The strain grew optimally at 37 °C, pH 7.0 and in the presence of 8 % NaCl. Acid was produced from glycerol, d-arabinose, glucose, trehalose, inositol, mannose, mannitol, sucrose, maltose and sorbitol. Catalase is produced but not oxidase. The major fatty acids are C18: 1ω7c (37.59 %), C19: 0 cyclo ω8c (18.29 %), C16: 0 (16.05 %) and C6: 0 (12.43 %). The predominant respiratory lipoquinone found in strain NY-011^T is ubiquinone with nine isoprene units (Q-9). The genomic DNA G + C content of strain NY-011^T was 62.7 mol%. Phylogenetic analysis based on 16S rRNA gene sequences revealed that strain NY-011^T belonged to the genus Halomonas. The highest levels of 16S rRNA gene sequence similarity were found between the strain NY-011^T and H. pantelleriensis (sequence similarity 98.43 %). However, the levels of DNA–DNA relatedness between them were only 23.1 %. In addition, the strain NY-011^T had a phenotypic profile that readily distinguished it from H. pantelleriensis. The strain NY-011^T therefore represents a new species of the genus Halomonas, for which the name Halomonas socia sp. nov. is proposed, with NY-011^T (=CCTCC AB 2011033^T = KCTC 23671^T) as the type strain.     

Haloplanus rubicundus sp. nov., an extremely halophilic archaeon isolated from solar salt

Two extremely halophilic archaea strains, CBA1112^T and CBA1113, were isolated from solar salt in Korea. The genome sizes and G + C content of CBA1112^T and CBA1113 were 3.77 and 3.53 Mb, and 66.0 and 66.5 mol%, respectively. Phylogenetic analysis based on closely related taxa and environmental Haloplanus sequences indicated that both CBA1112^T and CBA1113 strains are grouped within the genus Haloplanus. OrthoANI and in silico DNA–DNA hybridization values were below the species delineation threshold. Pan-genomic analysis showed that the two novel strains and four reference strains had 6203 pan-orthologous groups in total. Six Haloplanus strains shared 1728 core pan-genome orthologous groups, which were mainly associated with amino acid transport and metabolism and translation, ribosomal structure and biogenesis categories, and amino acid metabolism and carbohydrate metabolism related categories. The novel strain-specific pan-genome orthologous groups were mainly involved with replication, recombination and repair category and replication and repair pathway or amino acid metabolism pathway. Cells of both strains were Gram-negative and pleomorphic, and colonies were red-pigmented. The major polar lipids of both strains were phosphatidylglycerol, phosphatidylglycerol phosphate methyl ester, phosphatidylglycerol sulfate, and one glycolipid, sulfated mannosyl glucosyl diether. Based on genomic, phylogenetic, phenotypic, and chemotaxonomic features, strains CBA1112^T and CBA1113 are described as novel species of the genus Haloplanus. Thus, we propose the name Haloplanus rubicundus sp. nov. The type strain is CBA1112^T (=KCCM 43224^T = JCM 30475^T).     

Mesorhizobium ventifaucium sp. nov. and Mesorhizobium escarrei sp. nov., two novel root-nodulating species isolated from Anthyllis vulneraria

Ten mesorhizobial strains isolated from root-nodules of Anthyllis vulneraria by trapping using soils from southern France were studied to resolve their taxonomy. Their 16S rDNA sequences were identical and indicated that they are affiliated to the genus Mesorhizobium within the group M. prunaredense/M. delmotii/M. temperatum/M. mediterraneum/M. wenxiniae and M. robiniae as the closest defined species. Their evolutionary relationships with validated species were further characterized by multilocus sequence analysis (MLSA) using 4 protein-coding housekeeping genes (recA, atpD, glnII and dnaK), that divides the strains in two groups, and suggest that they belong to two distinct species. These results were well-supported by MALDI-TOF mass spectrometry analyses, wet-lab DNA-DNA hybridization (≤58%), and genome-based species delineation methods (ANI < 96%, in silico DDH < 70%), confirming their affiliation to two novel species. Based on these differences, Mesorhizobium ventifaucium (STM4922^T = LMG 29643^T = CFBP 8438^T) and Mesorhizobium escarrei (type strain STM5069^T = LMG 29642^T = CFBP 8439^T) are proposed as names for these two novel species. The phylogeny of nodulation genes nodC and nodA allocated the type strains into symbiovar anthyllidis as well as those of M. metallidurans STM2683^T, M. delmotii STM4623^T and M. prunaredense STM4891^T, all recovered from the same legume species.     

Natronolimnobius baerhuensis gen. nov., sp. nov. and Natronolimnobius innermongolicus sp. nov., novel haloalkaliphilic archaea isolated from soda lakes in Inner Mongolia, China

Three novel isolates of haloalkaliphilic archaea, strains IHC-005^T, IHC-010, and N-1311^T, from soda lakes in Inner Mongolia, China, were characterized to elucidate their taxonomic positions. The three strains were aerobic, Gram-negative chemoorganotrophs growing optimally at 37–45°C, pH 9.0–9.5, and 15–20% NaCl. Cells of strains IHC-005^T/IHC-010 were motile rods, while those of strain N-1311^T were non-motile pleomorphic flats or cocci. The three strains contained diphytanyl and phytanyl-sesterterpanyl diether derivatives of phosphatidylglycerol and phosphatidylglycerophosphate methyl ester. No glycolipids were detected. On phylogenetic analysis of 16S rRNA gene sequences, they formed an independent cluster in the Natro group of the family Halobacteriaceae. Comparison of their morphological, physiological, and biochemical properties, DNA G+C content and 16S rRNA gene sequences, and DNA-DNA hybridization study support the view that strains IHC-005^T/IHC-010 and strain N-1311^T represent separate species. Therefore, we propose Natronolimnobius baerhuensis gen. nov., sp. nov. for strains IHC-005^T (=CGMCC 1.3597^T =JCM 12253^T)/IHC-010 (=CGMCC 1.3598=JCM 12254) and Natronolimnobius innermongolicus sp. nov. for N-1311^T (=CGMCC 1.2124^T =JCM 12255^T).     

Bartonella choladocola sp. nov. and Bartonella apihabitans sp. nov., two novel species isolated from honey bee gut

Bartonella is one of the noncore bacterial genera in the honey bee (Apis mellifera) gut. So far, only one species, Bartonella apis, has been described from the honey bee gut. Previous analyses based on the genomic information of isolates and metagenome-assembled genomes suggested the existence of multiple Bartonella species in the bee guts. Here, 10 strains were isolated and characterized from the gut of A. mellifera from Jilin Province, China. New isolates shared ＞95% 16S rRNA gene sequence similarity with other species of the genus Bartonella. Phylogenetic analysis revealed that new isolates clustered with other type strains of Bartonella, and the bee gut Bartonella could be classified into three clades. The in silico DDH and average nucleotide identity values between strains of different clusters from the honey bee gut are 29.1–32.5% and 87.6–89.3%, all below the recommended 70.0% and 95% cutoff points. Cells are Gram-staining-negative rods and can grow on the surface of Brain Heart Infusion agar plates supplemented with defibrinated sheep blood in an aerobic environment with 5% CO₂ at 35–37 °C. Strains from different species varied in both phenotypic and chemotaxonomic characterizations. Comparative genomic analysis indicated that B. choladocola had unique sets of genes encoding invasin, representing the potential for this species to both live as a gut symbiont and also as an erythrocytic pathogen. Thus, we propose two novel species Bartonella choladocola sp. nov. whose type strain is W8125^T(=JCM 35030^T = ACCC 62057^T), and Bartonella apihabitans sp. nov. whose type strain is W8097^T(=JCM 35029^T = ACCC 62056^T).     

Flavobacterium circumlabens sp. nov. and Flavobacterium cupreum sp. nov., two psychrotrophic species isolated from Antarctic environmental samples

A taxonomic study of 24 Gram-stain-negative rod-shaped bacteria originating from the Antarctic environment is described. Phylogenetic analysis using 16S rRNA gene sequencing differentiated isolated strains into two groups belonging to the genus Flavobacterium. Group I (n = 20) was closest to Flavobacterium aquidurense WB 1.1-56^T (98.3% 16S rRNA gene sequence similarity) while group II (n = 4) showed Flavobacterium hydatis DSM 2063^T as its nearest neighbour (98.5–98.9% 16S rRNA gene sequence similarity). Despite high 16S rRNA gene sequence similarity, these two groups represented two distinct novel species as shown by phenotypic traits and low genomic relatedness assessed by rep-PCR fingerprinting, DNA-DNA hybridization and whole-genome sequencing. Common to representative strains of both groups were the presence of major menaquinone MK-6 and sym-homospermidine as the major polyamine. Common major fatty acids were C_15:0 iso, C_15:1 iso G, C_15:0 iso 3-OH, C_17:0 iso 3OH and Summed Feature 3 (C_16:1 ω7c/C_16:1 ω6c). Strain CCM 8828^T (group I) contained phosphatidylethanolamine, three unidentified lipids lacking a functional group, three unidentified aminolipids and single unidentified glycolipid in the polar lipid profile. Strain CCM 8825^T (group II) contained phosphatidylethanolamine, eight unidentified lipids lacking a functional group, three unidentified aminolipids and two unidentified glycolipids in the polar lipid profile. These characteristics corresponded to characteristics of the genus Flavobacterium. The obtained results showed that the analysed strains represent novel species of the genus Flavobacterium, for which the names Flavobacterium circumlabens sp. nov. (type strain CCM 8828^T = P5626^T = LMG 30617^T) and Flavobacterium cupreum sp. nov. (type strain CCM 8825^T = P2683^T = LMG 30614^T) are proposed.