Yarrowia porcina sp. nov. and Yarrowia bubula f.a. sp. nov., two yeast species from meat and river sediment

Eleven yeast strains representing two hitherto undescribed species were isolated from different kinds of meat samples in Hungary and one from the sediment of a tropical freshwater river in Southeastern Brazil. The analysis of the sequences of their large subunit rRNA gene D1/D2 domain and the internal transcribed spacer (ITS) regions placed the two new species in the Yarrowia clade. Some of the seven strains representing the first new species can mate and give rise to asci and form ascospores embedded in capsular material, which qualifies it as the third teleomorph species of the Yarrowia clade. The name Yarrowia porcina sp. nov. (type strain: NCAIM Y.02100^T = CBS 12935^T = NRRL Y-63669^T, allotype strain UFMG-RD131^A = CBS 12932^A) is proposed for this new yeast species, which, based on physiological characters, is indistinguishable from Yarrowia lipolytica and some other species of the genus. Considerable intraspecific variability was detected among the sequences of the large subunit rRNA gene D1/D2 domains of the seven strains. The variability among the D1/D2 sequences exceeded the divergence observed among the ITS sequences and in some cases more than 1 % substitution among the D1/D2 sequences was detected. The conspecificity of these strains was supported by the low (0–3 substitutions) sequence divergence among their ITS sequences, the result of a parsimony network analysis utilizing the concatenated ITS and D1/D2 sequences and also by the fingerprint patterns generated by microsatellite primed PCR. No ascospore formation was observed in the group of the other five strains representing the second new species. These strains shared identical D1/D2 and ITS sequences. Yarrowia bubula f.a., sp. nov. (type strain: NCAIM Y.01998^T = CBS 12934^T = NRRL Y-63668^T) is proposed to accommodate these strains.     

Yamadazyma siamensis sp. nov., Yamadazyma phyllophila sp. nov. and Yamadazyma paraphyllophila sp. nov., three novel yeast species isolated from phylloplane in Thailand and Taiwan

Four strains representing three novel anamorphic yeast species were isolated from the external surface of sugarcane leaves (DMKU-RK254^T), corn leaves (DMKU-RK548^T), bean leaves (K129) in Thailand and hengchun pencilwood leaves (TrB1-1^T) in Taiwan. On the basis of morphological, biochemical, physiological and chemotaxonomic characteristics, the sequence analysis of the D1/D2 region of the large subunit (LSU) rRNA gene, the internal transcribed spacer (ITS) region, the actin gene (ACT1) and the elongation factor 2 gene (EF2), the four strains were determined to represent novel Yamadazyma species although formation of ascospores was not observed. Strain DMKU-RK254^T was determined to be related to Candida diddensiae, Candida naeodendra and Candida kanchanaburiensis but with 1.8, 1.8 and 2.0 % nucleotide substitutions in the D1/D2 region of the LSU rRNA gene, respectively. It was assigned to Yamadazyma siamensis sp. nov. (type strain DMKU-RK254^T = BCC 50730^T = NBRC 108901^T = CBS 12573^T). The sequences of the D1/D2 region of the LSU rRNA gene, the ITS region, ACT1 gene and EF2 gene of two strains (DMKU-RK548^T and K129) were identical but differed from that of strain TrB1-1^T by 0.6, 1.0, 3.3 and 5.9 % nucleotide substitutions, respectively. Therefore, the two strains (DMKU-RK548^T and K129) and strain TrB1-1^T were assigned to be two separate species. The closest species in terms of pairwise sequences similarity of the D1/D2 region to the two novel species was Yamadazyma philogaea but with 1.1–1.7 % nucleotide substitutions. The two strains (DMKU-RK548^T and K129) were assigned to Yamadazyma phyllophila sp. nov. (type strain DMKU-RK548^T = BCC 50736^T = NBRC 108906^T = CBS 12572^T) and the strain TrB1-1^T was named Yamadazyma paraphyllophila sp. nov. (type strain TrB1-1^T = BCRC 23030^T = CCTCC AY 204005^T = CBS 9928^T).     

Ogataea kanchanaburiensis sp. nov. and Ogataea wangdongensis sp. nov., two novel methylotrophic yeast species from phylloplane in Thailand

Three strains (KM03^T, KM13 ^T and KM15) representing two novel methylotrophic yeast species were isolated from the external surface of plant leaves, which were collected from Kanchanaburi province, Thailand, by three-consecutive enrichments in methanol broth. Strain KM03^T was isolated from phylloplane of a mango tree (Mangifera indica) and two strains, KM13^T and KM15, were obtained from phylloplane of different wine grapes (Vitis vinifera). The sequences of the D1/D2 region of the large subunit (LSU) rRNA gene of the two strains (KM13^T and KM15) were identical and differed markedly from that of strain KM03^T. In terms of pairwise sequence similarity of the D1/D2 region the closest species to the strains KM13^T and KM15 were Candida suzukii (CBS 9253^T) and Candida nitratophila (CBS 2027^T) but with 2.1 % nucleotide substitutions. Strain KM03^T differed from Ogataea wickerhamii (CBS 4307^T), its closest relative, by 2.3 % nucleotide substitutions. Phylogenetic analysis based on the D1/D2 sequences placed the three strains in the Ogataea clade. On the basis of morphological, biochemical, physiological and chemotaxonomic characteristics, the sequence analyses of the D1/D2 and the internal transcribed spacer (ITS) regions of the nuclear ribosomal RNA gene (nrRNA) operon, the three strains represent two novel Ogataea species although formation of ascospores was not observed. Ogataea kanchanaburiensis sp. nov. is proposed for strain KM03^T (=BCC 47626^T = NBRC 108603^T = CBS 12673^T). Two strains, KM13^T and KM15, were assigned to Ogataea wangdongensis sp. nov. (type strain KM13^T = BCC 42664^T = NBRC 107778^T = CBS 12674^T). GenBank/EMBL/DDBJ accession numbers for the sequences of the D1/D2 and the ITS regions of O. kanchanaburiensis KM03^T are AB734090 and AB734093, respectively, of O. wangdongensis KM13^T are AB734091 and AB734094, respectively, and of O. wangdongensis KM15 are AB734092 and AB734095, respectively.     

Candida konsanensis sp. nov., a new yeast species isolated from Jasminum adenophyllum in Thailand with potentially carboxymethyl cellulase-producing capability

A new yeast species (KKU-FW10) belonging to the Candida genus was isolated from Jasminum adenophyllum in the Plant Genetic Conservation Project under The Royal Initiative of Her Royal Highness Princess Maha Chakri Sirindhorn area, Chulabhorn Dam, Konsan district within Chaiyaphum province in Thailand. The strain was identified via analysis of nucleotide sequences from the D1/D2 domain of 26S ribosomal DNA and based on its morphological, physiological and biochemical characteristics. The sequence obtained from yeast isolate KKU-FW10 was 97 percent identical to that of Candida chanthaburiensis (GenBank accession number AB500861.1), with 506/517 (nucleotides identity/total nucleotides) matching nucleotides, nine substitutions and two gaps being detected. This species belonged to the Candida clade. Regarding morphological characteristics, isolate KKU-FW10 presents cream-colored butyrous colonies, vegetative reproduction through budding and, round cells without filaments or ascospores. The major ubiquinone detected was Q-9. The above results suggest that isolate KKU-FW10 is a new member of the genus Candida, and the name Candida konsanensis is proposed for this yeast. The type strain of the new species is KKU-FW10^T (= BCC 52588^T, = NBRC 109082^T, = CBS 12666^T). In addition, this KKU-FW10 could potentially produce 58.24 Units/ml of carboxymethyl cellulase when it was cultured in YP broth containing 1.0 % carboxymethyl cellulose for 24 h.     

Cryptococcus lacticolor sp. nov. and Rhodotorula oligophaga sp. nov., novel yeasts isolated from the nasal smear microbiota of Queensland koalas kept in Japanese zoological parks

A total of 515 yeast strains were isolated from the nasal smears of Queensland koalas and their breeding environments in Japanese zoological parks between 2005 and 2012. The most frequent species in the basidiomycetous yeast biota isolated from koala nasal passages was Cryptococcus neoformans, followed by Rhodotorula minuta. R. minuta was the most frequent species in the breeding environments, while C. neoformans was rare. Seven strains representing two novel yeast species were identified. Analyses of the 26S rDNA (LSU) D1/D2 domain and nuclear ribosomal DNA internal transcribed spacer region sequences indicated that these strains represent new species with close phylogenetic relationships to Cryptococcus and Rhodotorula. A sexual state was not found for either of these two novel yeasts. Key phenotypic characters confirmed that these strains could be placed in Cryptococcus and Rhodotorula. The names Cryptococcus lacticolor sp. nov. (type strain TIMM 10013^T = JCM 15449^T = CBS 10915^T = DSM 21093^T, DDBJ/EMBL/Genbank Accession No.; AB375774 (ITS) and AB375775 (26S rDNA D1/D2 region), MycoBank ID; MB 802688, Fungal Barcoding Database ID; 3174), and Rhodotorula oligophaga sp. nov. (type strain TIMM 10017^T = JCM 18398^T = CBS 12623^T = DSM 25814^T, DDBJ/EMBL/Genbank Accession No.; AB702967 (ITS) and AB702967 (26S rDNA D1/D2 region), MycoBank ID; MB 802689, Fungal Barcoding Database ID; 3175) are proposed for these new species.     

Yamadazyma ubonensis f.a., sp. nov., a novel xylitol-producing yeast species isolated in Thailand

Three hundred and thirty-seven xylose-utilizing yeast strains were isolated from various natural samples. Among these, 68 strains produced xylitol in the range of 0.1–0.69 g xylitol/g xylose. Thirty-nine xylitol-producing strains were identified to be Candida tropicalis. Ten strains were found belonging to 14 known species in the genus Candida, Cyberlindnera, Meyerozyma, Pichia, Wickerhamomyces, Yamadazyma and Cryptococcus. Two strains were identified to be two Candida species and two strains (DMKU-XE142^T and DMKU-XE332) were found to be a novel species. Strain DMKU-XE142^T was isolated from tree bark and DMKU-XE332 was obtained from decaying plant leaf collected in Thailand. On the basis of morphological, biochemical, physiological and chemotaxonomic characteristics and sequence analysis of the D1/D2 region of the large subunit rRNA gene (LSU) and the internal transcribed spacer (ITS) region, the two strains were determined to represent a novel Yamadazyma species although formation of ascospores was not observed. The sequences of the D1/D2 region of the LSU rRNA gene and the ITS region of the two strains were identical but differed from Yamadazyma phyllophila, the closest species in terms of pairwise sequence similarity of the D1/D2 region, by 1.7 % nucleotide substitutions and 3.5 % nucleotide substitutions in the ITS region. The name Yamadazyma ubonensis f.a., sp. nov. is proposed (type strain is DMKU-XE142^T = BCC 61020^T = CBS 12859^T).     

Thioclava atlantica sp. nov., isolated from deep sea sediment of the Atlantic Ocean

A taxonomic study was carried out on strain 13D2W-2^T, which was isolated from a sulphur-oxidizing bacterial consortium, enriched by the deep-sea sediment of the Atlantic Ocean. The isolate was observed to be Gram-negative, oxidase- and catalase-positive, short rod-shaped and motile by means of a flagellum. Growth was observed at salinities from 0.5 to 12 % and at temperatures from 4 to 41 °C, and the strain found to be able to reduce nitrate but not degrade gelatin. Phylogenetic analysis based on 16S rRNA gene sequences indicated that strain 13D2W-2^T belongs to the genus Thioclava, with highest sequence similarity of 97.8 % to Thioclava dalianensis DLFJ1-1^T, followed by Thioclava pacifica TL 2^T (97.7 %), while the sequence similarities to other members of the genus were all below 97.0 %. The digital DNA:DNA hybridization estimated values between strain 13D2W-2^T and, respectively, T. dalianensis DLFJ1-1^T and T. pacifica TL 2^T were 22.6 ± 2.4 and 25.6 ± 2.4 %. The ANI values between strain 13D2W-2^T and T. dalianensis DLFJ1-1^T and T. pacifica TL 2^T were 78.49 and 81.91 % respectively. The principal fatty acid identified was Summed Feature 8 (C_18:1 ω7c/ω6c) (74.38 %). The isoprenoid quinone of strain 13D2W-2^T was identified as Q10 (100 %). The major polar lipids of strain 13D2W-2^T were found to be comprised of phosphatidylethanolamine, phosphatidylglycerol, an aminophospholipid, a glycolipid and three unknown phospholipids. The G+C content of the chromosomal DNA was determined to be 65.3 mol%. The combined genotypic and phenotypic data show that strain 13D2W-2^T represents a novel species of the genus Thioclava, for which the name Thioclava atlantica sp. nov. is proposed, with the type strain 13D2W-2^T ( = MCCC 1A02612^T = LMG 27145^T).     

Roseivivax atlanticus sp. nov., isolated from surface seawater of the Atlantic Ocean

A taxonomic study was carried out on strain 22II-S10s^T, which was isolated from the surface seawater of the Atlantic Ocean. The bacterium was found to be Gram-negative, oxidase and catalase positive, rod shaped and motile by subpolar flagella. The isolate was capable of gelatine hydrolysis but unable to reduce nitrate to nitrite or degrade Tween 80 or aesculin. Growth was observed at salinities of 0.5–18 % (optimum, 2–12 %), at pH of 3–10 (optimum, 7) and at temperatures of 10–41 °C (optimum 28 °C). Phylogenetic analysis based on 16S rRNA gene sequences indicated that strain 22II-S10s^T belongs to the genus Roseivivax, with highest sequence similarity to Roseivivax halodurans JCM 10272^T (97.2 %), followed by Roseivivax isoporae LMG 25204^T (97.0 %); other species of genus Roseivivax shared 95.2–96.7 % sequence similarity. The DNA–DNA hybridization estimate values between strain 22II-S10s^T and the two type strains (R. halodurans JCM 10272^T and R. isoporae LMG 25204^T) were 22.00 and 21.40 %. The principal fatty acids were identified as Summed Feature 8 (C_18:1 ω7c/ω6c) (67.4 %), C_18:0 (7.2 %), C_19:0 cyclo ω8c (7.1 %), C_18:1 ω7c 11-methyl (6.8 %) and C_16:0 (5.9 %). The respiratory quinone was determined to be Q-10 (100 %). Phosphatidylcholine, phosphatidylethanolamine, phosphatidylglycerol, an aminolipid, a glycolipid and three phospholipids were present. The G+C content of the chromosomal DNA was determined to be 67.5 mol%. The combined genotypic and phenotypic data show that strain 22II-S10s^T represents a novel species within the genus Roseivivax, for which the name Roseivivax atlanticus sp. nov. is proposed, with the type strain 22II-S10s^T (= MCCC 1A09150^T = LMG 27156^T).     

Metschnikowia henanensis sp. nov., a new anamorphic yeast species isolated from rotten wood in China

Four yeast strains were isolated from rotting wood samples collected from two sites in the Baotianman Nature Reserve and the Laojieling Nature Reserve in China. DNA sequence comparison and other taxonomic characteristics identified the strains as a single novel species of the genus Metschnikowia. The name Metschnikowia henanensis sp. nov. is proposed to accommodate these highly divergent organisms with the type strain BY-97^T (= CICC 1982^T = CBS 12677^T). The novel species produced chlamydospores, but it did not exhibit ascospore formation in sporulation media for 4 weeks. Molecular phylogeny from the D1/D2 domains of the large subunit (LSU) rRNA gene sequences placed this new species in a basal position to the Metschnikowia viticola/Candida kofuensis/Metschnikowia noctiluminum subclade, and an undescribed Candida species namely strains IMB-EMP4 and IMB-EMP5 was a close sister to M. henanensis.     

Exiguobacterium himgiriensis sp. nov. a novel member of the genus Exiguobacterium, isolated from the Indian Himalayas

The taxonomic position of an orange coloured bacterium, strain K22–26^T isolated from a soil sample was studied using a polyphasic approach. The organism had phenotypic and chemotaxonomic properties consistent with its allocation into the genus Exiguobacterium. Phylogenetic analysis of the 16S rRNA gene sequence showed that strain K22–26^T belongs to the genus Exiguobacterium and was related to Exiguobacterium aurantiacum DSM 6208^T (99.0 %) Exiguobacterium mexicanum DSM 16483^T (98.6 %), Exiguobacterium aquaticum (98.6 %), Exiguobacterium aestuarii DSM 16306^T (98.1 %), Exiguobacterium profundum DSM 17289^T (98.1 %) and Exiguobacterium marinum DSM 16483^T (97.9 %), whereas sequence similarity values with respect to other Exiguobacterium species with validly published names were between 92.5–94.0 %. The major polar lipids detected were phosphatidylglycerol, diphosphatidylglycerol and phosphatidylethanolamine. The major menaquinone was determined to be MK-7 (83 %) whereas MK-8 (11 %) and MK-6 (6 %) occur in smaller amounts. The peptidoglycan of the strain was found to contain l-lysine as the diagnostic diamino acid. The major fatty acids detected were iso C_13:0 (11.2 %), anteiso C_13:0 (15.4 %), iso C_15:0 (13.2 %) and iso C_17:0 (16.1 %). However, analysis of the DNA–DNA relatedness confirmed that strain K22–26^T belongs to a novel species. The G + C content of the strain K22–26^T was determined to be 50.1 mol %. The novel strain was distinguished from closely related type species of the genus Exiguobacterium using DNA–DNA relatedness and phenotypic data. Based on these differences, the strain K22–26^T should be classified as a novel species of the genus Exiguobacterium, for which the name Exiguobacterium himgiriensis sp. nov. strain K22–26^T (= MTCC 7628^T = JCM 14260^T) is proposed.     

<Emphasis Type="SmallCaps">d</Emphasis>-Xylose fermentation,xylitol production and xylanase activities by seven new species of <Emphasis Type="Italic">Sugiyamaella</Emphasis>

Sixteen yeast isolates identified as belonging to the genus Sugiyamaella were studied in relation to D-xylose fermentation, xylitol production, and xylanase activities. The yeasts were recovered from rotting wood and sugarcane bagasse samples in different Brazilian regions. Sequence analyses of the internal transcribed spacer (ITS) region and the D1/D2 domains of large subunit rRNA gene showed that these isolates belong to seven new species. The species are described here as Sugiyamaella ayubii f.a., sp. nov. (UFMG-CM-Y607^T = CBS 14108^T), Sugiyamaella bahiana f.a., sp. nov. (UFMG-CM-Y304^T = CBS 13474^T), Sugiyamaella bonitensis f.a., sp. nov. (UFMG-CM-Y608^T = CBS 14270^T), Sugiyamaella carassensis f.a., sp. nov. (UFMG-CM-Y606^T = CBS 14107^T), Sugiyamaella ligni f.a., sp. nov. (UFMG-CM-Y295^T = CBS 13482^T), Sugiyamaella valenteae f.a., sp. nov. (UFMG-CM-Y609^T = CBS 14109^T) and Sugiyamaella xylolytica f.a., sp. nov. (UFMG-CM-Y348^T = CBS 13493^T). Strains of the described species S. boreocaroliniensis, S. lignohabitans, S. novakii and S. xylanicola, isolated from rotting wood of Brazilian ecosystems, were also compared for traits relevant to xylose metabolism. S. valenteae sp. nov., S. xylolytica sp. nov., S. bahiana sp. nov., S. bonitensis sp. nov., S. boreocarolinensis, S. lignohabitans and S. xylanicola were able to ferment d-xylose to ethanol. Xylitol production was observed for all Sugiyamaella species studied, except for S. ayubii sp. nov. All species studied showed xylanolytic activity, with S. xylanicola, S. lignohabitans and S. valenteae sp. nov. having the highest values. Our results suggest these Sugiyamaella species have good potential for biotechnological applications.     

Nonomuraea shaanxiensis sp. nov., a novel actinomycete isolated from a soil sample

A novel actinomycete, strain NEAU-st1^T, was isolated from a soil sample collected in Shaanxi province, Northwest China and characterized using a polyphasic approach. 16S rRNA gene sequence similarity studies showed that strain NEAU-st1^T belongs to the genus Nonomuraea, being most closely related to Nonomuraea rosea GW12687^T (98.91 %), Nonomuraea solani NEAU-Z6^T (98.44 %), Nonomuraea rhizophila YIM67092^T(98.24 %) and Nonomuraea monospora PT708^T (98.02 %); similarities to sequences of other type strains of the genus Nonomuraea were lower than 98 %. Both tree-making algorithms used also supported the position that strain NEAU-st1^T formed a distinct clade with its most closely related species. Morphological and physiological characteristics confirmed that the strain belongs to the genus Nonomuraea and distinguished it from its most closely related species. DNA–DNA hybridization further differentiated strain NEAU-st1^T from its nearest phylogenetic neighbours. These results suggested that strain NEAU-st1^T represents a novel species of the genus Nonomuraea, for which the name Nonomuraea shaanxiensis sp. nov. is proposed. The type strain is NEAU-st1^T (=CGMCC 4.7096^T = DSM 45877^T).     

Salinicola peritrichatus sp. nov., isolated from deep-sea sediment

A Gram stain-negative, aerobic and rod-shaped bacterium, strain DY22^T, was isolated from a deep-sea sediment collected from the east Pacific Ocean. The isolate was found to grow in the presence of 0–20.0 % (w/v) NaCl and at pH 4.5–8.5; optimum growth was observed with 0.5–2.0 % (w/v) NaCl and at pH 5.0–7.0. Chemotaxonomic analysis showed the presence of ubiquinone-9 as predominant respiratory quinone and C_16:0, C_19:0 ω8c cyclo and C_12:0 3-OH as major cellular fatty acids. The genomic DNA G+C content was determined to be 59.6 mol%. Comparative 16S rRNA gene sequence analysis revealed that the novel isolate belongs to the genus Salinicola. Strain DY22^T exhibited the closest phylogenetic affinity to the type strain of Salinicola salarius with 97.2 % sequence similarity and less than 97 % sequence similarity with respect to other Salinicola species with validly published names. The DNA–DNA reassociation values between strain DY22^T and S. salarius DSM 18044^T was 52 ± 4 %. On the basis of phenotypic, chemotaxonomic and genotypic data, strain DY22^T represents a novel species of the genus Salinicola, for which the name Salinicola peritrichatus sp. nov. (type strain DY22^T = CGMCC 1.12381^T = JCM 18795^T) is proposed.     

Roseomonas musae sp. nov., a new bacterium isolated from a banana phyllosphere

A Gram-negative, coccobacilli, non-spore forming and non-motile bacterium, designated PN1^T, was isolated from a banana leaf collected in Mattra island, Thailand. This isolate was observed to grow optimally at 30 °C and pH 7.0, and to grow with 0–3 % NaCl. Comparative 16S rRNA gene sequence analysis showed that strain PN1^T is closely related to members of the genus Roseomonas, exhibiting the highest 16S rRNA gene sequence similarity to Roseomonas aestuarii JC17^T (96.5 %). The DNA G + C content of strain PN1^T was determined to be 69.7 mol %. Based on physiological and biochemical tests, and genotypic differences between strain PN1^T and the validly named species of the genus Roseomonas, it is proposed that the strain be classified as a new species of Roseomonas for which the name Roseomonas musae sp. nov. is proposed. The type strain is PN1^T (= BCC 44863^T = NBRC 107870^T).     

Kazachstania psychrophila sp. nov., a novel psychrophilic yeast isolated from vacuum-packed beef

Five novel ascosporogenous yeast strains (H382, H396, H409, H433^T and H441) were found through a survey of vacuum-packed beef microbiota. Sequence analysis of ITS domain and LSU rRNA genes showed that the new strains represent a distinct lineage within the genus Kazachstania, closely related to Kazachstania lodderae (97.0 % identity) and Kazachstania ichnusensis (96.1 % identity). The main difference of strains H382, H396, H409, H433^T and H441 to strains of known Kazachstania species is the maximum growth temperature, which is below 20 °C for the new strains, whereas related species grow at 25 °C. Furthermore, the strains differed from known Kazachstania species in assimilation and fermentation patterns of carbon sources. Based on these characteristics, the five strains are considered to represent a novel species of the genus Kazachstania for which the name Kazachstania psychrophila sp. nov. is proposed. The type strain is H433^T (DSM 26230^T=CBS 12689^T). The Mycobank number of the type strain is MB 803980.     

Candida pruni sp. nov. is a new yeast species with antagonistic potential against brown rot of peaches

Brown rot caused by Monilinia spp. is among the most important postharvest diseases of commercially grown stone fruits, and application of antagonistic yeasts to control brown rot is one promising strategy alternative to chemical fungicides. In this research, new yeast strains were isolated and tested for their activity against peach brown rot caused by Monilinia fructicola. Three yeast strains were originally isolated from the surface of plums (cv Chinese Angelino) collected in the north of China. In artificially wounded inoculation tests, the yeast reduced the brown rot incidence to 20 %. The population of the yeast within inoculated wounds on peaches significantly increased at 25 °C from an initial level of 5.0 × 10⁶ to 4.45 × 10⁷ CFU per wound after 1 day. The antagonistic strains were belonging to a new species of the genus Candida by sequence comparisons of 26 S rDNA D1/D2 domain and internal transcribed spacer region. The strains are most closely related to C. asparagi, C. musae and C. fructus on the basis of the phylogenetic trees based on the D1/D2 region of 26S rDNA. However, the strains are notably different from C. asparagi, C. musae and C. fructus, in morphological and physiological characteristics. Therefore, the name Candida pruni is proposed for the novel species, with sp-Quan (=CBS12814^T = KCTC 27526^T = GCMC 6582^T) as the type strain. Our study showed that Candida pruni is a novel yeast species with potential biocontrol against brown rot caused by M. fructicola on peaches.     

Isolation and Characterization of a Marine Cyclohexylacetate-Degrading Bacterium Lutimaribacter litoralis sp. nov., and Reclassification of Oceanicola pacificus as Lutimaribacter pacificus comb. nov.

A novel aerobic, Gram-negative, non-motile, pleomorphic, and rod-shaped bacterium designated KU5D5^T was isolated from seawater that was obtained from the coastal region of the Goto Islands, Japan, on the basis of its ability to utilize cyclohexylacetate as the sole source of carbon and energy. Strain KU5D5^T grew at pH 6.0–8.0 and 10–35 °C in the presence of 1.0–5.0 % (w/v) NaCl. Analysis of the 16S rRNA gene sequence revealed that this strain was affiliated to the family Rhodobacteraceae in the class Alphaproteobacteria and was related most closely to Lutimaribacter saemankumensis (96.6 % similarity) and Oceanicola pacificus (96.6 %). The predominant respiratory lipoquinone was ubiquinone-10 and the major cellular fatty acids were C_18:1 ω7c (66.7 %), C_16:0 (7.7 %), C_12:1 3-OH (6.1 %), and C_17:0 (6.1 %). The DNA G+C content was 58.9 mol %. On the basis of physiological, chemotaxonomic, and phylogenetic data, strain KU5D5^T is suggested to represent a novel species of the genus Lutimaribacter, for which the name Lutimaribacter litoralis sp. nov. is proposed. It is also proposed that O. pacificus should be transferred to the genus Lutimaribacter as Lutimaribacter pacificus comb. nov. The type strain of L. litoralis is KU5D5^T (=JCM 17792^T = KCTC 23660^T) and the type strain of L. pacificus is W11-2B^T (=CCTCC AB 208224^T = LMG 24619^T = MCCC 1A01034^T).     

Marinomonas profundimaris sp. nov., isolated from deep-sea sediment sample of the Arctic Ocean

A taxonomic study was carried out on strain D104^T, which was isolated from deep-sea subsurface sediment sample from the Arctic Ocean. The bacterium was found to be Gram-negative, oxidase negative and catalase weakly positive, rod shaped, motile by means of polar flagellum. The organism grows between 4 and 37 °C (optimum 25–28 °C) and 0.5–6 % NaCl (optimum 3 %). Phylogenetic analysis based on 16S rRNA gene sequences indicated that strain D104^T belongs to the genus Marinomonas, with highest sequence similarities of 97.7 % to Marinomonas ushuaiensis DSM 15871^T, followed by M. dokdonensis DSW10-10^T (96.9 %), M. arenicola KMM 3893^T (96.7 %), M. arctica 328^T (96.6 %) and other 18 species of the genus Marinomonas (94.4–96.5 %). The average nucleotide identity and estimated DNA–DNA hybridization values between strain D104^T and M. ushuaiensis DSM 15871^T were 84.24 % and 20.80 ± 2.33 % respectively. The principal fatty acids were C_16:0, sum in feature 3 (C_16:1 ω7c/C_16:1 ω6c), sum in feature 8 (C_18:1 ω7c/C_18:1 ω6c) and C_12:1 3OH. The G + C content of the chromosomal DNA was determined to be 44.8 mol%. The respiratory quinone was found to be Q8 (100 %). Polar lipids include phosphatidylglycerol and phosphatidylethanolamine as major phospholipids and aminolipid and phospholipid as minor components. The results of the genotypic and phenotypic analyses indicate that strain D104^T represents a novel species of the genus Marinomonas, for which the name Marinomonas profundimaris sp. nov. is proposed, with the type strain D104^T (=MCCC 1A07573^T = LMG 27696^T).     

Marinobacter nanhaiticus sp. nov., polycyclic aromatic hydrocarbon-degrading bacterium isolated from the sediment of the South China Sea

A Gram-negative, rod-shaped, slightly halophilic and facultatively anaerobic bacterium, designated strain D15-8W^T, was isolated from the sediment of the South China Sea. Growth was found to occur optimally at 25 °C, between pH 7.0 and 8.0 and with 1–5 % (w/v) NaCl. The strain was observed to utilize a variety of organic substrates and polycyclic aromatic hydrocarbons as sole carbon sources. The G+C content of the genomic DNA was determined to be 58.7 %. The predominant respiratory quinone was found to be Q-9. The significant fatty acids were determined to be C_16:0, C_16:1 ω9c, C_18:1 ω9c, C_12:0 and C_14:0 3OH. Analysis of 16S rRNA gene sequences showed that strain D15-8W^T fits within the phylogenetic cluster of the genus Marinobacter and is most closely related to Marinobacter segnicrescens CGMCC 1.6489^T, Marinobacter bryozoorum DSM 15401^T, Marinobacter lacisalsi CECT 7297^T and Marinobacter daqiaonensis CGMCC1.9167^T. The DNA–DNA hybridization values between strain D15-8W^T and the type strains of the most closely related species were 42.3 % (CGMCC 1.6489^T), 39.8 % (DSM 15401^T), 37.3 % (CECT 7297^T) and 35.2 % (CGMCC1.9167^T). The results of this polyphasic study indicate that strain D15-8W^T represents a novel species of the genus Marinobacter, for which the name Marinobacter nanhaiticus sp. nov. is proposed. The type strain is D15-8W^T (=CGMCC 1.11019^T=KCTC 23749^T).