<Emphasis Type="Italic">Marinimicrobium haloxylanilyticum</Emphasis> sp. nov., a new moderately halophilic,polysaccharide-degrading bacterium isolated from Great Salt Lake,Utah

A new moderately halophilic, strictly aerobic, Gram-negative bacterium, strain SX15^T, was isolated from hypersaline surface sediment of the southern arm of Great Salt Lake (Utah, USA). The strain grew on a number of carbohydrates and carbohydrate polymers such as xylan, starch, carboxymethyl cellulose and galactomannan. The strain grew at salinities ranging from 2 to 22% NaCl (w/v). Optimal growth occurred in the presence of 7–11% NaCl (w/v) at a temperature of 35°C and a pH of 6.7–8.2. Major whole-cell fatty acids were C16:0 (30.5%), C18:0 (14.8%), C18:1ω7c (13.1%) and C12:0 (7.8%). The G+C content of the DNA was 60 ± 0.5 mol%. By 16S rRNA gene sequence analysis, strain SX15^T was shown to be affiliated to members of the gammaproteobacterial genus Marinimicrobium with pair wise identity values of 92.9–94.6%. The pheno- and genotypic properties suggest that strain SX15^T represents a novel species of the genus Marinimicrobium for which the name Marinimicrobium haloxylanilyticum is proposed. The type strain is SX15^T (= DSM 23100^T = CCUG 59572^T).     

Apparent incompatibility of plasmid pSfrYC4b of <Emphasis Type="Italic">Sinorhizobium fredii</Emphasis> with two different plasmids in another strain

Sinorhizobium fredii YC4B is a spontaneous mutant derivative of strain YC4 that is unable to nodulate soybeans. The second-largest plasmid of strain YC4B, termed pSfrYC4b (810 kb), was transferred to S. fredii HN01SR, a strain which contains three large indigenous plasmids (pSfrHN01a, pSfrHN01b and pSfrHN01c). Surprisingly, two stable indigenous plasmids (pSfrHN01a and pSfrHN01b) of strain HN01SR were cured simultaneously by the introduction of pSfrYC4b. Furthermore, a novel, unstable plasmid (pHY4) became visible in agarose gels. The electrophoretic mobility of plasmid pHY4 was slower than that shown by the cured plasmids, indicating that the molecular weight of the former is higher than that of plasmids pSfrYC4b and pSfrHN01b. Replication gene repC-like sequences were detected by polymerase chain reaction (PCR) on pSfrHN01a and pSfrYC4b, but not on pSfrHN01b. Sau3AI and PstI restriction patterns of the PCR-amplified repC-like sequences from HN01SR and YC4B were very similar.     

Algicidal Effects of a Novel Marine Actinomycete on the Toxic Dinoflagellate <Emphasis Type="Italic">Alexandrium tamarense</Emphasis>

A marine actinomycete strain BS01 with algicidal activity to the toxic dinoflagellate, Alexandrium tamarense, was isolated from Xiamen Bay, China. Sequence analysis of 16S rDNA demonstrates that BS01 is closely related to the genus Brevibacterium of Actinomycetales. BS01 exhibited algicidal activity in an indirect manner. Additional organic nutrients, but not algal-derived dissolved organic matter, were necessary for the synthesis of yet unidentified algicidal compounds (molecular weight less than 100), which were heat tolerant, a stable in acidic or alkali conditions, and exhibited a wide range of algicidal activity. This is the first report of an actinomycete algicide to the toxic dinoflagellate A. tamarense. Our results indicate that BS01 could be a potential bio-agent for controlling harmful algal blooms.     

New exoelectrogen Citrobacter sp. SX-1 isolated from a microbial fuel cell

Aims: Isolation, identification and characterization of a new exoelectrogenic bacterium from a microbial fuel cell (MFC). Methods and Results: Exoelectrogenic bacterial strain SX‐1 was isolated from a mediator‐less MFC by conventional plating techniques with ferric citrate as electron acceptor under anaerobic condition. Phylogenetic analysis of the 16S rDNA sequence revealed that it was related to the members of Citrobacter genus with Citrobacter sp. sdy‐48 being the most closely related species. The bacterial strain SX‐1 produced electricity from citrate, acetate, glucose, sucrose, glycerol and lactose in MFCs with the highest current density of 205 mA m^?2 generated from citrate. Cyclic voltammetry analysis indicated that membrane‐associated proteins may play an important role in facilitating the electrons transferring from bacteria to electrode. Conclusions: This is the first study that demonstrates that Citrobacter species can transfer electrons to extracellular electron acceptors. Citrobacter strain SX‐1 is capable of generating electricity from a wide range of substrates in MFCs. Significance and Impact of the Study: This finding increases the known diversity of power generating exoelectrogens and provided a new strain to explore the mechanisms of extracellular electron transfer from bacteria to electrode. The wide range of substrate utilization by SX‐1 increases the application potential of MFCs in renewable energy generation and waste treatment.     

Analyses of Monascus pigment secretion and cellular morphology in non‐ionic surfactant micelle aqueous solution

Monascus pigments produced by Monascus spp. are widely used as natural food colourants. Extractive fermentation technology can facilitate the secretion of intracellular Monascus pigments into extracellular non‐ionic surfactant micelle aqueous solution, so as to avoid the feedback inhibition and decomposition. In this study, behaviour of the trans‐membrane secretion of Monascus pigments was investigated using morphological and spectroscopic analyses. Laser scanning confocal microscopy (LSCM) traced that pigment secretion occurred through rapid trans‐membrane permeation in 4 min, with a simultaneous conversion in pigment characteristics. Approximately 50% of intracellular pigments (AU₄₇₀) extracted to extracellular broth with 40 g l^?1 Triton X‐100, indicating the capacity for pigment extraction was limited by the saturation concentrations of surfactant. Scanning electron microscope (SEM) and transmission electron microscope (TEM) imaging showed some damage in the cell wall but an intact cell membrane with a slightly increased mycelial diameter. However, the physiological properties of the cell membrane, including integrity, fluorescence intensity and permeability, were altered. A diagram was provided to demonstrate the behaviour of Monascus pigment secretion induced by Triton X‐100. This study lays a foundation for the further investigation of Monascus pigment metabolism and secretion in extractive fermentation.     

<Emphasis Type="Italic">Aquimarina sediminis</Emphasis> sp. nov., isolated from coastal sediment

A strictly aerobic, Gram-stain negative, long rod-shaped, motile by gliding and yellow pigmented bacterium, designated strain w01^T, was isolated from marine sediment. The strain was characterised to determine its taxonomic position by using a polyphasic approach. Strain w01^T was observed to grow optimally in the presence of 3.0% (w/v) NaCl, at 30 °C and to hydrolyse Tweens 20, 40 and 80, starch, casein and alginate. Carotenoid pigments were found to be produced but not flexirubin-type pigments. On the basis of 16S rRNA gene sequence similarities, strain w01^T is phylogenetically affiliated with the genus Aquimarina and is closely related to Aquimarina macrocephali JCM 15542^T (97.4% sequence similarity) and Aquimarina muelleri KCTC 12285^T (97.0%). Lower sequence similarities (<?97.0%) were found with the other currently recognised members of the genus Aquimarina. The predominant fatty acids were identified as iso-C_15:0 (33.7%), C_18:0 3-OH (16.8%) and C_17:1ω7c (10.6%). The polar lipid profile was found to contain phosphatidylethanolamine, an unidentified aminolipid and two unidentified polar lipids. MK-6 was identified as the sole respiratory quinone. The G?+?C content of the genomic DNA was determined to be 33.3 mol%. Strain w01^T can be differentiated genotypically and phenotypically from recognised species of the genus Aquimarina. The isolate is therefore concluded to represent a novel species, for which the name Aquimarina sediminis sp. nov. is proposed, with the type strain w01^T (=?KCTC 62350^T?=?MCCC 1H00287^T).     

<Emphasis Type="Italic">Paenibacillus polymyxa</Emphasis> JB05-01-1 and its perspectives for food conservation and medical applications

The aim of this study was to isolate a novel bacterial strain with strong and broad spectrum antibacterial activity from a livestock feed prebiotic supplement. A novel strain, termed Paenibacillus polymyxa JB05-01-1, was isolated using traditional microbiological methods and identified on the basis of its phenotypic and biochemical properties as well as its 16S rRNA gene sequence. This strain was able to inhibit growth of gram-negative bacteria including Escherichia coli RR1, Pseudomonas fluorescens R73, Pantoea agglomerans BC1, Butyrivibrio fibrisolvens OR85, and Fibrobacter succinogenes. The above antagonism against the aforementioned bacteria was attributed to production of an antimicrobial substance(s) termed “JB05-01-1.” Its production was optimal during the stationary phase. JB05-01-1 has a molecular weight of 2.5 KDa, its mode of action is bactericidal, and the divalent cations, Ca²⁺ and Mn²⁺, reduced its lethality. The antibacterial activity was heat-stable and was effective at a pH range of 2–9. Enzymes like trypsin, α-chymotrypsin, and proteinase K have abolished the antibacterial activity of JB05-01-1 indicating a proteinaceous motif. This type of naturally occurring bacteria and inhibitory substance(s) could represent an additional value in livestock feed supplements. The natural presence of antibacterial activity indicates an opportunity to decrease the addition of antibiotics.     

Immunostimulatory activities of specific bacterial secondary metabolite of Anoxybacillus flavithermus strain SX‐4 on carp,Cyprinus carpio

Aims: To determine the capacity of secondary metabolite of strain SX‐4, to enhance the nonspecific immunity and survival of carp (Cyprinus carpio), and to identify the constituents that are responsible. Methods and Results: A thermophilic strain SX‐4 that is able to produce immunostimulatory metabolite was isolated from sludge sample of hot spring and identified by comparison with 16S rRNA sequences (99% of homology) as Anoxybacillus flavithermus. Bioactivity‐guided fractionation of methanol extract from its cell‐free culture, one bacterial peptide with the capacity of improving the nonspecific immune responses and disease resistance (relative per cent survival = 66·67%) was obtained and the compound was characterized as cyclo‐(L‐Pro‐Gly) by IR, ESI‐MS, ¹H NMR and ¹³C NMR spectroscopic analyses. After intraperitoneal administration of this peptide, selected innate immune parameters including phagocytic activity, superoxide anion production, serum lysozyme activity and serum SOD activity, along with immune‐related genes expression (i.e. interleukin‐1β and inducible nitric oxide synthase), in the blood were found to be significantly increased. Conclusions: The bacterial peptide cyclo‐(L‐Pro‐Gly) significantly enhances nonspecific immunity and survival of carp. Significance and Impact of the Study: There is a possibility of using cyclo‐(L‐Pro‐Gly) as a better natural immunostimulant, which could have a promising role in aquaculture to prevent diseases and disease outbreaks.     

Screening of <i>Bacillus subtilis</i> HAAS01 and Its Biocontrol Effect on <i>Fusarium</i> wilt in Sweet Potato

Fusarium wilt, a disease caused by Fusarium oxysporum f.sp batatas (Fob) is an important disease in sweet potato production. Using endophytic bacteria for biological control of sweet potato diseases is one of the important ways. A Bacillus subtilis with antagonistic effect on Fusarium wilt of sweet potato was isolated from soil by confrontation culture. According to the biological characteristics, 16S rDNA sequence analysis, and physiological and biochemical analysis, the Bacillus subtilis HAAS01 was named. A pot experiment was conducted for the biological control experiment of strain HAAS01, and the endogenous hormone content, antioxidant enzyme activity, soluble protein content, and related gene expressions of sweet potato plants were detected. The results showed that the HAAS01 strain could promote the production of endogenous hormones and resist the infection of plant diseases together with defensive enzymes and upregulation of related gene expressions. In summary, Bacillus subtilis HAAS01 was effective in controlling Fusarium wilt of sweet potato and has potential for application and development.     

Growth kinetics of biopigment production by Thai isolated <Emphasis Type="Italic">Monascus purpureus</Emphasis> in a stirred tank bioreactor

Monascus purpureus is a biopigment-producing fungi whose pigments can be used in many biotechnological and food industries. The growth kinetics of biopigment production were investigated in a liquid fermentation medium in a 5-l stirred tank bioreactor at 30°C, pH 7, for 8 days with 100 rpm agitation and 1.38 × 10⁵ N/m² aeration. Thai Monascus purpureus strains TISTR 3002, 3180, 3090 and 3385 were studied for color production, growth kinetics and productivity. Citrinin as a toxic metabolite was measured from the Monascus fermentation broth. The biopigment productions were detected from fermentation broth by scanning spectra of each strain produced. Results showed a mixture of yellow, orange and red pigments with absorption peaks of pigments occurring at different wavelengths for the four strains. It was found that for each pigment color, the color production from the strains increased in the order TISTR 3002, 3180, 3090, 3385 with 3385 production being approximately 10 times that of 3002. Similar results were found for growth kinetics and productivity. HPLC results showed that citrinin was not produced under the culture conditions of this study. The L*, a* and b* values of the CIELAB color system were also obtained for the yellow, orange and red pigments produced from the TISTR 3002, 3180, 3090 and 3385 strains. The colors of the pigments ranged from burnt umber to deep red.     

Carotenoid production in <Emphasis Type="Italic">Bacillus subtilis</Emphasis> achieved by metabolic engineering

The carotenoid synthetic genes, crtM and crtN, derived from Staphylococcus aureus, were introduced into B. subtilis, resulting in yellow pigmentation. Absorption maxima of pigments and MALDI-TOF mass spectrometry demonstrated that the pigmented strain accumulated two C₃₀ carotenoids, 4,4′-diapolycopene and 4,4′-diaponeurosporene. A survival test using H₂O₂ revealed that the pigmented strain was more resistant to oxidative stress than the strain harboring an empty-vector. These findings indicate that B. subtilis can produce carotenoids, and the strain accumulating the carotenoids, CarotenoBacillus, will become a basal host for production of C₃₀ carotenoids and evaluation of their antioxidative effects.     

Characterization of two Synechococcus sp. PCC7002‐related cyanobacterial strains in relation to 16S rDNA,crtR gene,lipids and pigments

Two Synechococcus strains from the Culture Collection of the Institute for Marine Sciences of Andalusia (Cádiz, Spain), namely Syn01 and Syn02, were found to be closely related to the model strain Synechococcus sp. PCC7002 according to 16S rDNA (99% identity). Pigment and lipid profiles and crtR genes of these strains were ascertained and compared. The sequences of the crtR genes of these strains were constituted by 888 bp, and showed 99% identity between Syn01 and Syn02, and 94% identity of Syn01 and Syn02 to Synechococcus sp. PCC7002. There was coincidence in photosynthetic pigments between the three strains apart from the pigment synechoxanthin, which could be only observed in Synechococcus sp. PCC7002. Species of sulfoquinovosyl‐diacyl‐glycerol (SQDG), phosphatidyl‐glycerol (PG), mono‐ and di‐galactosyl‐diacyl‐glycerol (MGDG and DGDG) were detected by high performance liquid chromatography‐mass spectrometry analysis of lipid extracts. The most abundant species within each lipid class were those containing C18:3 together with C16:0 fatty acyl substituents in the glycerol backbone of the same molecule. From these results it is concluded that these cyanobacterial strains belong to group 2 of the lipid classification of cyanobacteria.     

Cloning and Expression of the Insecticidal Crystal Protein Gene <Emphasis Type="Italic">Cry</Emphasis>1Ca9 of <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis> G10-01A from Taiwan Granaries

A new cry gene (cry1Ca9) was cloned and sequenced from a Bacillus thuringiensis isolate native to Taiwan (G10-01A). The cry1C-type gene, designated cry1Ca9, consisted of an open reading frame of 3,567 bp, encoding a protein of 1,189 amino acid residues. The polypeptide has the deduced amino acid sequences predicting molecular masses of 134.7 kDa. The gene sequence was compared against the GenBank nucleotide sequence data base. It was found that the cry1Ca9 gene coded for a 134.7-kDa protoxin which had greater than 99.8% homology with the previously reported cry1Ca1 gene, as only three mismatches were found between the two amino acid sequences. When the Cry1Ca9 toxin was expressed in a crystal-negative strain of B. thuringiensis (cryB^-), elliptical crystals were produced. Cell extracts from this recombinant strain appear to have high insecticidal activity against lepidopteran larvae (Plutella xylostella).Received: 23 September 2002 / Accepted: 6 December 2002     

Biosynthesis of poly(3-hydroxybutyrate-<Emphasis Type="Italic">co</Emphasis>-3-hydroxyvalerate) copolyesters with a high molar fraction of 3-hydroxyvalerate by an insect-symbiotic <Emphasis Type="Italic">Burkholderia</Emphasis> sp. IS-01

Burkholderia sp. IS-01 capable of biosynthesizing poly(3-hydroxybutyrate-co-3-hydroxyvalerate) [poly(3HB-co-3HV)] copolyesters with a high molar fraction of 3HV was isolated from the gut of the adult longicorn beetle, Moechotypa diphysis. The strain IS-01 was relatively tolerant to high concentrations of levulinic acid and accumulated a poly(13.5 mol% 3HB-co-86.5 mol% 3HV) copolyester when cultivated on a mixture of gluconate (20 g/L) and levulinic acid (12.5 g/L). In this case, the content of the copolyester in the cells was approximately 60.0%. The compositions of the copolyesters were easily regulated by altering the molar ratio of gluconate and levulinic acid in the medium. The organism was found to possess a class I PHA synthase (PhaC) gene (1,881 bp) that encodes a protein with a deduced molecular mass of 68,538 Da that consists of 626 amino acids. The PhaC of this organism was most similar to that of B. cenocepacia PC184 (92% similarity).     

Isolation and characterization of a Pseudomonas sp. strain IITR01 capable of degrading α‐endosulfan and endosulfan sulfate

Aim: To isolate bacteria capable of degrading endosulfan (ES) and the more toxic ES sulfate and to characterize their metabolites. Methods and Results: A Pseudomonas sp. strain IITR01 capable of degrading α‐ES and toxic ES sulfate was isolated using technical‐ES through enrichment culture techniques. No growth and no degradation were observed using β‐ES. Thin‐layer chromatography and gas chromatography‐mass spectrum analysis revealed the disappearance of both α‐ES and ES sulfate and the formation of hydroxylated products ES diol, ether and lactone. We show here for the first time the formation of aforementioned metabolites in contrast to ES hemisulfate yielded by an Arthrobacter sp. Metabolism of α‐ES and endosulfate was also observed using the crude cell extract of IITR01. The molecular mass of protein induced during the degradation of α‐ES and sulfate as substrate was found to be approximately 150 kDa as determined by sodium dodecyl sulfate–polyacrylamide gel electrophoresis (SDS–PAGE). Conclusion: We describe characterization of bacterium capable of degrading α‐ES and ES sulfate but not β‐ES. Genetic investigation suggests that a gene nonhomologous to the reported esd may be present in the strain IITR01. Significance and Impact of the Study: This study describes toxic ES degradation by a Pseudomonas species that may be utilized for the bioremediation of the industrial soils contaminated with ES residues.     

Characterization of Acrylamidase Isolated from a Newly Isolated Acrylamide-Utilizing Bacterium, <Emphasis Type="Italic">Ralstonia eutropha</Emphasis> AUM-01

A mesophilic bacterium capable of utilizing acrylamide was isolated, AUM-01, from soil collected from leaf litter at Picnic Point on the UW-Madison campus. In minimal medium with acrylamide as the sole carbon and nitrogen source, a batch culture of AUM-01 completely converted 28.0 mM acrylamide to acrylic acid in 8 h and reached a cell density of 0.3 (A₆₀₀). Afterward all the acrylic acid was degraded by 20 h with the cell density increasing to 1.9 (A₆₀₀). The acrylamide-utilizing bacterium was identified as Ralstonia eutropha based on morphological observations, the BiOLOG GN2 MicroPlate^TM identification system for Gram-negative bacteria, and additional physiological tests. An acrylamidase that hydrolyzes acrylamide to acrylic acid was purified from the strain AUM-01. The molecular weight of the enzyme from AUM-01 was determined to be 38 kDa by SDS–PAGE. The enzyme had pH and temperature optima of 6.3 and 55°C, and the influence of different metals and amino acids on the ability of the purified protein to transform acrylamide to acrylic acid was evaluated. The enzyme from AUM-01 was totally inhibited by ZnSO₄ and AgNO₃.     

Accumulation of copper in <Emphasis Type="Italic">Trichoderma reesei</Emphasis> transformants,constructed with the modified <Emphasis Type="Italic">Agrobacterium tumefaciens</Emphasis>-mediated transformation technique

A modified Agrobacterium tumefaciens-mediated transformation method was established for the construction of mutants with improved copper tolerance and accumulation capability in Trichoderma reesei. One transformant, AT01, exhibited the highest copper accumulation capability. With copper at 0.7 mM, AT01 removed 13 mg copper/g biomass (removal rate of 96%), whereas the wild-type strain removed only 6 mg copper/g biomass (removal rate of 50%). Optimal conditions were a pH of 5.0 at 28°C. The pigment change of Trichoderma mycelia was a potential indicator of copper accumulation. Electron microscopy revealed that copper was mainly accumulated in cell vacuoles.     

Formation of indigoidine derived-pigments contributes to the adaptation of <Emphasis Type="Italic">Vogesella</Emphasis> sp. strain EB to cold aquatic iron-oxidizing environments

We investigated previously under explored cold aquatic environments of Andean Patagonia, Argentina. Oily sheens similar to an oil spill are frequently observed at the surface of water in creeks and small ponds in these places. Chemical analysis of a water sample revealed the occurrence of high concentrations of iron and the presence of a free insoluble indigoidine-derived pigment. A blue pigment-producing bacterium (strain EB) was isolated from the water sample and identified as Vogesella sp. by molecular analysis. The isolate was able to produce indigoidine and another derived-pigment (here called cryoindigoidine) with strong antifreeze properties. The production of the pigments depended on the cell growth at cold temperatures (below 15 °C), as well as on the attachment of cells to solid surfaces, and iron limitation in the media. The pigments produced by strain EB showed an inhibitory effect on the growth of diverse microorganisms such as Candida albicans, Escherichia coli and Staphylococcus aureus. In addition, pigmented cells were more tolerant to freezing than non-pigmented cells, suggesting a role of cryoindigoidine/indigoidine as a cold-protectant molecule. The possible roles of the pigments in strain EB physiology and its interactions with the iron-rich environment from which the isolate was obtained are discussed. Results of this study suggested an active role of strain EB in the investigated iron-oxidizing ecosystem.     

珊瑚来源真菌Parengyodontium album SCSIO SX7W11中聚酮化合物的发现及其生物合成途径分析

海洋来源真菌的天然产物因其独特的结构与生物学活性而备受关注,而利用基因组信息对其代谢产物进行深入挖掘也成为研究策略之一。[目的] 本文以一株南海珊瑚来源的真菌Parengyodontium album SCSIO SX7W11为目标菌株,挖掘其生产聚酮类化合物的潜能。[方法] 本研究利用Illumina Miseq技术对SX7W11菌株进行全基因组扫描测序,运用生物信息学手段对其基因组的生物合成基因簇进行预测和基因功能注释,挖掘可能产生新颖聚酮化合物的基因簇。对SX7W11进行放大发酵后,利用正相色谱、中压反相色谱、Sephadex LH-20凝胶色谱、HPLC半制备等分离手段分离纯化出单体化合物。再利用高分辨质谱（HR-ESI-MS）、¹H NMR、¹³C NMR、X-ray单晶衍射等波谱手段确定化合物的结构,并根据生物合成基因簇对化合物的生物合成途径进行推导。[结果] 全基因组扫描测序结果显示,P.album SCSIO SX7W11基因组大小为34.0 Mb,含有24个生物合成基因簇,包括6个聚酮合酶基因簇以及3个萜烯合酶基因簇。从发酵产物中分离鉴定到3个聚酮类化合物：emodin（1）、alternaphenol B（2）和sydowinin A（3）,其中化合物3获得了单晶结构数据。通过生物信息学方法从菌株基因组中定位到了sydowinin A的生物合成基因簇。结合文献对emodin（1）、alternaphenol B（2）和sydowinin A（3）的生物合成途径进行了分析。[结论] 本研究通过基因组挖掘及培养基优化,发现1株珊瑚来源的真菌P.album SCSIO SX7W11具有生产sydowinins类聚酮类化合物的能力,为该类化合物生物合成机制深入研究奠定了基础。     

<Emphasis Type="Italic">Rhodotorula taiwanensis</Emphasis> sp. nov., a novel yeast species from a plant in Taiwan

A novel anamorphic yeast strain, A1-01^T, belonging to the genus Rhodotorula was isolated from a plant in Taiwan and analysed morphologically, physiologically and phylogenetically. Neither ballistoconidia nor sexual reproduction was observed. Sequence analysis of the 26S rRNA gene and the ITS region indicate that Rhodosporidium sphaerocarpum is the most closely related species, with 14 and 24 nucleotide substitutions, respectively. The novel species differed physiologically from R. sphaerocarpum in its ability to assimilate ethylamine and cadaverine, its inability to assimilate ethanol and nitrite. From these comparative analyses, the following novel yeast species is proposed: Rhodotorula taiwanensis sp. nov. with the type strain of A1-01^T (BCRC 23118^T = CBS 11729^T).