Inhibition of Protein Synthesis by Antiviral Protein from Yucca recurvifolia Leaves

We analyzed 18S and 26S rRNA partial base sequences [positions 1451–1618 (168 bases) of 18S rRNA and positions 1611–1835 (225 bases) and 493–622 (130 bases) of 26S rRNA] of a total of three strains of Pichia jadinii and Candida utilis. The three strains had identical base sequences with the type strain of P. jadinii (IFO 0987) in the 18S rRNA partial base sequencings. In the 26S rRNA partial base sequencings, there were partial base sequences similar to each other (1–0 base difference and 87–95 percent similarities). The sequence data obtained are discussed taxonomically and phylogenetically, especially in connection with Williopsis saturnus, the type species of the genus Williopsis ZENDER.     

DNA relatedness among saturn-spored yeasts assigned to the generaWilliopsis andPichia

Saturn-spored species assigned to the generaWilliopsis andPichia were compared from extent of nuclear DNA complementarity. Of thePichia spp., four were recognized as distinct taxa:P. dispora, P. saitoi, P. zaruensis andPichia sp. nov. AmongWilliopsis spp., the following were accepted:W. californica, W. mucosa comb. nov.,W. pratensis, W. saturnus var.saturnus, W. saturnus var.mrakii comb. nov.,W. saturnus var.sargentensis comb. nov.,W. saturnus var.subsufficiens comb. nov. andWilliopsis sp. nov. The newPichia andWilliopsis species are described elsewhere. Moderate (36–68%) DNA relatedness was detected between the formerPichia sargentensis and varieties ofW. saturnus again demonstrating that nitrate assimilation is not a reliable criterion for separating yeast species.     

Phylogenetic relationships among species ofWilliopsis andSaturnospora gen. nov. as determined from partial rRNA sequences

Phylogenetic relationships among those yeast species that form saturn-shaped ascospores and which are assigned to the generaWilliopsis andPichia were estimated from their extent of nucleotide sequence divergence in three regions of ribosomal RNA. ThePichia species (P. dispora, P. saitoi, P. zaruensis andP. sp. nov.) are a closely clustered group only distantly related toWilliopsis, and it is proposed that they be reassigned toSaturnospora gen. nov. The extent of divergence amongWilliopsis species (W. californica, W. mucosa, W. pratensis, W. saturnus andW. sp. nov.) is greater than that previously observed within other ascomycetous yeast genera.     

The Phylogeny of Species of the Genus Saccharomycopsis Schiönning (Saccharomycetaceae) Based on the Partial Sequences of 18S and 26S Ribosomal RNAs

Eight strains of Saccharomycopsis species were examined for their partial base sequences of 18S and 26S rRNAs. The base sequences on the fingerprint segment showed three kinds of ACUAU, UCUAU, and AUAU. In the partial base sequences (positions 1451–1618, 168 bases) of 18S rRNA, all the strains of Saccharomycopsis species examined had 1–0 base difference except for the strains of Saccharomycopsis fibuligera (base differences, 5–4). In the partial base sequences on the positions 1611–1835 region (225 bases) of 26S rRNA, however, S’copsis vini had 15–11 base differences. The other species had 7–2 base differences. In the partial base sequences on the positions 493–622 region (130 bases) of 26S rRNA, the calculated percent similarities were 62–77. Discussion was made phylogenetically and taxonomically, especially on the separation of S’copsis fibuligera (≡ Endomyces fibuliger) from the genus Saccharomycopsis.     

The phylogenetic relationships ofEeniella nana Smith,Batenburg-van der Vegte et Scheffers based on the partial sequences of 18S and 26S ribosomal RNAs (Candidaceae)

Summary Two strains ofEeniella nana were examined for their partial base sequences of 18S and 26S rRNAs. In the partial base sequences of 18S rRNA (prositions 1451 through 1618, 168 bases) the strains ofE. nana have five, five, four and eleven base differences with those ofDekkera bruxellensis (type species).D. anomala (andBrettanomyces anomalus),D. naardenensis andD. custersiana, respectively. In the 26S rRNA partial base sequencings (positions 1611 through 1835, 225 bases and positions 493 through 622, 130 bases) the base differences were 46, 43, 34 and 40 and the percent similarities were 53–54, 51–54, 56–57 and 51–53, respectively. The sequence data obtained are discussed phylogenetically and taxonomically, especially on retention of the generic nameEeniella.This paper is dedicated to Professor Herman Jan Phaff in honor of his 50 years of active research which still continues.Significance of the coenzyme Q system in the classification of yeasts and yeast-like organisms. Part LVIII. For part LVII, see ref. [20].     

Phylogenetic Relationships of Species of the Genus Kluyveromyces van der Walt (Saccharomycetaceae) Deduced from the Partial Sequences of 18S and 26S Ribosomal RNAs

In order to clarify the phylogenetic relationships of the species classified in the genus Kluyveromyces (Saccharomycetaceae), three partial base sequences of 18S and 26S rRNAs of eighteen strains were determined. The regions determined of the strains corresponded to positions 1451 through 1618 (168 bases) of 18S rRNA and to positions 1611 through 1835 (225 bases) and 493 through 622 (130 bases) of a strain (IFO 2376) of Saccharomyces cerevisiae. The analyses of the partial base sequences suggested that the genus Kluyveromyces is phylogenetically heterogeneous, ranging from the strains that are quite close to the strain of S. cerevisiae to the strains that are distinct enough to be classified in genera separate from the genus Saccharomyces. From our sequence data, we concluded that the extent of the genus Kluyveromyces should be restricted to only one species, K. polysporus, the type species of the genus. Kluyveromyces phaffii was also distinct enough to deserve another genus. Kluyveromyces cellobiovorus was not close to any of the strains of Kluyveromyces species examined, and should be excluded from the genus. Most of the strains of the species examined were fairly close to the strain of S. cerevisiae.     

The Phylogeny of Acetic Acid Bacteria Based on the Partial Sequences of 16S Ribosomal RNA: The Elevation of the Subgenus Gluconoacetobacter to the Generic Level

Thirty-six strains of acetic acid bacteria classified in the genera Acetobacter, Gluconobacter, and Acidomonas were examined for their partial base sequences in positions 1220 through 1375, 156 bases, of 16S rRNA. The strains of the Q₁₀-equipped Gluconobacter species examined were divided into two subgroups, which included the type strains of Gluconobacter oxydans, the type species of the genus Gluconobacter, and of a second species, Gluconobacter cerinus, respectively. The base differences numbered four between the two type strains. The strains of the Q₉-equipped species examined classified in the type subgenus Acetobacter of the genus Acetobacter were not very distant phylogenetically from those of the genus Gluconobacter. The calculated number of base differences was 9–6 between the type strains of G. oxydans and G. cerinus and the type strains of Acetobacter aceti and Acetobacter pasteurianus. In contrast, the strains of the Q₁₀-equipped species examined classified in the subgenus Gluconoacetobacter of the genus Acetobacter were very distant phylogenetically from those of the Acetobacter and Gluconobacter species mentioned above. The number of base differences was calculated to be 14-8. Furthermore, the strains of the methanol-assimilating, Q₁₀-equipped species of the genus Acidomonas examined were located in phylogenetically isolated positions. The type strain of Acidomonas methanolica (≡ Acetobacter methanolicus), the type species of the genus Acidomonas, had 16–9 base differences. The data obtained here indicated that the members of the subgenus Gluconoacetobacter of the genus Acetobacter can be distinguished at the generic level. The new genus Gluconoacetobacter was proposed with the type species, Gluconoacetobacter liquefaciens, in recognition of the genus Acidomonas along with the genera Acetobacter and Gluconobacter in the classification of the acetic acid bacteria.     

Molecular genetic polymorphism of soil yeasts of the genus <Emphasis Type="Italic">Williopsis</Emphasis> from Taiwan Island

Comparative molecular genetic study of Williopsis yeasts isolated in different world regions reveals some peculiarities of species content in Taiwan. Some Williopsis yeasts may represent novel species. In Taiwan, four of the five known Williopsis species are documented: W. saturnus, W. suaveolens, W. mrakii, and W. subsufficiens. The W. saturnus yeasts predominate in Taiwanese soils, while W. suaveolens is more frequently isolated in Europe.     

Discrimination between the soil yeast speciesWilliopsis saturnus andWilliopsis suaveolens by the polymerase chain reaction with the universal primer N21

Thirty-five yeast strains of the genusWilliopsis, analyzed by the polymerase chain reaction with the universal primer N21, were found to belong to two sibling species,W. saturnus andW. suaveolens. Such affiliation of the strains studied agrees well with the results of genetic and physiological investigations.     

Molecular divergence of the soil yeasts <Emphasis Type="Italic">Williopsis</Emphasis> sensu stricto

Fifty-three strains of Saturn-spored yeasts were analyzed by means of restriction analysis of the amplified fragment of rDNA comprising the 5.8S rRNA gene and the internal transcribed spacers ITS1 and ITS2. The use of endonucleases HaeIII and MspI enabled clear differentiation of yeast species Williopsis mucosa, W. salicorniae, Zygowilliopsis californica, and Komagataea pratensis and the Williopsis sensu stricto complex. The minisatellite primer M13 was proposed for differentiation between sibling species of Williopsis sensu stricto, which have identical restriction profiles. PCR with primer M13 enabled reidentification of a number of collection strains, species identification of Saturn-spored isolates from the Far East, and detection of three strains affiliated to novel taxa. The latter have unique PCR profiles and differ in the nucleotide sequences of ITS1 and ITS2 fragments of rDNA. Possible variations in the results obtained with different molecular methods are discussed.Translated from Mikrobiologiya, Vol. 73, No. 6, 2004, pp. 768–776.Original Russian Text Copyright © 2004 by Naumova, Gazdiev, Naumov.     

Williopsis saturnusand Williopsis beijerinckiiAre Recognized as Distinct Taxa by Means of the Polymerase Chain Reaction with Nonspecific Primers

Fifteen strains of the yeast Williopsissensu stricto were analyzed by means of UP-PCR. With the N21 universal primer, this approach showed that the strains could be clearly divided into two groups corresponding to the species W. saturnus(Klöcker) Zender and W. beijerinckii(van der Walt) Naumov et Vustin. The results obtained are in good agreement with data of genetic and isoenzyme analyses and provide no support for the conspecificity of W. saturnusand W. beijerinckiicommonly accepted in modern yeast taxonomic manuals.     

The Phylogenetic Relationship of the Conidium-forming Anamorphic Yeast Genera Sterigmatomyces,Kurtzmanomyces, Tsuchiyaea and Fellomyces,and the Teleomorphic Yeast Genus Sterigmatosporidium on the Basis of the Partial Sequences of 18S and 26S Ribosomal Ribonucleic Acids

The eleven strains of conidium-forming yeasts classified in the basidiomycetous anamorphic genera Sterigmatomyces, Kurtzmanomyces, Tsuchiyaea and Fellomyces, and the teleomorphic genus Sterigmatosporidium were examined as to the partial sequences of 18S rRNA and 26S rRNA. The positions determined (in Saccharomyces cerevisiae) were 1451 through 1618 of 18S rRNA, and 1618 through 1835 and 470 through 626 of 26S rRNA. The partial sequence determination of positions 470 through 626 of 26S rRNA indicated that T. wingfieldii should be included in the group comprised of Fellomyces and Sterigmatosporidium species. However, the genera Sterigmatomyces, Kurtzmanomyces, Tsuchiyaea and Fellomyces constituted their own separate clusters as to the partial sequences of positions 1451 through 1618 of 18S rRNA and 1618 through 1835 of 26S rRNA. The classification of the conidium-forming yeasts in the four basidiomycetous anamorphic genera mentioned above was proved to be reasonable from the phylogenetic point of view.     

Stenomitos terricola sp. nov. (Leptolyngbyaceae,Cyanobacteria) from the moist soil of Mt. Gwanggyo,Republic of Korea

Stenomitos terricola FBCC-A190 was collected from soils around the trees of Mt. Gwanggyo, located in Yeongtong-gu, Suwon-si, Gyeonggi-do. S. terricola FBCC-A190 is a thin and simple filament with a cell length that is longer than its width. It has a thin and firm sheath, exhibiting a blue-green color. Species belonging to genus Stenomitos is semi-cryptic species with slight morphological differences from each other. They were confirmed as Stenomitos species by analysis using 16S rRNA and 16S–23S ITS. A monophyletic cluster was formed with the previously reported genus Stenomitos, with 16S rRNA gene sequences sharing similarities of 95.9–97.9% except for S. pantisii TAU-MAC 4318. In addition, 16S–23S ITS gene sequencing showed tRNA^Ala, tRNA^Ile and V2, similar to the previously reported genus Stenomitos. From these results, Stenomitos terricola sp. nov. was proposed as a new species belonging to genus Stenomitos.     

Igniting taxonomic curiosity: The amazing story of Amazonocrinis with the description of a new genus Ahomia gen. nov. and novel species of Ahomia,Amazonocrinis, and Dendronalium from the biodiversity-rich northeast region of India

Five cyanobacterial strains exhibiting Nostoc-like morphology were sampled from the biodiversity hotspots of the northeast region of India and characterized using a polyphasic approach. Molecular and phylogenetic analysis using the 16S rRNA gene indicated that the strains belonged to the genera Amazonocrinis and Dendronalium. In the present investigation, the 16S rRNA gene phylogeny clearly demarcated two separate clades of Amazonocrinis. The strain MEG8-PS clustered along with Amazonocrinis nigriterrae CENA67, which is the type strain of the genus. The other three strains ASM11-PS, RAN-4C-PS, and NP-KLS-5A-PS clustered in a different clade that was phylogenetically distinct from the Amazonocrinis sensu stricto clade. Interestingly, while the 16S rRNA gene phylogeny exhibited two separate clusters, the 16S–23S ITS region analysis did not provide strong support for the phylogenetic observation. Subsequent analyses raised questions regarding the resolving power of the 16S–23S ITS region at the genera level and the associated complexities in cyanobacterial taxonomy. Through this study, we describe a novel genus Ahomia to accommodate the members clustering outside the Amazonocrinis sensu stricto clade. In addition, we describe five novel species, Ahomia kamrupensis, Ahomia purpurea, Ahomia soli, Amazonocrinis meghalayensis, and Dendronalium spirale, in accordance with the International Code of Nomenclature for algae, fungi, and plants (ICN). Apart from further enriching the genera Amazonocrinis and Dendronalium, the current study helps to resolve the taxonomic complexities revolving around the genus Amazonocrinis and aims to attract researchers to the continued exploration of the tropical and subtropical cyanobacteria for interesting taxa and lineages.     

The respiratory activities of four Hansenula species

The respiratory activities and the cytochrome spectra from four species belonging to the genus Hansenula have been analysed. The results obtained and described in this paper show that (1) H. glucozyma posseses only the primary, antimycin A-sensitive respiration, (2) H. anomala and H. californica possess primary and secondary (salicylhydroxamate-sensitive) respirations, whereas (3) H. saturnus possesses three respiratory activities (AA-sensitive, SHAM-sensitive, and AA + SHAM-insensitive). The respiratory activity of H. glucozyma is glucose-repressible, whereas the activities of the other species are not. In addition, antimycin A (AA) and erythromycin (ERY) in the culture media differently inhibit the growth of the four species and regulate the respiratory pathways in the species analysed.     

分离自印度洋深海沉积物的部分链霉菌分离株多位点序列分析

【目的】采用多位点序列分析方法,研究印度洋3 000 m以下深海沉积物中分离得到的16S rRNA基因比对高度相似的链霉菌菌株的种间系统发育关系,同时探讨各管家基因及多基因聚类分析后的种间区分能力。【方法】以分离自印度洋深海沉积物的7株Streptomyces albidoflavus,11株Streptomyces cavourensis,16株Streptomyces pratensis为研究对象,以16S rRNA、atpD、recA和rpoB基因片段为标记,通过PCR扩增、测序,获得序列。同时从NCBI上下载5株S.pratensis上述4个基因的序列,将所有序列在MLST网站进行比对,并构建系统进化树进行比较。【结果】S.pratensis各菌株种内比较发现,16S rRNA基因构建的系统进化树中相同基因型的菌株没有聚在一起,系统进化树不稳定,区分度不高。其余3个构建的系统进化树稳定,菌株的聚类关系与MLST数据库得到的基因型一致。同时,多基因聚类分析后将菌株分为6个类群。在3个种的种间多位点序列比较中,除区分度明显增加、进化树更加稳定以外,还发现rec A基因进化上比较特殊的菌株。【结论】多位点序列分析将实验菌株分为很多不同的类型,成功地将所分离的链霉菌进行了更细的分类,同时也找到部分菌株在个别基因上差异较大。此方法可以用于相近种的快速鉴定。     

Methylobacillus rhizosphaerae sp. nov., a novel plant-associated methylotrophic bacterium isolated from rhizosphere of red pepper

A novel plant-associated obligate methylotrophic bacterium, designated strain Ca-68^T, was isolated from the rhizosphere soil of field-grown red pepper from India. The isolates are strictly aerobic, Gram negative, motile rods multiplying by binary fission and formaldehyde is assimilated via the ribulose monophosphate pathway. A comparative 16S rRNA gene sequence-based phylogenetic analysis placed the strain in a clade with the species Methylobacillus flagellatus, Methylobacillus glycogens and Methylobacillus pratensis, with which it showed pairwise similarity of 97.8, 97.4 and 96.2 %, respectively. The major fatty acids are C_16:0, C_10:0 3OH and C_16:1 ω7c. The G+C content of the genomic DNA is 59.7 mol%. The major ubiquinone is Q-8. Dominant phospholipids are phosphatidylethanolamine, phosphatidylglycerol and diphosphatidylglycerol. Based on 16S rRNA gene sequence analysis and DNA–DNA relatedness (14–19 %) with type strains of the genus Methylobacillus, the novel isolate was classified as a new species of this genus and named Methylobacillus rhizosphaerae Ca-68^T (=KCTC 22383^T = NCIMB 14472^T).