Maudy Th. Smith

Phylogeny of the yeast genera Hanseniaspora (Anamorph Kloeckera), Dekkera (anamorph Brettanomyces), and Eeniella as inferred from partial 26S ribosomal DNA nucleotide sequences

Partial 26S ribosomal DNA sequences of species assigned to the genera Hanseniaspora, Kloeckera, Dekkera, Brettanomyces, and Eeniella were determined. A phylogenetic analysis of the sequences showed that the genus Eeniella is derived within the genus Brettanomyces and that the genus Hanseniaspora (anamorph Kloeckera) is not closely related to the genus Dekkera (anamorph Brettanomyces). As a consequence, the name Eeniella is reduced to synonymy with the name Brettanomyces. In addition, our data do not support reassignment of certain Hanseniaspora species to the recently revived genus Kloeckeraspora.

Systematics of Hanseniaspora Zikes and Kloeckera Janke

The physiological and morphological characteristics of eighty-two strains of Hanseniaspora and Kloeckera, representing twenty-nine described species, were examined. These results along with DNA base composition and DNA/DNA reassociation experiments revealed that the genus Hanseniaspora comprises six distinct species, viz. H. valbyensis, H. uvarum, H. guilliermondii, H. occidentalis, H. osmophila and H. vineae, with K. japonica, K. apiculata, K. apis, K. javanica, K. corticis and K. africana, respectively, as their imperfect states.

Genome comparisons in the yeastlike fungal genus Galactomyces Redhead et Malloch.

The G+C contents of the DNAs of 41 strains belonging to the genus Galactomyces Redhead et Malloch were determined by the thermal denaturation method. Melting profiles revealed that the DNAs of these strains are heterogeneous. Four groups were recognized on the basis of this heterogeneity. However, DNA similarity values, which were calculated by using DNA-DNA reassociation kinetics, revealed that the strains could be divided into six subgroups. Strains belonging to the same subgroup exhibited high levels of DNA similarity (84 to 100%). The members of two subgroups, corresponding to Galactomyces citri-aurantii and Galactomyces reessii, exhibited low levels of DNA similarity with the members of the other subgroups (20 to 27%). The members of the four remaining subgroups, which contained only strains previously identified as Galactomyces geotrichum, exhibited intermediate levels of reassociation (41 to 59%). Some combinations of phenotypic characteristics correlated with the subgroups; a key based on phenotypic characteristics that can be used to distinguish the subgroups is presented.

Species delineation in the genus Nadsonia Sydow

The genus Nadsonia Sydow is revised on the basis of morphology, physiology, amino acid and fatty acid composition, electrophoretic patterns of some enzymes and DNA relatedness. Two species, N. commutata (type CBS 6640) and N. fulvescens, with two varieties, N. fulvescens var. fulvescens (type CBS 2596) and N. fulvescens var. elongata (type CBS 2594) nov. comb. are recognized. A modified diagnosis of the genus and a key are given.

Re-examination of strains formerly assigned to Hyphopichia burtonii, the phylogeny of the genus Hyphopichia, and the description of Hyphopichia pseudoburtonii sp. nov.

On the basis of the nucleotide divergence in the internal transcribed spacer (ITS) domain of the rRNA gene and the D1/D2 domain of the 26S rRNA gene, species of the genus Hyphopichia can be divided into different phylogenetic groups. In this study, three distinct phylogenetic clusters as well as a novel species, Hyphopichia pseudoburtonii sp. nov. with type strain CBS 2455(T) (=JCM 16346(T)), are introduced. Mating studies indicate that strains belonging to Hyphopichia pseudoburtonii are heterothallic.

The teleomorph state of Candida deformans Langeron & Guerra and description of Yarrowia yakushimensis comb. nov.

Yarrowia lipolytica is the only known species in the teleomorph (i.e. sexual) genus Yarrowia and has its anamorph (i.e. asexual state) classified in the genus Candida Berkhout as Candida lipolytica. This species can be found readily in nature, has significant industrial value and is important to the food and medical fields. Candida deformans was first considered a variety of C. lipolytica and was later listed as a synonym of this species. More recent studies based on sequence variation in the nuclear rRNA gene sequences suggested C. deformans to be a separate species with no known teleomorph linked to it. In this study we show that C. deformans strains, obtained from South Africa, can mate with strains present in the CBS yeast collection and produce a Yarrowia teleomorph, described here as Yarrowia deformans. Strains of Candida yakushimensis nom. inval., a species also belonging to the Yarrowia phylogenetic clade, were also studied and described as a novel species of Yarrowia.

Five novel Wickerhamomyces- and Metschnikowia-related yeast species, Wickerhamomyces chaumierensis sp. nov., Candida pseudoflosculorum sp. nov., Candida danieliae sp. nov., Candida robnettiae sp. nov. and Candida eppingiae sp. nov., isolated from plants

On the basis of nucleotide divergences in the D1/D2 domain of the 26S rRNA gene and the internal transcribed spacers (ITS) domain of the rRNA gene, five novel yeast species, Wickerhamomyces chaumierensis sp. nov. (CBS 8565(T)  = JCM 17246(T)), Candida pseudoflosculorum sp. nov. (CBS 8584(T)  = JCM 17242(T)), Candida danieliae sp. nov. (CBS 8533(T)  = JCM 17247(T)), Candida robnettiae sp. nov. (CBS 8580(T)  = JCM 17243(T)) and Candida eppingiae sp. nov. (CBS 8586(T)  = JCM 17241(T)), isolated from plants in Thailand and Guyana, are proposed in this study.

Re-examination of some species of the genus Geotrichum Link: Fr

The nutritional physiology and the growth rate of thirty-four strains representing species of Geotrichum without known teleomorph states were examined. From twenty-seven strains the mol% G+C were calculated from the DNA melting curves. The first derivatives of the melting curves of seven strains, including the type strain of Geotrichum clavatum, demonstrated the presence of two peaks, 12% away from each other; the remaining strains showed only a single broad peak. DNA homology values among strains of the former group were high, indicating their conspecificity. The strains of the latter group could be subdivided into six DNA homology groups, four of which could be identified with recognized species and two may represent novel taxa. A combined key of Geotrichum and its teleomorph states Galactomyces and Dipodascus is presented.

The genus Stephanoascus gen. nov. (Ascoideaceae).

The imperfect species currently cited as Candida ciferrii was found to constitute the haploid mating types of an undescribed, filamentous, heterothallic ascomycete. This perfect state has been transferred to the new genus Stephanoascus. The diagnosis of the genus and the description of the species Stephanoascus ciferrii are given.

Species delimitation in the genus Lipomyces by nuclear genome comparison

Species delimitation inLipomyces was attempted by nuclear genome comparison in conjuction with the re-evaluation of 48 physiological characters of 65 strains.High intraspecific (>75%) and low interspecific (<28%) similarity values established thatL. japonicus, L. lipofer andL. tetrasporus are genetically isolated, and also distinct fromL. kononenkoae andL. starkeyi.Ambiguous similarity values were obtained withL. kononenkoae andL. starkeyi. Strains previously assigned toL. kononenkoae constitute two related clusters. While similarity values within each cluster range from 76–99%, representatives of the two clusters reassociate for only 47%. Since these clusters are differentiated by their ecologically relevant maximum growth temperature,L. kononenkoae is subdivided. Strains previously assigned toL. starkeyi resolve into four closely related clusters. While similarity values within each cluster range from 78–100%, representatives of the four clusters reassociate for only 59–69%. Since these four clusters are poorly differentiated, the subdivision ofL. starkeyi does not appear possible without recourse to other criteria.Four unassigned strains constitute a further two clusters. Reassociation within these clusters is of the order of 91–100%, while reassociation between them occurs only at 59%. Reassociation of representatives of these clusters with those of theL. kononenkoae andL. starkeyi complexes is around 40% and 31%, respectively. These two clusters consequently appear to be intermediate betweenL. kononenkoae andL. starkeyi, and will, as such, have to be considered in any delimitation of these two species. A key to the taxa ofLipomyces and related genera of the Lipomycetaceae is given.