Interfertility as basis for the delimitation of Kluyveromyces marxianus

Hybridization studies between strains of Kluyveromyces marxianus and the remaining species of the genus involving the use of auxotrophic mutants, are reported. K. marxianus was found to be interfertile with K. bulgaricus, K. cicerisporus, K. dobzhanskii, K. drosophilarum, K. fragilis, K. lactis, K. phaseolosporus, K. vanudenii and K. wikenii. Accepting interfertility as criterion for conspecificity, these nine syngamous taxa are relegated to the status of biotypes or physiologic races of a single species K. marxianus.     

Five new combinations in the yeast genus Zygofabospora Kudriavzev emend. G. Naumov (pro parte Kluyveromyces) based on genetic data

The rDNA sequencing data obtained during the last 5 years in several laboratories clearly demonstrate that within the heterogeneous genus Kluyveromyces there is a group of highly related species, which we refer to as the genus Zygofabospora Kudriavzev 1960 emend. G. Naumov 2002. This genus includes four hybridizing species, Zf. marxiana, Zf. dobzhanskii, Zf. lactis, Zf. wickerhamii (Zygofabospora sensu stricto), and two taxonomically related species, Zf. aestuarii, Zf. nonfermentans (Nagahama et al.) G. Naumov comb. nov. (Zygofabospora sensu lato). We studied the relationships of the yeasts composing the Zf. lactis complex. Genetic hybridization analysis and molecular karyotyping revealed partial genetic-isolation varieties, Zf. lactis var. drosophilarum (Shehata et al.) G. Naumov comb. nov. and Zf. lactis var. phaseolospora (Shehata et al.) G. Naumov comb. nov. from North America, and Zf. lactis var. krassilnikovii (Kudriavzev) G. Naumov comb. nov. from Europe. The dairy yeast Zf. lactis var. lactis G. Naumov comb. nov. yields highly fertile hybrids with its wild ancestor Zf. lactis var. krassilnikovii and semi-sterile hybrids with North American taxa. Besides, Zf. lactis var. lactis and Zf. lactis var. krassilnikovii formed fertile hybrids with the South African yeast Zf. lactis var. vanudenii (van der Walt et Nel) G. Naumov comb. nov. The reinstatement of the latter yeast at the variety level has been done taking into account the results of the present study and the literature data on its geographic isolation, high divergence of the karyotype and mitochondrial DNA.     

Rapid differentiation of the closely related Kluyveromyces lactis var. lactis and K. marxianus strains isolated from dairy products using selective media and PCR/RFLP of the rDNA non transcribed spacer 2

PCR/RFLP of the NTS2 (IGS2) of rDNA was applied to differentiate two closely related yeast species, Kluyveromyces lactis var. lactis (referred to as K. lactis) and K. marxianus. Using specific primers, the NTS2 region was amplified from DNA of both K. lactis and K. marxianus type and collection strains. AluI restriction of amplified fragments generated patterns characteristic for each species. The NTS2 region from K. lactis var. drosophilarum and related species K. aestuarii, K. africanus, K. dobzhanskii, and K. wickerhamii could also be amplified with the same primers, but AluI patterns generated were clearly different. PCR/RFLP of the NTS2 appears thus to be a convenient method for rapid identification of K. lactis and K. marxianus, frequently found in dairy products. This test was validated therefore on K. lactis and K. marxianus from natural habitats. We showed that all yeast strains collected from whey samples and scoring blue on X-gal glucose plates were either K. lactis or K. marxianus. For application purposes, we propose here an approach for quickly screening for K. lactis/marxianus and Saccharomyces cerevisiae in dairy products using X-gal coloured and lysine growth media.     

Deoxyribonucleic Acid Base Composition of Species in the Yeast Genus Kluyveromyces van der Walt emend. van der Walt

The deoxyribonucleic acid base composition (percent guanine + cytosine [GC]) was determined for 29 strains, representing 18 species of the genus Kluyveromyces. It was concluded that on the basis of GC content (47.4%) and other properties K. veronae occupies an uncertain position in the genus Kluyveromyces. The GC content of the remaining 17 species ranged from 35.3 to 43.4%, and three groups of species were recognized. The GC content of the first ranged from 35.3 to 38.0%; that of the second group from 39.5 to 41.7%; that of the third group from 42.4 to 43.4%. Several species revealed a nearly identical GC content. The GC contents do not correspond in all instances with the five groups of species proposed by van der Walt.     

Molecular-genetic differentiation of the dairy yeast Kluyveromyces lactis and its closest wild relatives

The currently accepted formal division of the species Kluyveromyces lactis into two taxonomic varieties, Kl. lactis var. lactis and Kl. lactis var. drosophilarum, is based arbitrarily on phenotypic and ecological characters. On the other hand, the genetic hybridisation analysis and molecular karyotyping of its synonyms allowed us [FEMS Yeast Res. 2 (2002) 39] to reinstate them in the genus Zygofabospora Kudriavzev emend G. Naumov (=Kluyveromyces Kurtzman et al., 2001) as the varieties Zf. lactis var. lactis, Zf. lactis var. krassilnikovii, Zf. lactis var. drosophilarum, Zf. lactis var. phaseolospora and Zf. lactis var. vanudenii. In the present work, we studied forty Kl. lactis strains of different geographic and ecological origins by means of restriction analysis of the PCR-amplified non-coding nrDNA regions encompassing the intergenic spacer 2 (IGS2) and the internal transcribed spacers (ITS1 and ITS2). The results confirmed the complex structure of Kl. lactis. Moreover, four additional genetic populations were identified: three in North America ('aquatic', 'pseudovanudenii' and 'new') and one in Far-East Asia ('oriental'). Comparative sequence analysis of the 5.8S-rRNA gene and the two internal transcribed spacers revealed that the populations 'aquatic' and 'oriental' formed distinct taxa which are phylogenetically separate from the five known populations. However, some discrepancies were observed between the restriction and sequencing data. Genetic hybridisation analysis needs to be done to further elucidate the genetic relationships between the populations of Kl. lactis.     

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 use of the GDH gene for molecular identification and phylogenetic analysis of the yeast Kluyveromyces marxianus

Summary Our previous work showed that NADP⁺-dependent glutamate dehydrogenase from K. marxianus behaves similarly to its counterpart in S. cerevisiae. It suggested that the ammonia assimilation pathway might be different between K. marxianus and the genetic closed species K. lactis. In the present work, we analyzed the genetic similarity among the GDH gene family in K. marxianus and closed yeasts. Specific primers for GDH genes were designed based on the K. marxianus sequences deposited in the Génolevures Database. One of them, for the KmGDH2 gene, proved to be specific for K. marxianus DNA samples, which confirmed the molecular identification of environmental yeast isolates, and can be proposed for rapid screening of this yeast from environmental samples. The nucleotide sequence revealed that KmGDH2 belongs to the S. cerevisiae GDH1 gene family together with KlGDH gene.     

Saccharomyces barnetti andSaccharomyces spencerorum: two new species ofSaccharomyces sensu lato (van der Walt)

In the course of a study of DNA base sequence homology, 19 strains labelled asSaccharomyces exiguus, its imperfect state,Candida holmii, orC. milleri were examined. Results confirmed the separation ofC. milleri as a separate species. The remaining strains can be divided into three distinct groups of genomic relatedness. The type cultures ofS. exiguus andC. holmii form a cluster with 10 other strains showing variable reassociation values ranging from 100 to 40%. The remaining four strains comprise two separate species showing no nucleotide relatedness between themselves nor to either theS. exiguus complex or toC. milleri. Physiological analyses demonstrate that it is possible to separate these four taxa on the basis of a few simple tests. The two new species are described respectively asSaccharomyces barnetti honoring James Barnett in recognition of his invaluable work in the field of yeast taxonomy andSaccharomyces spencerorum in honor of J.F.T. and Dorothy M. Spencer who have made innumerable contributions to the genetics and biotechnological application of yeasts.     

Heterologous expression of a thermophilic esterase in <Emphasis Type="Italic">Kluyveromyces</Emphasis> yeasts

In the present work, a thermophilic esterase from Thermus thermophilus HB27 was cloned into Kluyveromyces marxianus and into Kluyveromyces lactis using two different expression systems, yielding four recombinant strains. K. lactis showed the highest esterase expression levels (294 units per gram dry cell weight, with 65% of cell-bound enzyme) using an episomal system with the PGK promoter and terminator from Saccharomyces cerevisiae combined with the K. lactis k1 secretion signal. K. marxianus showed higher secretion efficiency of the heterologous esterase (56.9 units per gram dry cell weight, with 34% of cell-bound enzyme) than K. lactis. Hydrolytic activities for the heterologous esterases were maximum at pH values between 8.0 and 9.0 for both yeast species and at temperatures of 50 °C and 45 °C for K. marxianus and K. lactis, respectively. When compared to previously published data on this same esterase produced in the original host or in S. cerevisiae, our results indicate that Kluyveromyces yeasts can be considered good hosts for the heterologous secretion of thermophilic esterases, which have a potential application in biodiesel production or in resolving racemates.     

An integrative approach to species delimitation in Echinodorus (Alismataceae) and the description of two new species

Summary  Taxonomy of the genus Echinodorus is partially revisited in the light of current understanding of the phylogenetic relationships of the genus. As a result of new taxonomy, the species status of some previously synonymised taxa are restored, other names are synonymised, and some nomenclatural problems unnoticed by previous authors are resolved. Two new species, Echinodorus reptilis and E. emersus are described. The subgeneric divisions of the genus are not accepted, and all subspecific taxa are either rejected or established as species. As a result, 28 species based on a phylogenetic species concept are now recognised in Echinodorus and an identification key to these species is provided.     

CROSSING STUDIES IN CYPHOMANDRA (SOLANACEAE) AND THEIR SYSTEMATIC AND EVOLUTIONARY SIGNIFICANCE

A crossing program involving eight species of Cyphomandra was instituted to elucidate systematic relationships between the taxa and evolutionary mechanisms operating in the genus. The results show that gametophytic self-incompatibility is widespread in Cyphomandra. Pollen tubes were able to reach the ovules in nearly all interspecific crosses. Most of these crosses failed, however, indicating that postzygotic barriers are important in reproductive isolation. Only five of 44 interspecific combinations attempted have produced viable seeds. F₁ plants have been evaluated from three of the five hybrid combinations: C. betacea × acuminata, C. uniloba × betacea, and C. corymbiflora × diploconos. All three hybrid combinations show reduced fertility as compared to the parents, apparently caused in part by differences in chromosome structure between parent species. Crossing success was congruent with morphological similarity in C. betacea, C. acuminata, and C. uniloba, but not in C. corymbiflora and C. diploconos. External isolating mechanisms such as geography, ecology, phenology, and pollinator specificity may also operate to maintain species integrity in nature.     

INTERSPECIFIC CROSSES IN KALMIA

Interspecific crosses among Kalmia species are reported for the first time. All possible crosses between K. angustifolia, K. cuneata, K. latifolia, K. hirsuta, K. polifolia var. rosmarinifolia and K. p. var. microphylla were attempted. Several crosses yielded no hybrids, many produced albino or yellow-green inviable seedlings, and six combinations produced at least a few seedlings with near-normal growth habit. Stylar inhibition of pollen tube growth prevented some species from hybridizing; reciprocal differences in crossability and pollen tube growth were noted. Kalmia species are highly heterozygous, but no evidence was found within a species for geographic variation of combining ability except for the two varieties of K. polifolia which had different crossing patterns with the other species. The anthocyaninless form of K. angustifolia, in contrast to the normal, has unique combining ability with K. latifolia. No genetic evidence was found to support the placement of K. hirsuta in another genus (Kalmiella) or to designate K. angustifolia var. caroliniana as a distinct species. Use of all the species to breed improved ornamentals is limited by genetic barriers and sterility of F₁ hybrids.     

Conservation unit status inferred for plants by combining interspecific crosses and AFLP

Hybridization and introgression are common in plants and lead to morphological similarity between species and taxonomic confusion. This gene flow with closely related species can complicate efforts to determine whether an endangered taxon is evolutionarily distinctive and should be identified as a separate conservation unit. Potentilla delphinensis is a rare and threatened endemic species of the Southern French Alps. Two common related taxa (P. grandiflora and P. thuringiaca) are morphologically similar and occur in the same geographical locations. Thus, whether P. delphinensis represents a reliable conservation unit remained unclear. Our evaluation procedure based on a combination of molecular biology and interspecific crosses was used to define taxa within these plants. Plants were sampled from a total of 23 single and mixed localities for the three supposed taxa and were genotyped with 68 polymorphic Amplified Fragment Length Polymorphism (AFLP) loci. Fourty-one seedlings from interspecific crosses were obtained and genotyped. Amplified Fragment Length Polymorphism markers identified four genetically distinct units (P. delphinensis, P. grandiflora and two distinct groups of P. thuringiaca). All individuals of P. delphinensis formed a homogeneous and distinct taxon. This taxon was most probably an old allopolyploid from P. grandiflora and the related group of P. thuringiaca. Interspecific crosses gave low seed set and low germination rate. Furthermore, assignment test indicated that seedlings obtained from interspecific crosses were essentially apomictic rather than hybrids. These results suggest that a reproductive barrier exists between the different taxa. In conclusion, all results supported P. delphinensis as a true biological species and justified its conservation unit status. A surprising outcome of this work was the evidence of a potential new cryptic species. This study demonstrated the need to combine a molecular marker-based approach and pollination experiments for an accurate evaluation of plant taxa.     

Phylogeny and taxonomy of the genus Phylloporia (Hymenochaetales)

Based on 28 taxa, including six species of Phylloporia, and respectively one representative of 17 genera of the Hymenochaetales, a phylogenetic analysis of a region of the large subunit of the nuclear encoded ribosomal DNA was performed. Molecular sequence data as well as morphological and anatomical features show the genus to be monophyletic. Next related to Phylloporia is Fulvifomes. The phylogenetic relationships of Phylloporia are discussed. In addition the genus Phylloporia is monographed; 12 species are accepted and described with a key.     

New insights into DNA barcoding of seagrasses

Taxonomists find some plant genera challenging because of the few morphological differences or unclear characters among closely related species, which leads to the misidentification of taxa. DNA barcoding is an approach to identify species by using short orthologous DNA sequences, known as ‘DNA barcodes’. Concatenated rbcL and matK sequences are considered DNA barcodes for seagrasses. However, these markers are not applicable to all members of seagrasses at the species level, especially within the genus Halophila. Our previous studies indicated that the internal transcribed spacer (ITS) showed higher species resolution than the concatenated rbcL and matK sequences in the case of Halophila ovalis and closely related species. In this study, 26 ITS, two rbcL and two matK consensus sequences from 18 seagrass taxa belonging to four families collected in India, Vietnam, Germany, Croatia and Egypt were processed. Molecular ITS analysis resolved five clades. The results also indicate that the Cymodoceaceae family might be a non-monophyletic group. In conclusion, ITS could be applied as a DNA barcode for seagrasses instead of the rbcL/matK system previously proposed.     

Chemosystematische Untersuchungen zur Phylogenese der Sammelgattung Lacerta (Reptilia: Sauria: Lacertidae)

Chemosystematic investigations concerning the phylogeny of the collective genus Lacerta (Reptilia: Sauria: Lacertidae) Investigated the albumins from 31 species and subspecies of the genus Lacerta s.1. by means of the immunoloical techniue Micro-Complement-fixation. Dendrograms were computed by means of the ktch-MargJiash algorithm. Moreover the taxa of the Lacerta saxicola and the Lacerta danfordi comlexes were analyzed by electrophoresis concerning 14 genetic loci. The results were discussel together with karyological and genitalmorphological data so far known yielding the following relationships: Lacerta graeca shows a closer relationshi to the subgenus Podarcis as does the quite closely related species air L. dugesii and L. perspicikata. Lacerta Iaevis probabl is connected closely to Podarcis, too. Lacerta parva shows a closer relationship to the “small izards” than to the sub-genus Lacerta s. str. A clear decision concerning the position of the Lacerta danfordi complex according to chemosystematical data was not possible. It is isolated from the other species probably about as long as L. puma. Biochemical differences between its “species” are too small to confirm their taxonomical revalorisation by Eiselt and Schmidtler Within the Lacerta saxicola complex the investigated taxa show a close relationship. Lacerta praticola and L. derjugini were definitly assigned to this group.     

Systématique du genre Kluyveromyces: Hybridation ADN-ADN

Deoxyribonucleic acids of 8 species ofKluyveromyces and one round-spored species ofPichia have been compared with P³² labelled DNA ofK. marxianus in view of a systematic study by a method of hybridization in liquid media.The species related toK. marxianus by currently employed systematic characters show generally a good nucleotide sequence homology (> 70%), exceptK. wickerhamii.On the contrary,K. africanus, K. phaffii andP. abadiae show a very low percentage of hybridization withK. marxianus.This molecular approach yields useful information to test the value of usual criteria of yeast systematic.

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Collaboration technique: Mme Geneviéve Billon-Grand.     

Identification of a xylose reductase gene in the xylose metabolic pathway of <Emphasis Type="Italic">Kluyveromyces marxianus</Emphasis> NBRC1777

Kluyveromyces marxianus is thermotolerant yeast that is able to utilize a wider range of substrates and has greater thermal tolerance than most other yeast species. K. marxianus can assimilate xylose, but its ability to produce ethanol from xylose in oxygen-limited environments is poor. In the present study, the K. marxianus xylose reductase (KmXR) gene (Kmxyl1) was cloned and the recombinant enzyme was characterized to clarify the factors that limit xylose fermentation in K. marxianus NBRC1777. KmXR is a key enzyme in the xylose metabolism of K. marxianus, which was verified by disruption of the Kmxyl1 gene. The Km of the recombinant KmXR for NADPH is 65.67 μM and KmXR activity is 1.295 U/mg, which is lower than those of most reported yeast XRs, and the enzyme has no activity with coenzyme NADH. This result demonstrates that the XR from K. marxianus is highly coenzyme specific; combined with the extremely low XDH activity of K. marxianus with NADP⁺, the limitation of xylose fermentation is due to a redox imbalance under anaerobic conditions and low KmXR activity.     

Molecular phylogenetics of Vanda and related genera (Orchidaceae)

The genus Vanda and its affiliated taxa are a diverse group of horticulturally important species of orchids occurring mainly in South‐East Asia, for which generic limits are poorly defined. Here, we present a molecular study using sequence data from three plastid DNA regions. It is shown that Vanda s.l. forms a clade containing approximately 73 species, including the previously accepted genera Ascocentrum, Euanthe, Christensonia, Neofinetia and Trudelia, and the species Aerides flabellata. Resolution of the phylogenetic relationships of species in Vanda s.l. is relatively poor, but existing morphological classifications for Vanda are incongruent with the results produced. Some novel species relationships are revealed, and a new morphological sectional classification is proposed based on support for these groupings and corresponding morphological characters shared by taxa and their geographical distributions. The putative occurrence of multiple pollination syndromes in this group of taxa, combined with complex biogeographical history of the South‐East Asian region, is discussed in the context of these results. © 2013 The Linnean Society of London, Botanical Journal of the Linnean Society, 2013, 173 , 549–572.