Phylogenetic analysis of Sorghum and related taxa using internal transcribed spacers of nuclear ribosomal DNA

The phylogenetic relationships of the genus Sorghum and related genera were studied by sequencing the nuclear ribosomal DNA (rDNA) internal transcribed spacer region (ITS). DNA was extracted from 15 Sorghum accessions, including one accession from each of the sections Chaetosorghum and Heterosorghum, four accessions from Parasorghum, two accessions from Stiposorghum, and seven representatives from three species of the section Sorghum (one accession from each of S. propinquum and S. halepense, and five races of S. bicolor). The maize (Zea mays) line, H95, and an accession from Cleistachne sorghoides were also included in the study. Variable nucleotides were used to construct a strict consensus phylogenetic tree. The analyses indicate that S. propinquum, S. halepense and S. bicolor subsp. arundinaceum race aethiopicum may be the closest wild relatives of cultivated sorghum; Sorghum nitidum may be the closest 2n=10 relative to S. bicolor, the sections Chaetosorghum and Heterosorghum appear closely related to each other and more closely related to the section Sorghum than Parasorghum; and the section Parasorghum is not monophyletic. The results also indicate that the genus Sorghum is a very ancient and diverse group.This research was partially supported by a Third Country Scholarship from Pioneer Hi-Bred International Incorporated Contribution 94-182-J from Kansas Agricultural Experiment Station     

The taxonomic relationships within the genus Excoecaria L. (Euphorbiaceae) based on leaf morphology and rDNA sequence data

The tropical Indo-Pacific genus Excoecaria L. (Euphorbiaceae) has several closely related species in Australia whose taxonomic relationships are unclear. The most widely reported species in Australia is the mangrove species Excoecaria agallocha L. (type species), whose taxonomic and geographic limits are difficult to define from its closely related species or sub-species. Two additional taxa have also been described but not clearly differentiated from the type species: Excoecaria dallachyana Baillon and Excoecaria ovalis Endl. This project aimed to determine the taxonomic relationships of the Australian Excoecaria species using both leaf morphological data and DNA sequence data from the internal transcribed spacer (ITS) region of ribosomal genes. The nucleotide differences in the examined ITS1 region show that E. agallocha from eastern Australia and E. ovalis from Western Australia respectively, are genetically uniform within species but differ from each other consistently, thus supporting species status. The leaf morphological data also support this view: single factor analysis of variance consistently separated E. ovalis from E. agallocha on the basis of leaf width, leaf length and length of petiole. In contrast, E. ovalis from the Gulf of Carpentaria differs only slightly from E. ovalis in Western Australia, but no evidence was found to suggest any leaf morphological differentiation within this species. The analysis also suggests that E. dallachyana is not closely related to either mangrove species E. agallocha or E. ovalis, despite superficial morphological similarities.     

Auriscalpium vulgare:交配系和生物种

Auriscalpium vulgar。的单孢菌株分别从采于中国云南和美国威斯康星的标本中分离得到,自交结果证明该种属于双因子交配系。样本间杂交表明产于中国云南的标本与美国威斯康星的标本间无生殖隔离。上述结果在生物种分布的意义已在文中讨论。     

Relationships among Eucheuma denticulatum,Eucheuma isiforme and Kappaphycus alvarezii (Gigartinales,Rhodophyta) based on nuclear ssu-rRNA gene sequences

The nuclear genes encoding small-subunit ribosomal RNAs (ssu-rDNAs) of the carrageenophytes Eucheuma denticulatum, E. isiforme and Kappaphycus alvarezii were amplified by the polymerase chain reaction, cloned and sequenced. The sequences range from 1767 (K. alvarezii) to 1781 (E. isiforme) nucleotides in length, and have guanine+cytosine contents between 51.2% (E. isiforme) and 51.5% (E. denticulatum). Pairwise sequence identities among these sequences ranged from 97.6% to 98.5%, levels comparable to some intergeneric identities within Gracilariales. In phylogenetic analyses, the two Eucheuma ssu-rDNAs group stably together vis-a-vis the ssu-rDNA of K. alvarezii, and these three ssu-rDNAs form a monophyletic group within a larger grouping of other carrageenophytes. The results demonstrate quantitatively that analysis of nuclear-encoded ssu-rDNA sequences is likely to be useful in resolving taxonomic, phylogenetic and biogeographic questions among tribe Eucheumatoideae Doty.     

Intraspecific 5S rRNA gene variation in flax,Linum usitatissimum (Linaceae)

A relatively large proportion of the flax genome (~ 3%) is comprised of 5S rRNA genes. This study focuses on the intraspecific sequence variation among five distinct groups of 5S rRNA genes. The results indicate that group 1 and 2 5S rRNA genes most closely resemble other angiosperm 5S genes, while groups 3–5 are highly divergent. Sequence variation is higher in the spacer region compared to the transcribed region for all pairwise comparisons. The large degree of sequence variation observed in this study is discussed with respect to genome organization and proposed models for repetitive sequence maintenance.     

以新单倍体化和新单倍体性生物交配为手段鉴定侧耳属的培养

使用牛胆汁琼脂技术对侧耳属的双核体培养物进行新单倍体化(neohaploidization),生成的新单倍性生物(neohaplont)分离物为单核体,并且缺少锁状联合。这些新单倍性生物的分离物在与侧耳属已知单孢子测交菌株交配时,来自每一个亲本双核体的新单倍体性生物只能与一个种的测交菌株亲合。从而表明,该技术对鉴定双核体侧耳培养物有价值,同时对其它一些真菌类群有效。     

Non-resource based territoriality in males of the butterflyXamia xami (Lepidoptera: Lycaenidae)

In the Pedregal de San Angel reserve, in Mexico City, males of the butterfly Xamia xamiperch in and defend areas with well-defined topographic limits. These areas lack concentrations of receptive females and of larvae and adult resources. One individual defends the same territory an average of 5 h/day, up to a maximum of 23 days. The same areas are used as territories by different males during the year. These areas share some characteristic features which are described. Evidence is presented in support of the hypothesis that the territories function as mating stations. A possible scenario for the evolution of this territorial mating system is advanced.     

An unlinked 5 S ribosomal RNA gene in the archaebacterium, Thermococcus celer

Summary We have determined the nucleotide sequence of an unlinked 5 S rRNA gene region from a thermophilic archaebacterium, Thermococcus celer. This 5 S rRNA gene is flanked by a single tRNA^Asp sequence and appears to be transcribed as part of a very short operon consisting of only two gene sequences. Comparative studies indicate features in the 5 and 3 flanking sequences, which bear similarity with promoter and termination signals in eubacteria, but also reflect unusual features found in at least some archaebacteria. The evolution of this unlinked operon and the unusual features are discussed.     

Phylogenetic relationships ofPseudopanax species (Araliaceae) inferred from parsimony analysis of rDNA sequence data and morphology

Sequence data from internal transcribed spacer (ITS) regions of rDNA and data from morphology, cytology and wood anatomy are used to study phylogenetic relationships inPseudopanax. The molecular and non-molecular data are analysed as independent data sets and in combination using parsimony. Results supported the conclusion that the genusPseudopanax is polyphyletic.Pseudopanax species emerge in two major monophyletic groups. The Anomalus group containsPseudopanax anomalus, P. edgerleyi, andP. simplex; these species share a common ancestor withCheirodendron trigynum and more distantly withPseudopanax gunnii. The second major group consists of two smaller groups: the Arboreus group, includingPseudopanax arboreus, P. colensoi, P. kermadecensis, P. laetus, andP. macintyrei, and the Crassifolius/Discolor group, includingP. chathamicus, P. crassifolius, P. discolor, P. ferox, P. gilliesii, P. lessonii, andP. linearis. Meryta species are close relatives of thePseudopanax Arboreus and Crassifolius/Discolor groups.     

Mating system and genetic differentiation inDasypyrum villosum (Poaceae) in Italy

Genetic differentiation at the morphological, isozyme, and DNA levels among sevenDasypyrum villosum (Poaceae, Triticeae, 2n = 14, VV genomes) populations from Italy was studied. A measure of the mating system was also obtained. Genetic diversity was mainly distributed within populations (90%) rather than among populations (10%), typical for most allogamous species. Interpopulation diversity, however, was greatest between the most geographically distant populations (about 750 km apart, 911 m altitude difference). The mating system was estimated to vary from 55 to 100% outcrossing. One population (I-16, Bomarzo) deviated from the others in its uniform early flowering habit and presence of isozyme alleles not found in other populations. It had genetic diversity similar to other populations for isozyme (Got-V2, Got-V3, andEst-VF) and ribosomal RNA (Nor-Vl) loci. This population is believed to be the product of a few migrant founder seeds and its unique characters point out that generalized population biology parameters of genetic diversity are not sufficient for describing species variation nor for developing conservation strategies.     

Floristic study of <Emphasis Type="Italic">Geastrum</Emphasis> in Japan: three new records for Japanese mycobiota and reexamination of the authentic specimen of <Emphasis Type="Italic">Geastrum minus</Emphasis> reported by Sanshi Imai

Geastrum berkeleyi, G. fornicatum, and G. minimum are newly recorded from Japan. A peristome of G. fornicatum has hitherto been described as indistinct, whereas the Japanese specimens have a well-delimited, fibrillose peristome. Geastrum minus, reported for the first time from Japan by Sanshi Imai, represents G. quadrifidum. Macroscopic and microscopic features of those four taxa are described and illustrated based on Japanese specimens.     

亚洲产Clavicorona的形态学及亲和性研究

中国产的Clavicorona pyxidata与北美的种样本间配对实验结果显示该种在不同的地理分布区内的种群之间完全性亲和或具有相同的交配型等位基因,表明中国产与北美产的该形态学种同属于一个生物种。日本产的标本与C. pyxidata在子实体外部形态及孢子尺度上有差异,虽然在日本被鉴定为该种。日本产的菌株与C. pyxidata菌株间配对实验证明二者之间完全不亲和,即属于不同的生物种。生殖隔离拌随着形态学变异。     

An ustilaginomycetous yeast,Pseudozyma graminicola sp. nov., isolated from the leaves of pasture plants

Two strains belonging to a novel anamorphic species, Pseudozyma graminicola, were isolated from the leaves of herbaceous plants in the Moscow region (Russia). This species was genetically distinct from all known Pseudozyma species, based on sequence divergence in the D1/D2 domains of the large subunit rDNA and the ITS region. It is related phylogenetically to species of the genus Sporisorium (Ustilaginaceae, Ustilaginales). Physiological characteristics distinguishing this novel species from the other species of the genus Pseudozyma are presented.     

Lifespans of fungal rhizomorphs under nitrogen fertilization in a pinyon-juniper woodland

The lifespan of individual microbes in the soil influences nutrient cycling rates as well as population dynamics, but their responses to global change factors such as anthropogenic nitrogen deposition have been challenging to quantify in situ. We used minirhizotron images to track the abundance and turnover rate of individual fungal rhizomorphs under nitrogen fertilization in a pinyon-juniper woodland in New Mexico. We hypothesized that increases in nitrogen availability would alter rhizomorph lifespan and abundance. Sequential images were collected over eight sampling dates from November 1997 to August 1999, and a total of 278 rhizomorphs were examined. We found that neither standing stocks nor lifespans of rhizomorphs differed significantly between treatments. Lifespans of rhizomorphs lasted eleven months on average, indicating that nutrient immobilization in these structures could last for longer than a growing season in these sites.