Motomi Ito

Phylogeny of gymnosperms inferred fromrbcL gene sequences

Partial nucleotide sequences of the large subunit of ribulose-1,5-bisphosphate carboxylase (rubisco) gene (1333 base pairs: about 90% of the gene) from several seed plants were determined. Phylogenetic trees based on amino acid sequences were inferred by using the neighbor joining and maximum likelihood methods. The results indicate (1) monophyly of gnetum group (Ephedra, Gnetum, Welwitschia), (2) monophyly of extant gymnosperms containing gnetum group, which contradicts the results of morphological data.

Characterization of MADS genes in the gymnosperm Gnetum parvifolium and its implication on the evolution of reproductive organs in seed plants

SUMMARY Gnetales, one of the extant gymnosperm orders, has traditionally been recognized to be most closely related to flowering plants, because the reproductive organ of Gnetales has some morphological characteristics similar to flowering plants. Most recent molecular phylogenetic studies do not support the sister relationship of the Gnetales and flowering plants, but instead support a close relationship between Gnetales and other extant gymnosperms. The MADS genes are transcription factors, some of which are involved in reproductive organ development in flowering plants. To resolve the discrepancy in phylogenetic inferences, and to provide insights into the evolution of reproductive organs in seed plants, four MADS genes (GpMADS1–4) were cloned from Gnetum parvifolium. GpMADS2 is likely to be a pseudogene and the other three genes were characterized. A MADS gene tree based on partial amino acid sequences showed that GpMADS3 is included in the AGL6 group, but the other two genes do not cluster with any previously reported MADS gene. The three GpMADS genes were expressed during the early stage of ovule development in the differentiating nucellus and three envelopes. A comparison of MADS gene expression among conifers, Gnetum, and flowering plants suggests that the comparable reproductive organs in Gnetum and flowering plants evolved in parallel, and is likely to support the homology between the ovule‐ovuliferous scale complex of conifers and the Gnetum ovules, including the three envelopes.

Development of primer sets for PCR amplification of the PgiC gene in ferns

Abstract Polymerase chain reaction (PCR)-based nuclear DNA markers were developed for fern species. We first determined the partial nucleotide sequence of cDNA of the pgiC gene encoding cytosolic phosphoglucose isomerase from Dryopteris caudipinna, and then PCR primers for exon-primed, intron-crossing (EPIC) amplifications were designed. The EPIC primers are universally applicable to the most derived indusiate fern families such as Dryopteridaceae, Thelypteridaceae, and Woodsiaceae. The PCR products of primers 14F/16R containing two introns are moderate in size (534 bp–ca.1000 bp) and are possibly of value in phylogenetic reconstruction at specific and generic levels. Codominant nuclear DNA markers applicable to the estimation of mating systems and other population genetic studies were also developed by a combination of single-strand conformation polymorphism (SSCP) and EPIC amplification using primers 14F/15R and 15F/16R. In order to provide a case study using these markers, allelic variation of PCR products using 15F/16R was examined in populations of Arachniodes standishii (Dryopteridaceae).

Phylogenetic Relationships of Amaryllidaceae Based on matK Sequence Data

matK gene, which is located in the chloroplast genome and evolves more quickly than the rbcL gene. A total of 31 species representing 31 of the 59 genera in the family were examined in this study. We also used 21 species from another ten families of Asparagales, four species from three families of Liliales and Acorus as outgroups. We obtained partial sequences of matK with lengths of 1,109–1,148 bp, corresponding to positions 230 to 1,343 of the Oryza sativa matK gene. The pairwise percentage sequence divergence ranged from 0 to 19.1% for all the species examined except Acorus, and 0 to 4.6% within Amaryllidaceae. Two methods of phylogenetic analysis, the Maximum Parsimony and Neighbor-Joining methods, were used. The trees obtained from these two analyses were fundamentally consistent. In both trees, the Amaryllidaceae sensu Dahlgren et al. formed a well-supported monophyletic clade with 100% bootstrap support. Amaryllidaceae were included in the Asparagales; however, its phylogenetic position within the Asparagales was not clearly resolved. Judging from the NJ tree, Agapanthus might be a sister group of the Amaryllidaceae, although bootstrap support for this was low. Character-state mapping was used to infer a center of origin and the biogeographic history of Amaryllidaceae. The result supports the hypothesis that the family evolved in Africa and subsequently spread to other continents, further suggesting that South America is the center of secondary diversification.

PHYLOGENETIC ANALYSIS OF YAMAGISHLELLA AND PLATYDORINA (VOLVOCACEAE, CHLOROPHYTA) BASED ON rbcL GENE SEQUENCES1

Yamagishiella, based on Pandorina unicocca Rayburn et Starr, is distinguished from Eudorina by its isogamous sexual reproduction, whereas Platydorina exhibits anisogamous sexual reproduction. In the present study, we sequenced the large subunit of ribulose‐1,5‐bisphosphate carboxylase/oxygenase (rbcL) genes from five Japanese and North American strains of Y. unicocca (Rayburn et Starr) Nozaki, two Platydorina caudata Kofoid strains, and two strains of Eudorina unicocca G. M. Smith, as well as eight related colonial and unicellular species. Phylogenetic trees were constructed based on these sequence data and on previously published rbcL gene sequences from 23 volvocalean species in order to deduce phylogenetic relationships within the colonial Volvocales, with particular regard to the phylogenetic positions and status of the genera Yamagishiella and Platydorina. Two robust monophyletic groups of the anisogamous/oogamous volvocacean species were resolved in the maximum‐parsimony tree as well as in the neighbor‐joining distance tree. One of the two groups comprises three species of Volvox section Volvox, whereas the other is composed of other sections of Volvox as well as of all the species of Eudorina and Pleodorina. Platydorina, however, was positioned outside these two monopliyletic groups. Therefore, derivation of the Platydorina lineage may be earlier than that of such anisogamous/oogamous groups, or orgin of “anisogamy with sperm packets” in Platydorina may be independent of sperm packet evolution in Eudorina, Pleodorina, and Volvox. It was also resolved with high bootstrap values that all of the Y. unicocca strains form a monophyletic group positioned outside the large monophyletic group including Eudorina and Pleodorina. These reject the possibility of the reverse evolution of isogamy from anisogamy to give rise to Yamagishiella within the lineage of Eudorina.

Phylogenetic relationships in gnetophyta deduced fromrbcL gene sequences

Part of the large subunit of the ribulose-1,5-bisphosphate carboxylase gene (rbcL) was sequenced (1333 base pairs) from three species of gymnosperms:Ephedra sinica Gnetum parvifolium, Welwitschia mirabilis. Phylogenetic trees inferred from the neighbor joining, Wagner parsimony and maximum likelihood methods showed thatGnetum andWelwitschia were more closely related to each other than either is toEphedra within Gnetophyta, and the result supports previous cladistical analysis of morphological data.

Allozyme diversity and the evolution ofCrepidiastrum (Compositae) on the Bonin (Ogasawara) Islands

The genusCrepidiastrum is distributed in East Asia and includes 7 species. In the Bonin Islands, three species ofCrepidiastrum occur, and all of them are endemic to the islands. For detecting the origin and speciation of these endemic species, electrophoretic studies have been done in three endemic species of the Bonin Islands as well as in the remaining four species ofCrepidiastrum, andYoungia denticulata which is considered to be closely related toCrepidiastrum.A total of 386 individuals were sampled from 14 populations. As a result, 17 loci of 10 enzyme systems were resolved and gene frequencies for each population were calculated. The genetic variability was low in island species, as reported in some oceanic island plants. Four groups were recognized in the dendrogram generated by the UPGMA method. The Bonin endemics were clustered together, suggesting a monophyletic origin.C. ameristophyllum andC. linguaefolium were found to be genetically very similar, and this may suggest recent and rapid speciation within the islands.

Chloroplast DNA Phylogeny of Asian Bamboos (Bambusoideae, Poaceae) and Its Systematic Implication

The bamboo is usually classified as a subfamily Bambusoideae of Poaceae, and includes approximately 20 genera and 300 species. To estimate phylogenetic relationships among these genera, we examined restriction site mutations of cpDNA for 16 Asian genera.In the cladogram obtained, the Bambosoideae was divided into two major lineages, one includingPleioblastus, Pseudosasa, Semiarundinaria, Shibataea, Phyllostachys, Sasa, Sinobambusa, Chimonobambusa, Arthrostylidium, andYushania, and the other consisting ofBambusa, Gigantochloa, Dendrocalamus, Thyrostachys, Melocanna, andSchizostachyum. Monophylly of each clade was supported by 83% and 98% bootstrap probability, respectively. The present result supports monophylly of Arundinarieae of Potztals (1964) classical system, but does not support his treatment to recognize Dendrocalameae.

Phylogeny and Phytogeography of Eupatorium (Eupatorieae, Asteraceae): Insights from Sequence Data of the nrDNA ITS Regions and cpDNA RFLP

Eupatorium were examined by sequencing the internal transcribed spacers (ITS) of nuclear ribosomal DNA and restriction site analysis of chloroplast DNA. Molecular data provided strong evidence that (1) this genus originated in North America, (2) the genus diverged into three morphological species groups, Eutrochium, Traganthes and Uncasia in North America, and (3) one of the North American Uncasia lineages migrated into temperate Europe and eastern Asia over the Bering land bridge. The estimated divergence times support a late Miocene to early Pliocene migration from North America to Eurasia via the Bering land bridge. A European species was sister to all of the eastern Asian species examined. The disjunct distribution pattern of the genus Eupatorium is incongruent with the classical Arcto-Tertiary geoflora concept.

Allozyme Diversity and the Evolution of Symplocos (Symplocaceae) on the Bonin (Ogasawara) Islands

To study the origin and speciation of plants in oceanic islands, electrophoretic analyses have been done on three endemic species ofSymplocos in the Bonin Islands as well as on three other species;S. kuroki, S. nakaharae andS. tanakae which are considered to be closely related to the Bonin endemics. There occur three species:S. kawakamii, S. pergracilis andS. boninensis in Bonin. The genusSymplocos is one which is considered to be diversified in the Bonin Islands.Seven enzyme systems presumed to be encoded by 18 loci were examined. The genetic diversity was low in the island species, as reported in some oceanic island plants of Hawaii and the Bonin Islands. The three endemics share high genetic identities and they clustered together in the tree drawn by the UPGMA method, suggesting that they are a monophyletic group, that is, they result from a single introduction.