Junko Kusumi

Phylogenetic relationships in Taxodiaceae and Cupressaceae sensu stricto based on matK gene, chlL gene, trnL-trnF IGS region, and trnL intron sequences

Nucleotide sequences from four chloroplast genes, the matK, chlL, intergenic spacer (IGS) region between trnL and trnF, and an intron of trnL, were determined from all species of Taxodiaceae and five species of Cupressaceae sensu stricto (s.s.). Phylogenetic trees were constructed using the maximum parsimony and the neighbor-joining methods with Cunninghamia as an outgroup. These analyses provided greater resolution of relationships among genera and higher bootstrap supports for clades compared to previous analyses. Results indicate that Taiwania diverged first, and then Athrotaxis diverged from the remaining genera. Metasequoia, Sequoia, and Sequoiadendron form a clade. Taxodium and Glyptostrobus form a clade, which is the sister to Cryptomeria. Cupressaceae s.s. are derived from within Taxodiaceae, being the most closely related to the Cryptomeria/Taxodium/Glyptostrobus clade. These relationships are consistent with previous morphological groupings and the analyses of molecular data. In addition, we found acceleration of evolutionary rates in Cupressaceae s.s. Possible causes for the acceleration are discussed.

The Tol1 transposable element of the medaka fish moves in human and mouse cells

AbstractDNA-based transposable elements can be used as tools for gene engineering and gene therapy. A great advantage over RNA-mediated elements and retroviruses is the simplicity and safety of usage. The Tol1 element of the medaka fish Oryzias latipes has structural features of DNA-based elements. Although its excision has already been demonstrated, de novo insertion has not been observed, and a transposase has not been hitherto identified. We first cloned, through in silico search alignments and genomic library screenings, a 4.4-kb Tol1 copy carrying open reading frames and then identified, by mRNA analysis, a 2.9-kb transcript coding for 851 amino acids. The protein product of this transcript catalyzed transposition of a nonautonomous Tol1 copy in human and mouse culture cells. This identification of a fully functional Tol1 transposase could lead to the development of new tools for basic and translational molecular biology applications in mammals.

Phylogenetic analyses suggest a hybrid origin of the figs (Moraceae: Ficus) that are endemic to the Ogasawara (Bonin) Islands, Japan.

The Ogasawara Islands are oceanic islands and harbor a unique endemic flora. There are three fig species (Ficus boninsimae, F. nishimurae and F. iidaiana) endemic to the Ogasawara Islands, and these species have been considered to be closely related to Ficus erecta, and to have diverged within the islands. However, this hypothesis remains uncertain. To investigate this issue, we assessed the phylogenetic relationships of the Ogasawara figs and their close relatives occurring in Japan, Taiwan and South China based on six plastid genome regions, nuclear ITS region and two nuclear genes. The plastid genome-based tree indicated a close relationship between the Ogasawara figs and F. erecta, whereas some of the nuclear gene-based trees suggested this relationship was not so close. In addition, the phylogenetic analyses of the pollinating wasps associated with these fig species based on the nuclear 28S rRNA and mitochondrial cytB genes suggested that the fig-pollinating wasps of F. erecta are not sister to those of the Ogasawara figs These results suggest the occurrence of an early hybridization event(s) in the lineage leading to the Ogasawara figs.

Compositional properties of green-plant plastid genomes

We studied variation of GC contents among plastid (Pt) genomes of green plants. In the green plants, the GC contents of the whole Pt genomes range from 42.14 to 28.81%. These values are similar to those observed in the mitochondrial (Mt) genomes of the green plants, however, the GC contents in the Pt genomes are not related to those in the Mt genomes or the nuclear (Nc) genomes. In addition, some compositional properties of the three types of genomes are different. Thus, it is suggested that the GC contents of the Pt genomes are maintained independently of the other genomes within a cell. We found that the compositional bias toward AT is strong at the third codon position and in intergenic spacer (IGS) regions in the Pt genomes, and the GC contents (GC3 and GCIGS) at these sites are generally similar within each genome. Additionally, the GC3 and GCIGS are strongly related to the whole-genome GC content. Therefore, the interspecific variation of the GC contents in the Pt genomes is suggested to be mainly caused by the variation of the GC3 and GCIGS, both of which are considered to be under weak selective constraints. Using a maximum likelihood approach, we estimated equilibrium GC3 (eqGC3) of 12 genes in the land-plant Pt genomes. We found an increase in eqGC3 after the divergence of liverworts. These results suggest that genome-wide factors such as GC mutational bias are important for the biased base composition in the Pt genomes.

Genetic Structure of Pelagic and Littoral Cichlid Fishes from Lake Victoria

The approximately 700 species of cichlids found in Lake Victoria in East Africa are thought to have evolved over a short period of time, and they represent one of the largest known examples of adaptive radiation. To understand the processes that are driving this spectacular radiation, we must determine the present genetic structure of these species and elucidate how this structure relates to the ecological conditions that caused their adaptation. We analyzed the genetic structure of two pelagic and seven littoral species sampled from the southeast area of Lake Victoria using sequences from the mtDNA control region and 12 microsatellite loci as markers. Using a Bayesian model-based clustering method to analyze the microsatellite data, we separated these nine species into four groups: one group composed of pelagic species and another three groups composed mainly of rocky-shore species. Furthermore, we found significant levels of genetic variation between species within each group at both marker loci using analysis of molecular variance (AMOVA), although the nine species often shared mtDNA haplotypes. We also found significant levels of genetic variation between populations within species. These results suggest that initial groupings, some of which appear to have been related to habitat differences, as well as divergence between species within groups took place among the cichlid species of Lake Victoria.

Multilocus patterns of nucleotide polymorphism and demographic change in Taxodium distichum (Cupressaceae) in the lower Mississippi River alluvial valley

UNLABELLED PREMISE OF THE STUDY Studies of the geographic patterns of genetic variation can give important insights into the past population structure of species. Our study species, Taxodium distichum L. (bald-cypress), prefers riparian and wetland habitats and is widely distributed in southeastern North America and Mexico. We compared the genetic variation of T. distichum with that of its close relative, Cryptomeria japonica, which is endemic to Japan. • METHODS Nucleotide polymorphisms of T. distichum in the lower Mississippi River alluvial valley, USA, were examined at 10 nuclear loci. • KEY RESULTS The average nucleotide diversity at silent sites, π(sil), across the 10 loci in T. distichum was higher than that of C. japonica (π(sil) = 0.00732 and 0.00322, respectively). In T. distichum, Tajimas D values were each negative at 9 out of 10 loci, which suggests a recent population expansion. Maximum-likelihood and Bayesian estimations of the exponential population growth rate (g) of T. distichum populations indicated that this species had expanded approximately at the rate of 1.7-1.0 × 10(-6) per year in the past. • CONCLUSIONS Taxodium distichum had significantly higher nucleotide variation than C. japonica, and its patterns of polymorphism contrasted strikingly with those of the latter, which previously has been inferred to have experienced a reduction in population size.

Characterization of a nonsense mutation inFAD7, the gene which encodesω-3 desaturase inArabidopsis thaliana

TheArabidopsis fad7-1 mutant is deficient in the activity of plastidω-3 desaturase as a direct consequence of being devoid ofFAD7 mRNA. Comparison of the genomic sequence from thefad7-1 mutant line (JB101) with the wildtype sequence revealed that the only single-base pair transition occurred within theFAD7 gene-coding region. Transgenic study and northern analysis both indicated that the absence ofFAD7 mRNA in thefad7-1 mutant was not caused by any disability regarding transcriptional regulation, but by the destabilization of the mRNA.

The Effect of Two Amino acid Residue Substitutions via RNA Editing on Dark-operative Protochlorophyllide Oxidoreductase in the Black Pine Chloroplasts

Dark-operative protochlorophyllide oxidoreductase (DPOR) is a key enzyme to produce chlorophyll in the dark. Among photosynthetic eukaryotes, all three subunits chlL, chlN, and chlB are encoded by plastid genomes. In some gymnosperms, two codons of chlB mRNA are changed by RNA editing to codons encoding evolutionarily conserved amino acid residues. However, the effect of these substitutions on DPOR activity remains unknown. We first prepared cyanobacterial ChlB variants with amino acid substitution(s) to mimic ChlB translated from pre-edited mRNA. Their activities were evaluated by measuring chlorophyll content of dark-grown transformants of a chlB-lacking mutant of the cyanobacterium Leptolyngbya boryana that was complemented with pre-edited mimic chlB variants. The chlorophyll content of the transformant cells expressing the ChlB variant from the fully pre-edited mRNA was only one-fourth of the control cells. Co-purification experiments of ChlB with Strep-ChlN suggested that a stable complex with ChlN is greatly impaired in the substituted ChlB variant. We then confirmed that RNA editing efficiency was markedly greater in the dark than in the light in cotyledons of the black pine Pinus thunbergii. These results indicate that RNA editing on chlB mRNA is important to maintain appropriate DPOR activity in black pine chloroplasts.

Extremely low nucleotide polymorphism in Pinus krempfii Lecomte, a unique flat needle pine endemic to Vietnam

Pinus krempfii Lecomte is a morphologically and ecologically unique pine, endemic to Vietnam. It is regarded as vulnerable species with distribution limited to just two provinces: Khanh Hoa and Lam Dong. Although a few phylogenetic studies have included this species, almost nothing is known about its genetic features. In particular, there are no studies addressing the levels and patterns of genetic variation in natural populations of P. krempfii. In this study, we sampled 57 individuals from six natural populations of P. krempfii and analyzed their sequence variation in ten nuclear gene regions (approximately 9 kb) and 14 mitochondrial (mt) DNA regions (approximately 10 kb). We also analyzed variation at seven chloroplast (cp) microsatellite (SSR) loci. We found very low haplotype and nucleotide diversity at nuclear loci compared with other pine species. Furthermore, all investigated populations were monomorphic across all mitochondrial DNA (mtDNA) regions included in our study, which are polymorphic in other pine species. Population differentiation at nuclear loci was low (5.2%) but significant. However, structure analysis of nuclear loci did not detect genetically differentiated groups of populations. Approximate Bayesian computation (ABC) using nuclear sequence data and mismatch distribution analysis for cpSSR loci suggested recent expansion of the species. The implications of these findings for the management and conservation of P. krempfii genetic resources were discussed.

Isolation and characterization of 15 polymorphic microsatellite markers for the fig-pollinating wasp, Blastophaga nipponica (Hymenoptera: Agaonidae)

We developed microsatellite markers for the fig-pollinating wasp Blastophaga nipponica Grandi using a dual-suppression-PCR technique. Twenty-one candidates of microsatellite loci were obtained, of which 15 yielded scorable patterns. The degree of polymorphism for the 15 loci was further characterized using summary statistics describing the genetic variation in 60 individuals from three natural populations in Japan. All 15 loci were polymorphic and yielded 2–27 alleles per locus. Overall observed heterozygosity (HO) and expected heterozygosity (HE) were 0.465 and 0.631, respectively. As expected, based on the inbreeding tendency of this species, the mean inbreeding coefficient (FIS) was high (= 0.255). These markers will contribute to studies on the population structure of this species.