Allyl isothiocyanate and 6-(methylsulfinyl) hexyl isothiocyanate contents vary among wild and cultivated wasabi (Eutrema japonium).

Wasabi (Japanese horseradish, Eutrema japonicum) is the only cultivated species in the genus Eutrema with functional components that provide a strong pungent flavor. To evaluate genetic resources for wasabi breeding, we surveyed variations in the two most abundant isothiocyanate (ITC) components in wasabi, allyl isothiocyanate (AITC) and 6-methylsulfinyl (hexyl) isothiocyanate (6-MSITC, hexaraphane). We also examined the phylogenetic relationships among 36 accessions of wild and cultivated wasabi in Japan using chloroplast DNA analysis. Our results showed that (i) the 6-MSITC content in currently cultivated wasabi accessions was significantly higher than in escaped cultivars, whereas the AITC content was not significantly different. (ii) Additionally, the 6-MSITC content in cultivated wasabi was significantly lower in the spring than during other seasons. This result suggested that the 6-MSITC content responds to environmental conditions. (iii) The phylogenetic position and the 6-MSITC content of accessions from Rebun, Hokkaido Prefecture had different profiles compared with those from southern Honshu, Japan, indicating heterogeneity of the Rebun populations from other Japanese wasabi accessions. (iv) The total content of AITC and 6-MSITC in cultivated wasabi was significantly higher than that of wild wasabi. In conclusion, old cultivars or landraces of wasabi, "zairai", are the most suitable candidates for immediate use as genetic resources.

Haplotype-resolved chromosomal-level assembly of wasabi (Eutrema japonicum) genome.

In Japan, wasabi (Eutrema japonicum) is an important traditional condiment, and is recognized as an endemic species. In the present study, we generated a chromosome-level and haplotype-resolved reference genome for E. japonicum using PacBio CLR (continuous long reads), Illumina, and Hi-C sequencing data. The genome consists of 28 chromosomes that contain 1,512.1 Mb of sequence data, with a scaffold N50 length of 55.67 Mb. We also reported the subgenome and haplotype assignment of the 28 chromosomes by read-mapping and phylogenic analysis. Three validation methods (Benchmarking Universal Single-Copy Orthologs, Merqury, and Inspector) indicated that our obtained genome sequences were a high-quality and high-completeness genome assembly. Comparison of genome assemblies from previously published genomes showed that our obtained genome was of higher quality. Therefore, our genome will serve as a valuable genetic resource for both chemical ecology and evolution research of the genera Eutrema and Brassicaceae, as well as for wasabi breeding.

Complete chloroplast genome sequence and phylogenetic analysis of wasabi (Eutrema japonicum) and its relatives.

In Japan, two Eutrema species, wasabi (Eutrema japonicum, the important traditional Japanese condiment) and yuriwasabi (E. tenue), have been recognized as endemic species. We sequenced complete chloroplast (cp) genomes of seven wasabi and yuriwasabi accessions from Japan to study their phylogeny and evolution, using molecular dating of species divergence. Phylogenetic analyses of the complete cp DNA of these two Japanese species and five other Eurasian Eutrema species revealed that wasabi and yuriwasabi did not form a monophyletic group. One yuriwasabi accession (Gifu) formed a clade with E. yunnanense from China, indicating that this accession should be considered as a different species from the other yuriwasabi accessions. We reveal that Japanese Eutrema species diverged from the 'E. yunnanense-yuriwasabi (Gifu)' clade approximately 1.3 million years ago (Mya), suggesting that the connection between Japan and the Eurasian continent has existed more recently than the Quaternary period. The abundance of cp sequence data in this study also allowed the detection of genetic differentiation among wasabi cultivars. The two polymorphic sites detected between 'Fujidaruma' and 'Shimane No.3' were used to develop genotyping markers. The cp genome information provided here will thus inform the evolutionary histories of Japanese Eutrema species and help in genotyping wasabi cultivars.

Pattern and rate of indel evolution inferred from whole chloroplast intergenic regions in sugarcane, maize and rice.

Microstructural changes such as insertions and deletions (=indels) are a major driving force in the evolution of non-coding DNA sequences. To better understand the mechanisms by which indel mutations arise, as well as the molecular evolution of non-coding regions, the number and pattern of indels and nucleotide substitutions were compared in the whole chloroplast genomes. Comparisons were made for a total of over 38 kb non-coding DNA sequences from 126 intergenic regions in two data sets representing species with different divergence times: sugarcane and maize and Oryza sativa var. indica and japonica. The main findings of this study are: (i) Approximately half of all indels are single nucleotide indels. This observation agrees with previous studies in various organisms. (ii) The distribution and number of indels was different between two data sets, and different patterns were observed for tandem repeat and non-repeat indels. (iii) Distribution pattern of tandem repeat indels showed statistically significant bias towards A/T-rich. (iv) The rate of indel mutation was estimated to be approximately 0.8 +/- 0.04 x 10(-9) per site per year, which was similar to previous estimates in other organisms. (v) The frequencies of nucleotide substitutions and indels were significantly lower in inverted repeat (IR).

Aged garlic extract inhibits angiogenesis and proliferation of colorectal carcinoma cells.

Because colorectal cancer is likely to develop in many people at some point during their lives, prevention has become a high priority. Diet and nutrition play an important role during the multistep colon carcinogenic process. Garlic has been traditionally used as a spice and is well known for its medicinal properties; several studies have indicated its pharmacologic functions, including its anticarcinogenic properties. However, the mechanisms by which garlic can prevent colorectal cancer remain to be elucidated. This study investigated the effect of aged garlic extract (AGE) on the growth of colorectal cancer cells and their angiogenesis, which are important microenvironmental factors in carcinogenesis. AGE suppressed the proliferation of 3 different colorectal cancer cell lines-HT29, SW480, and SW620-in the same way, but its effects on the invasive activities of these 3 cell lines were different. the invasive activities of SW480 and SW620 cells were inhibited by AGE, whereas AGE had no effect on the invasive activity of Ht29 cells. The action of AGE appears to be dependent on the type of cancer cell. On the other hand, AGE enhanced the adhesion of endothelial cells to collagen and fibronectin and suppressed cell motility and invasion. AGE also inhibited the proliferation and tube formation of endothelial cells potently. These results suggest that AGE could prevent tumor formation by inhibiting angiogenesis through the suppression of endothelial cell motility, proliferation, and tube formation. AGE would be a good chemopreventive agent for colorectal cancer because of its antiproliferative action on colorectal carcinoma cells and inhibitory activity on angiogenesis.

Intra- and interspecific phylogenetic relationships among diploid Triticum-Aegilops species (Poaceae) based on base-pair substitutions, indels, and microsatellites in chloroplast noncoding sequences.

This study analyzes intra- and interspecific variation in chloroplast DNA (cpDNA) in diploid Triticum-Aegilops species. This analysis focused on DNA sequence variation in noncoding regions of cpDNA, which included base-pair substitutions, insertion/deletions (indels, 50 loci pooled), microsatellites (7 loci pooled), and inversions. Nine of 13 Triticum-Aegilops species were successfully identified and genotyped using these data. Sixty-two haplotypes were detected in 115 accessions of 13 diploid species. Because of the large number of characters examined, novel deep relationships within and among Triticum-Aegilops species could be identified and evaluated. Phylogenetic trees for the genus Triticum-Aegilops were constructed with Hordeum vulgare and Dasypyrum villosum as outgroups, and the results were compared to previous studies. These data support the following inferences: (1) Aegilops species should be included in Triticum; (2) groups D, T, M, N, U, and section Sitopsis (except Ae. speltoides) underwent speciation concurrently, but most diploid species evolved independently; (3) Ae. mutica does not occupy a basal position in Triticum-Aegilops; (4) Ae. speltoides is in a basal position and differs significantly from other Sitopsis species; (5) Ae. caudata is polyphyletic in all trees; (6) the genus Aegilops is paraphyletic with Secale.

Intraspecific cpDNA variations of diploid and tetraploid perennial buckwheat, Fagopyrum cymosum (Polygonaceae).

We investigated the phylogenetic and biogeographic relationships of natural populations of diploid and tetraploid Fagopyrum cymosum (Polygonaceae). Intraspecific variation of chloroplast DNA sequences was detected in three regions approximately 5 kb long in total: the 3' end of rbcL, accD and associated intergenic spacer region, the trnC (GCA)-rpoB spacer region, the trnK (UUU) intron, and the matK region. The accessions of F. cymosum were divided into two major groups, a Tibet-Himalayan clade and a Yunnan-Sichuan clade, with a high bootstrap probability. It was estimated that these two clades diverged about 0.7 million years ago. The geographical and climatic interruption by the Hengduanshan mountains might have caused the genetic divergence in F. cymosum. Autotetraploid populations of F. cymosum have arisen allopatrically from a diploid progenitor at least twice, once in the Tibet-Himalayan area and once in the Yunnan-Sichuan area. This conclusion reinforces a previous study based on allozyme variation. We also found that F. tataricum, a close relative of F. cymosum, was completely included within the Tibet-Himalayan clade in the phylogenetic tree. This suggests that F. tataricum speciated from F. cymosum in the Tibet-Himalayan area.

Two new Fagopyrum (Polygonaceae) species, F. gracilipedoides and F. jinshaense from Yunnan, China.

Two new Fagopyrum (Polygonaceae) species, F. gracilipedoides and F. jinshaense, are described. Fagopyrum gracilipedoides was only found at Baoshan village, Lijiang district, Yunnan province, China. This species resembles the weedy species, F. gracilipes in morphology but they differ in both mating system and ploidy level; F. gracilipedoides is a heterostylous self-incompatible diploid species (2n = 16), whereas F. gracilipes is a self-compatible tetraploid species (2n = 32). Fagopyrum jinshaense was found along the Jinsha River valley near the border of Sichuan, Yunnan, and Tibet in China. Fagopyrum jinshaense is morphologically similar to F. gilesii, but they differ in the morphology of their inflorescences. Fagopyrum jinshaense has long spike-like inflorescences, whereas F. gilesii has a compact head-like one. Both F. jinshaense and F. gilesii are self-incompatible with heterostylous flowers and are diploid. Interspecific crosses between the two new species and already known species in the urophyllum group of Fagopyrum resulted in the production of self- and cross-sterile hybrids in the species combinations attempted. These results indicated that both new species are reproductively isolated from other Fagopyrum species. Molecular phylogenetic analysis based on the nucleotide sequence of the trnK gene intron in chloroplast DNA revealed the following points: 1) F. gracilipedoides, F. rubifolium and F. gracilipes / F. capillatum showed a trifurcating relationship and 2) F. jinshaense formed a clade with F. pleioramosum, F. callanthum, and F. macrocarpum, and was only distantly related to F. gilesii. In the clade of F. capillatum, F. gracilipes, F. gracilipedoides and F. rubifolium, the breakdown of self-incompatibility accompanying genome duplication seems to have occurred twice independently.