Curcuma drugs have been used discriminatingly for invigorating blood circulation, promoting digestion, and as a cholagogic in China. However, there is confusion about the drug's botanical origins and clinical uses because of morphological similarity of Curcuma plants and drugs. Comparative sequencing of the 18S rRNA gene in nuclear ribosomal DNA (rDNA) and trnK gene in chloroplast DNA (cpDNA) was carried out in order to examine interspecies phylogeny and to identify ultimately Curcuma species. A total of a hundred of accessions of eighteen species were analyzed. This resulted in an aligned matrix of 1810 bp for 18S rDNA and 2 800 bp for trnK. 18S rDNA sequence divergence within the ingroup ranged from 0-0.05%, trnK ranged from 0-0.19%. One base transversion-substituted site (from cytosine to thymine) was observed from the upstream of 18S rDNA at nucleotide position 234 in C. kwangsiensis and Japanese population of C. zedoaria which have separated genetic distance to other Curcuma taxa. Two noncoding regions embedded in trnK intron showed higher variability, including nucleotide substitutions, repeat insertion and deletions. Based on consensus of relationship, eighteen major lineages within Curcuma are recognized at the species level. The results suggest that Curcuma is monophyletic with 100% bootstrap support and sister to the genera Hedychium and Zingiber. The trnK sequences showed considerable variations between Curcuma species and thus were revealed as a promising candidate for barcoding of Curcuma species, which provide valuable characters for inferring relationship within species but are insufficient to resolve relationships among closely related taxa.

As many natural medicines absorb water at boiling, yields of the decoctions are affected by absorbed water. Therefore, we examined the quantity of imbibition of each crude drug at boiling. We used 75 kinds of crude drugs. After boiling 600ml of water, each natural medicine was boiled for 70 minutes. The medicine was left for 60 minutes, and then boiled again for 20 minutes. The quantity of imbibition of each natural medicine was measured at 10, 20, 30, 40, 60, 130, and 150 minutes. The maximum data among the quantity of imbibition at each point was labeled “maximum quantity of imbibition.” With regard to the maximum quantity of imbibition in natural medicines of plant origin, the range was from a maximum of 69.10g in Chrisanthemi Flos to a minimum of 3.26g in Persicae Semen. The average maximum quantity of imbibition was 22.51±13.00g, and there were large differences among each of the natural medicines. The quantity of imbibition at 10 minutes or 20 minutes was above 80% of each maximum quantity of imbibition on many crude drugs, but that gradually increased over the time course for some crude drugs.

We used questionnaires to assess training in the use of Kampo medicine which took place mostly at our outpatient clinic. Most of the 18 trainees (6 medical doctors and 12 medical students) felt that the quantity and the quality of the lectures and the amount of time spent in the outpatient clinic were satisfactory. In addition, all trainees thought that attending the outpatient clinic was the most instructive activity and made the deepest impression, but 14 of the 18 trainees (78%) thought that it was a difficult learning strategy. Fifteen trainees (83%) rated this training curriculum as good or very good. Sixteen trainees (88%) were conscious of a change in their study or work attitudes 3 to 6 months after training; this result suggests that this curriculum has an educational effect.

Curcuma drugs have been used discriminatingly for invigorating blood circulation, promoting digestion, and as a cholagogic in China. However, there is confusion about the drug's botanical origins and clinical uses because of morphological similarity of Curcuma plants and drugs. Comparative sequencing of the 18S rRNA gene in nuclear ribosomal DNA (rDNA) and trnK gene in chloroplast DNA (cpDNA) was carried out in order to examine interspecies phylogeny and to identify ultimately Curcuma species. A total of a hundred of accessions of eighteen species were analyzed. This resulted in an aligned matrix of 1810 bp for 18S rDNA and 2 800 bp for trnK. 18S rDNA sequence divergence within the ingroup ranged from 0-0.05%, trnK ranged from 0-0.19%. One base transversion-substituted site (from cytosine to thymine) was observed from the upstream of 18S rDNA at nucleotide position 234 in C. kwangsiensis and Japanese population of C. zedoaria which have separated genetic distance to other Curcuma taxa. Two noncoding regions embedded in trnK intron showed higher variability, including nucleotide substitutions, repeat insertion and deletions. Based on consensus of relationship, eighteen major lineages within Curcuma are recognized at the species level. The results suggest that Curcuma is monophyletic with 100% bootstrap support and sister to the genera Hedychium and Zingiber. The trnK sequences showed considerable variations between Curcuma species and thus were revealed as a promising candidate for barcoding of Curcuma species, which provide valuable characters for inferring relationship within species but are insufficient to resolve relationships among closely related taxa.
China ; Curcuma ; classification ; genetics ; DNA Mutational Analysis ; DNA, Chloroplast ; genetics ; DNA, Plant ; genetics ; Introns ; Japan ; Molecular Sequence Data ; Nucleic Acid Amplification Techniques ; Phylogeny ; Plants, Medicinal ; classification ; genetics ; Plastids ; genetics ; RNA, Ribosomal, 18S ; genetics ; Sequence Analysis, DNA