Difference of Curcumin Content in Curcuma longa L. (Zingiberaceae) Caused by Hybridization with Other Curcuma Species

Difference of Curcumin Content in Curcuma longa L. (Zingiberaceae) Caused by Hybridization with Other Curcuma Species

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摘要 Curcumin, which is traditionally known to have effects on various types of diseases in humans, is found in Curcuma longa L. Previous reports have indicated that the curcumin content varies between the different lines of this species. To clarify the differences in the amounts of curcumin between the lines, we investigated the outcomes of cultivation ex-periments with the hybridization or introgression between C. longa and other Curcuma species using the matK gene of chloroplast DNA (cpDNA) and the external transcribed spacer (ETS) of nuclear DNA (nrDNA). The results show that there is heterogeneity of the ETS and incongruence between the matK and the ETS phylogenetic trees, suggesting that hybridization and introgression had taken place in the diversification of the various lines of C. longa. Moreover, al-though all of the lines had the same cpDNA haplotype of C. longa, the lines of homogeneous C. longa had a high con-tent of curcumin, whereas the lines created by hybridization and introgression with other Curcuma species had a me-dium or low level. These results suggest that the difference of curcumin content among the various lines of C. longa was caused by hybridization and introgression with other Curcuma species. Curcumin, which is traditionally known to have effects on various types of diseases in humans, is found in Curcuma longa L. Previous reports have indicated that the curcumin content varies between the different lines of this species. To clarify the differences in the amounts of curcumin between the lines, we investigated the outcomes of cultivation ex-periments with the hybridization or introgression between C. longa and other Curcuma species using the matK gene of chloroplast DNA (cpDNA) and the external transcribed spacer (ETS) of nuclear DNA (nrDNA). The results show that there is heterogeneity of the ETS and incongruence between the matK and the ETS phylogenetic trees, suggesting that hybridization and introgression had taken place in the diversification of the various lines of C. longa. Moreover, al-though all of the lines had the same cpDNA haplotype of C. longa, the lines of homogeneous C. longa had a high con-tent of curcumin, whereas the lines created by hybridization and introgression with other Curcuma species had a me-dium or low level. These results suggest that the difference of curcumin content among the various lines of C. longa was caused by hybridization and introgression with other Curcuma species.

作者 Hiroshi Hayakawa Yukio Minaniya Katsura Ito Yoshinori Yamamoto Tatsuya Fukuda

机构地区不详

出处《American Journal of Plant Sciences》 2011年第2期111-119,共9页 美国植物学期刊（英文）

关键词 CURCUMA longa CURCUMIN HYBRIDIZATION INTROGRESSION Molecular analysis Nuclear DNA Curcuma longa Curcumin Hybridization Introgression Molecular analysis Nuclear DNA

分类号 R73 [医药卫生—肿瘤]

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American Journal of Plant Sciences

2011年第2期

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Difference of Curcumin Content in Curcuma longa L. (Zingiberaceae) Caused by Hybridization with Other Curcuma Species

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