The genetic diversity of the populations for 14 wild green peafowls (Pavo muticus) and 18 captive green pea-fowls was investigated by using the technology of random amplified polymorphic DNA (RAPD). Totally 161 and 16...The genetic diversity of the populations for 14 wild green peafowls (Pavo muticus) and 18 captive green pea-fowls was investigated by using the technology of random amplified polymorphic DNA (RAPD). Totally 161 and 166 ampli-fied bands were obtained by using 23 arbitrary primers to amplify the genomic DNA of wild and captive green peafowls re-spectively. The results showed that the average relative genetic distance of the wild and captive green peafowls popula-tions was 0.0555 and 0.1355, respectively, and difference of the average relative genetic distances between the two popu-lations was 0.1635. The Shannon diversity index for the wild and captive green peafowl populations was 0.4348 and 1.0163, respectively, which means that there exists significant difference in genetic diversity between the two populations, and the genetic diversity of wild green peafowl was low. The two populations originated from two different families according to analysis by the UPGMA method. This research can provide the theoretical basis for supervising genealogies management of peafowl populations.展开更多
Some Angelica species are used for medicinal purposes. In particular, the roots of Angelica acutiloba var. acutiloba and A. acutiloba var. sugiyamae, known as “Toki” and “Hokkai Toki”, respectively, are used as im...Some Angelica species are used for medicinal purposes. In particular, the roots of Angelica acutiloba var. acutiloba and A. acutiloba var. sugiyamae, known as “Toki” and “Hokkai Toki”, respectively, are used as important medicinal materials in traditional Japanese medicine. However, since these varieties have recently outcrossed with each other, it is difficult to determine whether the Japanese Angelica Root material used as a crude drug is the “pure” variety. In this study, we developed an efficient method to authenticate A. acutiloba var. acutiloba and A. acutiloba var. sugiyamae from each other and from other Angelica species/varieties. The random amplified polymorphic DNA (RAPD) method efficiently discriminated each Angelica variety. A. acutiloba var. sugiyamae was identified via a characteristic fragment amplified by the decamer primer OPD-15. This fragment showed polymorphisms among Angelica species/varieties. The unique fragment derived from A. acutiloba var. sugiyamae was also found in one strain of A. acutiloba var. acutiloba, implying that this strain arose from outcrossing between A. acutiloba var. acutiloba and A. acutiloba var. sugiyamae. This RAPD marker technique will be useful for practical and accurate authentication among A. acutiloba var. acutiloba, A. acutiloba var. sugiyamae, and their adulterants.展开更多
文摘The genetic diversity of the populations for 14 wild green peafowls (Pavo muticus) and 18 captive green pea-fowls was investigated by using the technology of random amplified polymorphic DNA (RAPD). Totally 161 and 166 ampli-fied bands were obtained by using 23 arbitrary primers to amplify the genomic DNA of wild and captive green peafowls re-spectively. The results showed that the average relative genetic distance of the wild and captive green peafowls popula-tions was 0.0555 and 0.1355, respectively, and difference of the average relative genetic distances between the two popu-lations was 0.1635. The Shannon diversity index for the wild and captive green peafowl populations was 0.4348 and 1.0163, respectively, which means that there exists significant difference in genetic diversity between the two populations, and the genetic diversity of wild green peafowl was low. The two populations originated from two different families according to analysis by the UPGMA method. This research can provide the theoretical basis for supervising genealogies management of peafowl populations.
文摘Some Angelica species are used for medicinal purposes. In particular, the roots of Angelica acutiloba var. acutiloba and A. acutiloba var. sugiyamae, known as “Toki” and “Hokkai Toki”, respectively, are used as important medicinal materials in traditional Japanese medicine. However, since these varieties have recently outcrossed with each other, it is difficult to determine whether the Japanese Angelica Root material used as a crude drug is the “pure” variety. In this study, we developed an efficient method to authenticate A. acutiloba var. acutiloba and A. acutiloba var. sugiyamae from each other and from other Angelica species/varieties. The random amplified polymorphic DNA (RAPD) method efficiently discriminated each Angelica variety. A. acutiloba var. sugiyamae was identified via a characteristic fragment amplified by the decamer primer OPD-15. This fragment showed polymorphisms among Angelica species/varieties. The unique fragment derived from A. acutiloba var. sugiyamae was also found in one strain of A. acutiloba var. acutiloba, implying that this strain arose from outcrossing between A. acutiloba var. acutiloba and A. acutiloba var. sugiyamae. This RAPD marker technique will be useful for practical and accurate authentication among A. acutiloba var. acutiloba, A. acutiloba var. sugiyamae, and their adulterants.