Genetic structure and genetic diversity of Artemisia annua varieties (strains) populations based on SCoT markers.
- Author:
Da-xia CHEN
;
Guang-lin CUI
;
Xue ZHANG
;
Long-yun LI
- Publication Type:Journal Article
- MeSH:
Artemisia annua;
classification;
genetics;
Codon, Initiator;
genetics;
Genetic Markers;
genetics;
Genetic Structures;
Genetic Variation;
Genetics, Population;
methods;
Phylogeny;
Polymorphism, Genetic;
Species Specificity
- From:
China Journal of Chinese Materia Medica
2014;39(17):3254-3258
- CountryChina
- Language:Chinese
-
Abstract:
To reveal the genetic diversity and genetic structure in Artemisia annua varieties (strains) populations, we detected the genetic polymorphism within and among eight varieties (strains) populations (192 individuals) by the approach of Start Codon Targeted Polymorphism (SCoT). The associated genetic parameters were calculated by POPGENE1.31 and the relationship was constructed based on UPGMA method. The results showed that, using 20 screened primers, a total of 145 bands were produced, of which 122 were polymorphic loci. At species level, there was a high level of genetic diversity among eight varieties (strains) populations (PPB = 84.1% ,H = 0.217 3 and H(sp) = 0.341 9). However, at the variety (strains) population level, genetic diversity was lower, the average of genetic parameters was PPB = 41.9%, H = 0.121 5, H(pop) = 0.186 8. The Nei's genetic differentiation coefficient was 0.441 0, indicate that most of the genetic variation in this species existed within the variety populations. The gene flow (N(m) = 0.633 9) was less among populations, indicating that the degree of genetic differentiation was higher. Genetic similarity coefficient were changed from 0.755 1 to 0.985 7. By clustering analysis, eight varieties (strains) were clustered into two major categories and it was also showed the same or similar genetic background varieties (strains) have a tendency to gather in the same group. Results suggest that, in variety breeding, breeders should strengthen the exchange of bred germplasm and increase mutual penetration of excellent genes, which would broaden the genetic base of A. annua.
