
Genetic diversity analysis of the medicinal plant Heracleum persicum desf. ex fischer
Author(s) -
Faegheh Behzadifar,
Sayeh Jafari,
Ahmad Majd,
Fahimeh Salimpour,
Sedigheh Arbabian
Publication year - 2021
Publication title -
genetika
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.24
H-Index - 15
eISSN - 1820-6069
pISSN - 0534-0012
DOI - 10.2298/gensr2102757b
Subject(s) - genetic diversity , analysis of molecular variance , biology , molecular marker , genetic variation , genetic structure , conservation genetics , genetic marker , rapd , microsatellite , genetic variability , botany , evolutionary biology , traditional medicine , population , genetics , gene , genotype , allele , medicine , demography , sociology
Persian hogweed (Heracleum persicum Desf. ex Fischer) is native to Iran but was introduced to Europe as an invasive plant. It has medicinal and edible values. Its fruits have been used to relieve flatulence, stomach aches as well as a flavoring as a digestive and an antiseptic. This medicinal plant forms many geographical populations in the country, particularly in mountainous regions; however, we have no data on the genetic structure and genetic diversity of this plant species. Such information can be used in gene pool identification and future genetic conservation and breeding programs. Therefore, the present study was performed with the following aims: 1- Provide data on genetic diversity of geographical populations, 2- Identify the potential gene pools for future genetic conservation and breeding programs. We used both Inter-simple sequence repeats (ISSR) and the Start Codon Targeted (SCoT) molecular markers as these are suitable molecular markers for genetic diversity investigations. There are highly polymorphic, reproducible, and relatively low cost markers. The present study revealed that both ISSR and SCoT markers produce data on the genetic variability and genetic affinity of the local populations. Both molecular markers revealed a good level of genetic variability within and among Heracleum persicum populations. Analysis of molecular variance (AMOVA) produced a significant differences between geographical populations for both markers. We could identify few ISSR as well as SCoT bands which can differentiate the studied populations. The moderate to a good level of genetic diversity we observed within each H. persicum may be due to cross pollination. In conclusion, we suggest using combination of ISSR and SCoT molecular markers to study population genetic variability in H. persicum geographical populations for future genetic conservation and germplasm collection of this medicinal plant.