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Showing 4 results for Medicinal Plant

Valiollah Yousefi, Abdollah Najaphy, Alireza Zebarjadi, Hooshmand Safari,
Volume 1, Issue 1 (5-2014)
Abstract

Thymus, an aromatic medicinal plant, is a well-known, perennial and woody herb from Lamiaceae family. Thymus is taxonomically a very complex genus with a high frequency of hybridization and introgression among sympatric species, and some species of this herb are endemic to Iran. In the present study, in order to identification genetic variability in this medicinal plant seven Thymus spp. accessions collected from different regions of Iran along with London agricultural species were studied by karyotypic characteristics. The secondary basic numbers in all ecotypes was x = 15 that probably originate from a primary basic number x = 7. The ploidy levels of these ecotypes were diploid and tetraploid. The Thymus ecotypes under study occupied classes 1A and 1B of Stebbins’ karyotype classification, indicating the presence of a primitive symmetrical karyotype in these ecotypes. The mean chromosome length ranged from 1.03 to 1.53 µm. chromosome types were detected as metacentric “m”. Furthermore, the cluster analysis using chromosomal parameters and based on UPGMA assigned the ecotypes into four groups.
Syed Mehran Alavi Mehryan, Nasser Zare, Asad Masumiasl, Parisa Sheikhzadeh, Rasool Asghari,
Volume 7, Issue 1 (9-2020)
Abstract

Ferulago angulata (Schlecht) Boiss is one of the valuable and endemic medicinal plants of Iran, which is of great importance due to the source of terpenoid compounds and antimicrobial properties. In current study, the effects of different concentrations of salicylic acid and yeast extract in cell suspension culture of F.angulata on expression pattern of the HMGR and GPPS genes (involved in terpenes biosynthesis) were investigated for the first time. The F. angulata cell suspension cultures were initiated and established using calli derived from leaf explants, and salicylic acid and yeast extract elicitors (with 50, 100 and 150 mg/L concentrations) were added to the cultures during active growth. Then, the cell samples were prepared at 24, 48 and 72 hours after treatment. Analysis of expression pattern of HMGR and GPPS genes using Real-time PCR showed that the expression of both genes were significantly influenced by the type and concentration of the elicitors and also the times after treatment. The relative expression of HMGR and GPPS genes under elicitors were increased compared to the control, and furthermore, the increase in the relative expression of these genes under salicylic acid treatment was significantly higher than that of yeast extract treatment. The highest relative expression of GPPS and HMGR genes was related to 100 mg/L salicylic acid treatment at 24 hours after treatment. However, the highest relative expression of these genes was observed under the 24 and 72 hours after treatment of 150 mg/L yeast extract. The results of this study could be useful in metabolic engineering of F. angulata.

Abbas Gholipour, Seyed Kamal Kazemitabar, Sara Sharifi Soltani,
Volume 7, Issue 2 (3-2021)
Abstract

Sweet flag (Acorus calamus) is a perennial, semi-aquatic and aromatic plant of the family Acoraceae that, in addition to its multiple medicinal properties, is used in health, food and agricultural industries (as pest control). This research was conducted to comparasion study of genetic diversity of natural and regenerated plants from tissue culture of Arzefon, Pelesk and Alandan populations of Sweet flag by using ISSR molecular markers. Out of 15 screened primers, 9 primers produced the most polymorphic bands. Totally, these primers generated 83 bands, of which 52 bands (62.65%) were polymorphic. The percentage of polymorphic locus for natural and regenerated plants was 43.37% and 55.42%, respectively, and Nei’s genetic diversity (H) was calculated to be 0.239 for the two studied groups. The Shannon’s index (I) for natural and regenerated plants was estimated to be 0.251 ± 0.033 and 0.299 ± 0.031, respectively. Among the natural and regenerated groups, the highest genetic similarity was observed between the samples of Alandan population (0.63), and the lowest value was observed between the samples of Pelesk population (0.44). Analysis of molecular variance (AMOVA) showed that 94 % of genetic variation attributed to whithin groups and 6 % to between groups. Based on the results, the genetic diversity of the regenerated plants was higher than the natural plants. According to the results of the present research, the lowest rate of genetic divergence was observed between natural and regenerated plants of Alandan populatiuon, so the plants of this population could be suitable for domestication and cultivation in Iran.

Saeid Navabpour, Ahad Yamchi, Sasan Golcheshmeh,
Volume 8, Issue 1 (8-2021)
Abstract

The present study was performed to classify and study genetic diversity between Calotropis procera accessions from different regions of Kerman province (Iran) using ISSR markers. In total, DNA from 14 plant samples with nine ISSR primers was amplified by PCR and their banding pattern was obtained. The primers showed acceptable polymorphism (35.93) and minimum and maximum polymorphic information content (PIC) of primers in this study were 0.11 for ISSR9 primer and 0.41 for ISSR3 and ISSR8 primers, respectively. Genetic similarity based on Nei index was varied from 0.405 to 0.745 and the lowest genetic similarity was found between J3 (Related to Jiroft) and D2 (Related to Dosari) and the highest genetic similarity was found between J1 and J2 (both of them for Jiroft). By using UPGMA cluster analysis, samples divided into four groups, and the second and third groups contained more accessions. In terms of genetic similarity, two accessions of Jiroft 1 (J1) and Jiroft 2 (J2) which classified in the same cluster were closer. Also, the accessions collected from Anbarabad were at a longer genetic distance than other accessions. Principal coordinate analysis also showed that the first and second components justify 67 percent of obtained genetic diversity. In general, ISSR markers were useful for classifying Calotropis procera accessions and according to the obtained information about existence of genetic diversity between Calotropis procera accessions of Kerman province, this diversity could be useful in the future for breeding and production of Calotropis procera.


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