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Showing 5 results for Azizi
Fatemeh Darvishnia, Mohammadhadi Pahlevani, Khalil Zaynali Nezhad, Khosro Azizi, Saied Bagherikia,
Volume 7, Issue 1 (9-2020)
Abstract
In order to determine the most effective indices for quantifying drought tolerance and identify genotypes that are tolerant to water stress in bread wheat, 50 bread wheat genotypes were compared in a randomized complete block design with three replications under both the non-stress dry farming with two complementary irrigation and the water stress dry farming conditions in Khorramabad, Iran. Analysis of variance showed that there was a significant difference among the genotypes in terms of all of the traits except the number of spike per area. In this study, eight indices including: Stress Tolerance Index (STI), Geometric Mean Productivity (GMP), Mean Productivity (MP), Yield Index (YI), Harmonic Mean (HM), Yield Stability Index (YSI), Stress Susceptibility Index (SSI), and Tolerance index (TOL) were calculated by using of seed yield of the genotypes under both conditions. Indices that selection based on them will improve the yield in both conditions, are considered as suitable index. STI, GMP, MP and HM were introduced as suitable index for drought resistance selection. Genotypes Shiroodi and S-90-5 were determined as the most appropriate based on 3D plot. Based on positive correlation between water stress resistance indices and yield under stress and non-stress environments, STI and GMP were the best indices. By using the Biplot method, Shiroodi, S-90-5 and Oroum genotypes were considered as high yielding potential genotypes under the both conditions. According to the results of cluster analysis, genotypes were classified into three groups based on drought tolerance indices. Graphical analysis of genotypes also showed that genotypes Shiroodi and S-90-5 were more profitable than others under both drought stress and non-drought stress conditions. These genotypes could also be used as parents caring desirable genes in the crossing programs and selection of tolerate genotypes.
Razieh Azizian Mosleh, Mohammad Reza Abdollahi, Hassan Sarikhani, Asghar Mirzaie-Asl, Payam Pour Mohammadi,
Volume 7, Issue 2 (3-2021)
Abstract
Optimization of in vitro methods for the production of maize double haploids plays an important role in the breeding programs of this plant. In this study, the effects of 5-azacytidine on agronomic traits, androgenesis induction efficiency and also, DNA methyltransferase gene expression (AF229183.1) in two growth stages of maize were investigated. This experiment was performed as factorial based on a completely randomized block design with three replications. Two maize genotypes (DH5 × DH7 and ETMH-82) were considered as the first factor and treatment of maize seeds with 5-azacytidine (0, 5, 10, and 100 μM) was considered as the second factor. The maize seeds were sowed in the field and during the growth stages, various morphological and agronomic traits were recorded. In the anther culture experiment, the suitable anthers containing microspores at mid to late-uninucleate stages were selected and cultured in an YPm culture medium containing 1 mg/l 2, 4-D, and 2 mg/l BAP. Interaction effects of genotype and 5-azacytidine concentrations showed significant differences for the majority of studied traits except for number of kernel per ear row, kernel depth, plant diameter, number of leaves and number of ears. The highest amounts of 1000-kernel weight were obtained with treatments of 10 and 100 μM and the highest ones for grain yield and biological yield traits were obtained with 100 μM 5-azacytidine treatment for both genotypes. Seeds of DH5 × DH7 genotype treated with 5 μM 5-azacYtidine produced the highest mean number of embryo-like structures (0.1833) and regenerated plantlets (0.067) per each anther. Relative expression of DNA methyltransferase gene in maize seeds treated with different concentrations of 5-azacytidine showed a significant decrease in both genotypes and both growth stages compared to control plants (treated with 0 μM 5-azacytidine), that this decrease in gene expression could lead to improved androgenesis induction in anther culture of DH5 × DH7 genotype. However, despite the decrease in expression of this gene in two growth stages of ETMH-82 genotype, androgenesis induction was not observed in this genotype. The results of the present study can help to determine the role of epigenetic factors in androgenesis induction and improving the production of haploid plants in maize.
Rizan Elyasi, Mohammad Majdi, Abdolbaset Azizi,
Volume 8, Issue 2 (3-2022)
Abstract
Black cumin (Nigella sativa) is a medicinal plant of the Ranunculacea family which raised attention due to its pharmaceutical properties. Medical significance of N. sativa mainly attributed to its oxygenated monoterpenes which are biosynthesized via the methyl erythritol phosphate (MEP) pathway located in plastids. In this study, the essential oil components of leaves, flowers, and developmental stages of seed including half black seeds, soft black seeds, and hard black seeds were analyzed in N. sativa. Whereas no terpene was detected in flowers and leaves, seeds were found to be the major site of biosynthesis and accumulation of terpenes, and the amount of terpene compounds changed during seed maturation. The essential oil consists of monoterpenes (more than 99%) and sesquiterpenes (less than 1%). In order to improve our understanding of monoterpene metabolism, the partial sequence of a hypothetical monoterpene synthase (NsTPS2) was isolated from N. sativa plant using RACE-PCR technique. This monoterpene synthase was identified from RNA sequencing data from soft black seeds. Except of the highly conserved DDXXD motif in NsTPS2 which is necessary to validate monoterpene synthases, no other conserved regions of other identified monoterpene synthases were observed. Dendrogram analysis revealed that NsTPS2 had the highest homology with a terpene synthase (72.89%) from Aconitum carmichaelii and these two sequences were grouped in the same group. Nigella sativa and Aconitum carmichaelii both belong to the Ranunculacea family. This indicates that the genetic information of plants of the Ranunculacea family can be used to isolate different monoterpene synthase. The results of this research can be useful in genetic manipulation and metabolic engineering of Nigella sativa.
Maryam Ghorbani, Kianoosh Cheghamirza, Saeed Abbasi, Zahra Aziziaram,
Volume 10, Issue 1 (9-2023)
Abstract
The current research was carried out to evaluate genetic diversity of 18 common bean cultivars and promising lines and to determine SSR and SCoT informative markers associated with 14 seed characteristics including the number of seeds per pod, 100 seed weight, seed length, seed width, the contents of crude protein, total soluble sugar, starch content, crude fat, iron, calcium, magnesium, zinc, uronic acid, and mineral ash. The polymorphism information content (PIC) values varied from 0.2 to 0.5 with an average of 0.39 for the SSR markers and from 0.19 to 0.42 with an average of 0.34 for the SCoT markers. The total average resolving power of SSR and SCoT markers were 1.54 and 5.34, respectively, indicating higher efficiency of SCoT markers than SSR markers for the diversity analysis. The common bean studied genotypes were clustered into three distinct groups for both markers based on the Complete Linkage method. Principal coordinate analysis (PCoA) for the SSR markers revealed that the first two principal components justified 59.05% of whole variation. For the SCoT marker, on the other hand, the fraction of variances explained by the first two principal components was equal to 25.43 indicating a better distribution of SCoT markers than SSR markers in the common bean genome. Analysis of molecular variance based on the grouping obtained from cluster analysis showed that the diversity within the group based on SSR and SCoT markers was equal to 89 and 78%, respectively. The results of regression analysis for the studied markers and the bean seed characteristics showed the existence of a significant relationships between a single marker with the several studied traits. This could indicate the association or linkage of the marker locations. Twelve out of 14 of the investigated common bean seed characteristics showed a significant relationship with at least one molecular marker.
Elham Azizi, Najmeh Salehan, Raheleh Rahbarian, Ali Masoomi,
Volume 10, Issue 2 (2-2024)
Abstract
Purslane (Portulaca oleracea) is a common widely utilized medicinal plant, especially in tropical regions. To explore the cytogenetic characteristics of purslane, an experiment was conducted on five landraces of purslane, including Qom, Khoy, Kalat, Yazd and Gachsaran in Payame Noor University of Mashhad, Iran. The results showed that in all five landraces, the basic chromosomes number was x=9; two landraces (Qom and Yazd) were tetraploid (2n=4x=36) and three landraces (Gachsaran, Khoy and Kalat) were diploid (2n=2x=18). Chromosome type was meta-centric and sub-meta-centric. The landraces of Khoy and Yazd had the longest and the shortest chromosomes respectively. In all landrace, the short arm size ranged from 5.93 µm to 8.07 µm and the long arm size ranged from 9.21 µm to 10.04 µm. According to the Stebbins' Table, landrace of Qom was the member of class 1B and others were members of class 1A. This represents a similar and primary evolutionary situation between landraces. In the clustering of different landraces in terms of karyotypic traits, Khoy and Kalat landraces were placed in one cluster and each of Gachsaran, Yazd and Qom landraces were placed in separate branches. PCA showed that the first three traits as Length of Long arm, Length of short arm and Length of total chromosome explained more than 97% of the total variation among the landraces. In general, considering the medicinal properties and wide distribution of purslane, determining the ploidy level and chromosomal study of different landraces of this plant can be effective in breeding and increasing its quantitative and qualitative production.
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