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Showing 2 results for Ramezanpour

Mohammad Reza Jafarzadeh Razmi, Saeid Navabpour, Hossein Sabouri, Seyedeh Sanaz Ramezanpour,
Volume 6, Issue 2 (3-2020)
Abstract

In order to analyze the genetic components of agronomic traits among 116 F9 recombinant lines derived from crosses of Ahlamitarom × Sepidroud rice cultivars, an experiment was conducted as a randomized complete block design in research farm of Gonbad Kavous University of Agriculture with three replications in 2016 and 2017. Genetic linkage map provided with 80 SSR markers, 28 iPBS Markers (79 polymorphic alleles), 7 IRAP markers (17 polymorphic alleles) and 26 ISSR markers (70 polymorphic alleles), which covered 1275.4 cM of the rice genome. QTL analysis was performed by Composite Interval Mapping. In two years, 15 QTLs detected for the studied traits. The additive effected varied from 6.725 g for grain weight up to -85.626 g for grain weight. Also, R2 for the detected QTLs explained from 11.3% to 20% of the total variation. The highest R2 was related to grain weight in the first year of experiment. Among the detected QTLs, qGWs on chromosome 1, were found to be stable and large effector QTLs for rice (Oryza sativa L.) grain weight, and can be used in marker-assisted breeding and selection programs after validation.

Seyedeh Sanaz Ramezanpour, Hassan Soltanloo, Saied Navabpour,
Volume 10, Issue 2 (2-2024)
Abstract

To evaluate the effect of fungus Blumeria graminis (powdery mildew disease) on expression of genes associated with resistance reactions in barley, a susceptible cultivar (Afzal), a semi-susceptible genotype (Line 67) and a resistant genotype (Line 104) were selected. Following inoculation with Blumeria graminis at seedling stage, sampling was performed at different time points (0-10 days). Changes in gene expression levels were measured by qRT-PCR analysis. Analysis of molecular data showed that the genes encoding chitinase and glucanase as the key enzymes in fungal cell wall degradation, had higher expression levels in the resistant genotype (Line 104). The transcript level of chitinase in semi-susceptible genotype (Line 67) was lower than that of the resistant genotype (Line 104) and higher than that of the susceptible cultivar. Most transcripts of chitinase gene were seen at 12 hours post inoculation in the resistant genotype (Line 104), whereas the lowest expression level was recorded at the same time in the susceptible cultivar. The expression levels of the other two genes (glucanase and peroxidase) were higher in the resistant genotype (Line 104) than those in the susceptible cultivar. Increasing in MAPK transcripts in resistant genotype (Line 104) and its depletion in susceptible cultivar confirmed MAPK role in Hypersensitive response (HR) and defense responses of barley infected with powdery mildew disease. Based on the findings of this study, it appears that the HR in the resistant genotype initiated as early as six hours post inoculation, effectively hindering the penetration and dissemination of the pathogen within the plant. Such reaction was not observed in the semi-susceptible and susceptible barley plants, possibly due to delayed in responses, allowing the pathogen ample time to penetrate and propagate within the host plant. The results of this research can be used to evaluate the resistance level of cultivars and also to evaluate the resistance in the seedling stage of promising lines.


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