1 2383-1367 Lorestan University 77 Plant genetics Application of Variance Components Estimators in Plant Breeding Akbarpour Omidali b b Faculty of Agriculture Lorestan University 1 9 2017 4 1 1 24 23 03 2017 03 01 2018 To conduct any breeding program, understanding of the genetic structure of traits and effect of environment and genetic by environment interaction as well as effects of random or fixed in the analysis of results is essential. Subsequently, analysis of variances and variance components are important in plant and animal breeding. The ANOVA is one of the best estimators for variance components. But this estimator is not preferred to maximum likelihood (ML) and Restricted Maximum Likelihood (REML) methods when variance components are negatively estimated and unbalanced datasets arise. Therefore, the objective of this research is a review of comparison of estimates of variance components using ANOVA, ML and REML method in linear mixed models using experimental data.  
92 Plant genetics Estimation of Genetic Parameters of some Quantitative Traits in Coriander under Drought Stress, using Triple Test Cross 1 9 2017 4 1 25 38 11 05 2017 19 06 2017 Drought is a worldwide risk seriously influencing production of agricultural plants such as coriander. In order to evaluate heritability and gene action for important quantitative traits in coriander in three irrigation regimes, including well water (WW), mild water stress (MWS) and severe water stress (SWS), a cross between two genotypes of TN-59-158 (Sensitive parent) and TN-59-230 (Tolerant parent) was done. Parents and progenies of triple test cross were evaluated in filed condition through a randomized complete block design with three replications. Days to 50% flowering (DTF), days to harvest (DTH), fruit yield (FY), thousand fruit weight (TFW), harvest index (HI), relative water content (RWC), essential oil yield (EOY) were measured. Results showed that total epistasis effect was observed for all traits except RWC in WW. Also, total epistasis effect was observed for all traits except DTF in MWS and SWS. Partitioning of total epistasis revealed that [i] type of epistasis was contributed to determining DTF and TFW in WW and MWS treatments, DTH, FY and RWC in MWS and SWS treatments, and HI and EOY in WW, MWS and SWS treatments.   76 Plant genetics Effect of Drought Stress on the Expression of Genes Involved in Synthesis and Hydrolysis of Fructan During Remobilization of Assimilates in Wheat Root Bagherikia Saeed f Pahlevani Mohammadhadi g Yamchi Ahad h Zenalinezhad Khalil i Mostafaie Ali j f Department of plant breeding & biotechnology, Faculty of plant production, Agricultural Sciences & Natural Resources University of Gorgon g Department of plant breeding & biotechnology, Faculty of plant production, Agricultural Sciences & Natural Resources University of Gorgon h Department of plant breeding & biotechnology, Faculty of plant production, Agricultural Sciences & Natural Resources University of Gorgon i Department of plant breeding & biotechnology, Faculty of plant production, Agricultural Sciences & Natural Resources University of Gorgon j Medical Biology Research Center, Kermanshah University of Medical Sciences, Kermanshah 1 9 2017 4 1 39 50 15 03 2017 17 05 2017 Under drought stress conditions, as one of the most important limiting factors of grain yield in wheat at arid and semi-arid regions, the remobilization of assimilates gain would be more valuable to grain filling. There are a few reports on the importance of remobilization of the root during the grain filling period under drought stress conditions. An advanced mutant line of bread wheat (T-65-7-1) along with its wild type (cv. Tabasi), were planted at two moisture conditions (normal and 30-40% of field capacity) as a factorial experiment based on a completely randomized design with three replications. Sampling for gene expression analysis was conducted from the root in two stages (7 and 21 days after anthesis). In these genotypes, fructan remobilization, efficiency of fructan remobilization, and relative expression of genes involved in the synthesis and hydrolysis of fructan during the grain filling period, in root, were studied under terminal drought stress. The results showed that the stored fructan in the root participated in the assimilate remobilization. Higher fructan remobilization through root to grain in mutant line under drought stress conditions was due to over-expression of genes involved in the synthesis of fructan (1-SST and 6-SFT) at 7-days after anthesis and in hydrolysis of fructan (6-FEH) at 21-days after anthesis, compared to wild type. Drought stress did not cause a significant change in gene expression of 1-FFT and 1-FEH genes in the root of both genotypes, which confirms the only β (2,6) linkages as predominant form of fructan has affected under drought stress conditions. In wheat breeding programs, 1-SST, 6-SFT and 6-FEH can be used as molecular markers for selecting genotypes with high fructan content and more remobilization. 83 Plant genetics The Genetic Diversity Survey of the Ficus L. Genus in Iran using Inter Simple Sequence Repeats Markers khodayari hamed k dolatian lida l mohammadi Abdelnaser m k lorestan university l lorestan university m lorestan university 1 9 2017 4 1 51 62 21 04 2017 03 01 2018 Figs as an important product in recent decades due to biotic and abiotic stresses have been faced to genetically erosion. The aim of this study was to determine the genetic diversity of taxa belonged to Ficus genus using Inter-simple sequence Repeat markers (ISSR). For this purpose, 23 accessions belonging to the fig genus collected from across the Iran country and genomic DNA was extracted from leaves. Out of 18 ISSR primers pairs, six primers pairs selected and PCR process were achieved for them. A total of 83 bands were produced, of which 78 were polymorphic. Using PAUP software, through Neighbor Joining methods, 23 populations of fig were divided in four groups. Among the primers, (AG) 8 C, (TG) 8 A and (GT) 8 C were identified as the most appropriate primers for using in future studies. Based on the results obtained from the analysis of data from ISSR, 23 populations of Ficus were classified into four groups. The results of the analysis of molecular variance (AMOVA) showed that there is no difference between the taxa and the highest genetic distance between populations within species. The results of this study showed that taxa belonging to the Ficus genus in Iran are very closely related phylogentically, and the relationship between reproductive and genetic flow is high.   102 Plant genetics Study of Phylogenetic Relationships and Genetic Diversity of Plantago ovata Ecotypes using Morpho-Phenological Traits and ISSR Markers Ramezani Mehdi n Rahimi Mehdi o n Young Researchers and Elite Club, Ahvaz Branch, Islamic Azad University, Ahvaz, Iran o Young Researchers and Elite Club, Ahvaz Branch, Islamic Azad University, Ahvaz, Iran 1 9 2017 4 1 63 74 03 06 2017 03 01 2018 Ispaghula (Plantago ovata) is used to reduce gastrointestinal and urinary tract infections, as well as control blood glucose and cholesterol levels in the human body. The phylogeny and genetic diversity of 22 different ecotypes of Ispaghula were evaluated using 12 ISSR markers and nine morphological and phenological traits. Analysis of variance showed that there were significant differences among cultivars for all traits. Cluster analysis grouped 22 different ecotypes of Ispaghula in two groups using UPGMA method based on field data. The assessment of genetic diversity among ecotypes based molecular markers showed that the 12 primers amplified 91 polymorphic bands. The maximum number of bands (11) was produced by UBC813 and primers UBC811 with 10 bands were in the next steps, respectively. The minimum band number (4) was produced by UBC824. Polymorphism information content (PIC) value was varied from 0.26 to 0.45 and Marker index (MI) was varied from 0.90 to 4.13. Cluster analysis using UPGMA based on molecular markers, placed 22 ecotypes in the study in five groups, include 1, 1, 2, 3 and 15 ecotypes, respectively. Grouping of ecotypes with molecular markers was different with classification of the ecotypes based morphological traits. According to the results, ecotypes that are far apart can be used in the breeding program of Ispaghula. 66 Plant genetics Investigation of Heritability and Genetic Diversity among Tobacco Genotypes using ISSR Markers and Morpho-Physiological Traits Salavati Meybodi Mohammad Reza p Ranjbar Gholam Ali Kazemitabar Seyed Kamal Najafi Zarrini Hamid p Tirtash Tobacco Research Institute Sari Agricultural Science and Natural Resources University Sari Agricultural Science and Natural Resources University Sari Agricultural Science and Natural Resources University 1 9 2017 4 1 75 88 29 01 2017 03 01 2018 Water stress is one of the most common environmental stresses that limited tobacco production in IRAN. Identification of genetic diversity in tobacco germplasm and genetic relationships between traits help to improve tolerant varieties. In this study, the genetic diversity of 100 flue–cured tobacco (Nicotiana tabacum L.) cultivars was analyzed using 15 morpho-physiological traits and 25 ISSR primers. The cultivars were cultured in a simple lattice design (10×10) with two replications (with and without water stress) in Tirtash Tobacco Institute, Iran. Results showed relative water content (RWC) and cell membrane stability (CMS) in normal condition were significantly higher than stress condition. The estimated broadsense heritability was low for RWC and CMS that represents large environmental effects on these two traits. The results of genotypes clustering by UPGMA method with ISSR markers and by WARD method with morph-physiological traits did not match. Primer UBC814: (CT) 8A with 16 polymorphic bands of the 17 bands, had higher resolution than other primers and seems appropriate for molecular diversity studies in tobacco. The K394 genotype was identified as well as drought tolerant varieties. We can use results of this study for selecting genotypes with great genetic differences and chose the desirable traits and use in breeding programs for producing high heterosis hybrid with tolerance to drought stress in tobacco. 116 Plant genetics Phylogenetic Analysis of Chrysanthemum morifolium Cultivars by rpoC Chloroplastic Gene Sequencing and Morphological Traits 1 9 2017 4 1 89 103 31 03 2018 31 03 2018 Chrysanthemum is one of the world's most important cut flower crops. The genetic diversity assessment among present Iranian Chrysanthemum cultivars are needed for future Chrysanthemum breeding programs. In an attempt to reveal the genetic variation and relationship among 30 Chrysanthemum cultivars, some morphological and a chloroplastic gene (rpoC) DNA molecular markers were employed. Chrysanthemum cultivars were cultivated in a Randomized Complete Block design (RCBD) with 3 replications in the field. Meanwhile, a phylogenetic tree was constructed based on chloroplast rpoC gene sequence. Analysis of variance (ANOVA) indicated that a significant variation exists among the Chrysanthemum cultivars for almost all the traits under study. In general, phenotypic coefficient of variation was higher than the genotypic coefficient of variation indicating the predominant role of environment effects. Ward Cluster analysis divided cultivars in two main clusters with highest number of cultivars falling under cluster I. Phylogenetic relationships among Chrysanthemum cultivars based on Maximum likelihood method showed that Iranian cultivars belong to Chrysanthemum morifolium, suggesting that these cultivars have presumably been bred from the same set of parents. Furthermore, genetic distance between cultivars ranged from 0.4 to 2.9, indicating sufficient genetic diversity among cultivars for crossing and selecting the most appropriate parents for Chrysanthemum morifolium breeding programs.