[Home ] [Archive]   [ فارسی ]  
:: About :: Main :: Current Issue :: Archive :: Search :: Submit :: Contact ::
Main Menu
Home::
Journal Information::
Articles archive::
For Authors::
For Reviewers::
Registration::
Contact us::
Site Facilities::
::
Search in website

Advanced Search
..
Receive site information
Enter your Email in the following box to receive the site news and information.
..



 
..
:: Search published articles ::

Mohammad Reza Salavati Meybodi, Gholam Ali Ranjbar, Seyed Kamal Kazemitabar, Hamid Najafi Zarrini,
Volume 4, Issue 1 (9-2017)
Abstract

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.
, ,
Volume 4, Issue 1 (9-2017)
Abstract

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.
Saeed Bagherikia, Mohammadhadi Pahlevani, Ahad Yamchi, Khalil Zenalinezhad, Ali Mostafaie,
Volume 4, Issue 1 (9-2017)
Abstract

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.
Omidali Akbarpour,
Volume 4, Issue 1 (9-2017)
Abstract

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.
 
Hamed Khodayari, Lida Dolatian, Abdelnaser Mohammadi,
Volume 4, Issue 1 (9-2017)
Abstract

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.
 
, , ,
Volume 4, Issue 1 (9-2017)
Abstract

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.
 
Mehdi Ramezani, Mehdi Rahimi,
Volume 4, Issue 1 (9-2017)
Abstract

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.
Soheila Shayan, Mohammad Moghaddam Vahed, Majid Norouzi, Seyed Abolghasem Mohammadi, Mahmoud Tourchi, Bafrin Molaei,
Volume 4, Issue 2 (3-2018)
Abstract

Drought stress is one of the factors that reduces yield in the world. Considering that wheat is grown mostly in semi-arid areas, much attention has been paid to develop drought tolerant varieties. This experiment was conducted during 2013-2014 in Tabriz University research farm, Iran. In this investigation the inheritance of some agronomic and physiological traits was studied in the field condition through generations mean analysis. The generations were produced from the cross of Arg (tolerant to drought) and Moghan3 (sensitive to drought) varieties. The experiment was a split plot design based on randomized complete blocks with two replications. The irrigation conditions were arranged in the main plots and generations in the subplots. In the stress condition, irrigation was withheld after pollination. Based on the analysis of variance, significant difference were observed among different generations in terms of plant height, peduncle length, flag leaf length, flag leaf width, number of fertile tillers, leaf chlorophyll content, leaf temperature, days to maturity, spike weight, straw weight, biomass, grain yield and harvest index. The interaction between generations and irrigation conditions was significant only for grain yield. The generation mean analysis in both normal and drought stress conditions showed that chi-square of three parameter model was significant for all of the studied characteristics, indicating the presence of non-allelic interactions in the inheritance of these traits. The broad sense and narrow sense heritabilities for the traits under study were estimated as 0.502-0.946 and 0.244-0.429 in the normal condition and 0.653-0.951 and 0.221-0.377 in the water stress condition, respectively. The average degree of dominance for all of the characters in both normal and water stress conditions was greater than one which indicated the existence of over-dominance gene action in controlling these traits. At both conditions, the dominance genetic variance was higher than the additive genetic variance for all of the traits. The results indicate the necessity of selection in advanced generation or exploiting dominance gene action in the breeding programs, if hybrid varieties are produced in the wheat plant.
M Mohtasham Mohammadi, K Rahmatollah Karimizadeh, H Tahmaseb Hosseinpour, G Hasan Ghojogh, S Kamal Shahbazi, S Peyman Sharifi,
Volume 4, Issue 2 (3-2018)
Abstract

Breeding of adapted and variation germplasm can be a main element for strength of research political in stable agricultture system. This is achived by targeting variety selection onto different growing environments under natural heat and drought stresses. To realize this, breeding programs usually undertake a rigorous genotypes performance evaluation across locations and years mostly at the final stage of variety development process. More accurate selection of wheat genotypes requires reducing environmental effects for explaining of their genetic potential with appropriate analysis of genotype × environment. In this research, 18 improved bread wheat genotypes were planted in randomized compelet block design with 4 replications in Gachsaran, Khoramabad, Gonbad, Moghan and Ilam stations during three years (2011-2014). Simple and combined analysis variance were done on grain yield data. Due to significant interaction effects for Year × locatin and genotype × year × locatin, yield stability of considered genotypes were analysed using some parameteric and nonparametric methods. Obtained results showed genotypes no. 10 and 17 with 3107 and 3028 kg/ha had the highest grain yield. Based on parametric statistics: CVi, , , ،, MSY/L and MSPI and non-paramertric statistics: , , , Top, Mid, Low،, R-Sum, and SDR, G10 had more yield stability. More over, G12 and G17 showed suitable yiled stability among high production genotypes. Earliness Genotypes 10 and 17 lines had optimum plant height and partially high thousand kernel weight.
Dr Reza Darvishzadeh, Dr Hadi Alipour, Dr Ahmad Sarrafi,
Volume 4, Issue 2 (3-2018)
Abstract

Black stem disease is one of the most important fungi diseases in sunflower. Information about the mode of heritability and the effects of genes controlling trait could be most important for selecting breeding methods to black stem disease resistance. In this study, genotypes ENSAT-B5 and AS613 and a mutant genotype M5-54-1 with different response to MP8 and MP10 isolates were selected and F1, F2, BC1 and BC2 generations were made from ENSAT-B5×AS613 and ENSAT-B5×M5-54-1 crosses. Generations of crossing and parents of each set were planted in a completely randomized design with three replications and infected by M8 and M10 isolates. With the exception of the [(♀) M5-54-1 × ENSAT-B5 (♂)-MP10] cross, the lack of fit test of simple three parametric additive-dominance models for the [(♀) AS613 × ENSAT-B5 (♂)-MP8] and [(♀) AS613 × ENSAT-B5 (♂)-MP10] crosses were significant, indicating the presence of non-allelic interactions in the inheritance of the black stem disease resistance. In the estimated models for the different crosses, high and significant amount of dominant effects and dominant × dominant interactions suggested the importance of non-additive genetic effects. Therefore, selection for this trait in early generation could not be effectively successful and hybrid development is highly recommended for increasing the resistance to the black stem disease.
Dr Mohammad Motamedi, Ms Parviz Safari,
Volume 4, Issue 2 (3-2018)
Abstract

Drought stress is one of the most important factors involved in reducing wheat production and identifying genetic structure and gene action type in controlling grain yield in water stress condition is essential for choosing appropriate breeding methods. In this study, 9×9 one way diallel crosses were used to study the genetic structure of wheat grain yield at stress and non- stress conditions. Combining ability analysis by the second Griffing method for both conditions resulted in significant GCA and SCA variances, representing grain yield may be controlled by additive and non- additive effects of genes. The results of applying combining ability analysis indicated that among the parents, genotypes Ghods and Bam had the highest GCA for grain yield and the best specific crosses were Arg × Ghods, Navid × Moghan, Bam × Alvand (for both irrigation regimes) and Bam × Ghods (in stress condition). Biplot analysis of diallel data was used to display GCA and SCA for parents and to determine heterotic groups and the best crosses. In general, according to the results, Bam, Ghods and Arg were tolerant cultivars and had the ability to maintain yield in drought stress condition as well as to transfer these properties to the hybrids. So these genotypes can be used to improve stress tolerance in breeding programs.
Zahra Hajiahmadi, Reza Shirzadian-Khorramabad2, Mahmood Kazemzad, Mohammad Mahdi Sohani,
Volume 4, Issue 2 (3-2018)
Abstract

Tomato leafminer (Tuta absoluta) is one of the important pests of tomato in Iran. It causes serve losses to tomato yield between 50 to 100% in the world. The cryIAb gene has been introduced into many plant species, including maize resulting in protection of the maize plants against corn borer larvae. In most studies, constitutive promoters such as CaMV35S were employed for genetic transformation; however the constitutive expression of genes led to changes in plant metabolic pathways due to permanent energy consumption in plants. Since, wound inducible promoter MPI (Maize Protease Inhibitor) posses more efficiency and strength than CaMV35S promoter. Therefore, in the current study, transgenic tomato (cv. Falat) plants harboring cryIAb gene under control of the MPI promoter were developed for the first time. The MPI promoter was isolated from maize and cloned into pPZP122 expression vector replacing the CaMV35S promoter. The cryIAb gene was isolated from pCIB4427 and cloned in pPZP122:MPI:cryIAb and the resulting construct was transformed into Agrobacterium AGL1 strain using In planta approach. Initial selection of the transgenic plants was carried out in media culture containing gentamicin. PCR analysis confirmed the presence of transgene in gentamycin-resistance plants in the first and second generations by rate of 62.5% and 75.58%, respectively. Protein dot blotting using anti-CryIAb polyclonal antibody confirmed the presence of protein in the second generation of transgenic lines. Based on the result of Tuta bioassay, transgenic plants demonstrated an enhanced resistance against Tuta. Thus, the wound inducible promoter MPI can be used in genetic transformation of crop plants if insecticidal protein-encoding genes (such as different types of cry) are used and therefore, it is important to be used when plants asked to express only when are being attacked by insect pests.
, , ,
Volume 4, Issue 2 (3-2018)
Abstract

Evaluation of genetic diversity in medicinal plants is one of the most important evolutionary and breeding goals. Recent developments in polymerase chain reaction brings the possibility of evaluation the individuals of a population in more sites of genome, and among different DNA molecular markers, the ISSR marker was successfully used in study of the genetic diversity of different plants. The genetic diversity of 43 individuals from five populations of Styrian Pumpkin (Cucurbita pepo var. styriaca) and 4 individuals from one population of C. maxima which cultivated in Shahid Beheshti University collection (Tehran, Iran) was investigated using 12 ISSR markers. Totally, 83 scorable bands were produced by ISSR markers and the mean for the produced band for each marker was 6.91 and 100% of scorable bands were polymorphic. Dendrogram was illustrated based on Jaccard coefficient similarity matric and algorithm of Complete Linkage. Based on cluster analysis, individuals of populations divided into five main groups. The results of the grouping through principal coordinate analysis and cluster analysis showed that groupings by the two mentioned methods were consonant with each other and have made a similarity grouping. The cophenetic coefficient was calculated as 0.97. Totally, the results of present study showed that the some of used ISSR markers could be useful for future study of genetic variation in Cucurbita pepo.
Saeed Khavari Khorasani, Abdonaser Mahdi Poor,
Volume 5, Issue 1 (9-2018)
Abstract

Selection based on proper selection indices can be one of the most effective methods for indirect selection of yield and yield components, simultaneously. In order to determination of selection index for improvement of maize yield, 60 single cross maize hybrids were planted in two separate experiments (drought stress and normal conditions) based on randomized complete block design (RCBD) with three replications in Torogh agricultural station of Khorasan Razavi agricultural and natural resources research and education center, Mashad, Iran in 2013-2014. Morphological and phenological traits, yield and yield components were recorded. Selection indices were calculated based on results of stepwise regression considering to phenotypc, genotypic and economic values. Based on stepwise regression results in normal condition, physiological maturity, plant height, kernel depth, kernel no./row and tassel length totally could explain 60.68 percent of gain yield variation, then these traits were used to calculate selection index. In drought stress condition, kernel no./row, plant height, ear height, 1000 kernel weight, ear length and leaves no. above ear could explain 63.77 percent of grain yield variation that these traits were used to calculate of selection index. We used 5 optimum selection indices (smith-hazel) and one basic selection index as Pesk-Baker to screen the maize genotypes. The results showed that the relative efficiency of selection index based on yield and expected genetic gain for all of measured traits in selection index 2 was higher than others in both normal and drought stress conditions. Based on grain yield and selection indices, 20 percent of the best genotypes were selected by each selection indices. Based on derived results in normal condition, genotype no. 60 (ksc704 commercial hybrid) were selected by all of  selection indices as the best genotype, but in drought stress condition, different genotypes were selected by different selection indices like genotypes 16 (ME77006/1×K1263/1), 22 (ME77006/1×K1263/1) and  34 (ME78005/2× A679), that these genotypes at least were selected by 2 or 3 selection indices.

Amir Gholizadeh, Hamid Dehghani, Mostafa Khodadadi,
Volume 5, Issue 1 (9-2018)
Abstract

In any breeding program, knowledge of the nature of gene action involved in the inheritance of traits is a basic requirement. In this research, diallel crosses progenies of six coriander landrace were evaluated in F1 and F2 generations. The genotypes were evaluated in different irrigation conditions in three separate experiments, in which each experiment was conducted in a randomized complete block design with three replications during the growing season of 2016. Results of genetic variance analyses revealed significant mean squares of general and specific combining ability for all traits, indicating the importance of additive and non-additive genetic effects for these traits. Additive gene actions played a more important role in controlling of plant height, leaf number, branch number and biological yield, whereas the role of non-additive gene actions was more conspicuous than those of additive gene actions in controlling of harvest index and fruit yield. Therefore, providing superior hybrids using breeding methods based on progeny test will be effective to improve these traits. Also, among selected parents, P4 parent in normal irrigation and moderate water stress and P6 parent in sever water stress were the best parents for crosses in the development of high-yield varieties in coriander.

Halbibi Badirdast, Seyed Yahya Salehi-Lisar, Hossain Sabouri, Ali Movafeghi, Ebrahim Gholamalalipour Alamdari,
Volume 5, Issue 1 (9-2018)
Abstract

One of the main objectives of plant breeding is defining the relationship between genotype and phenotype. Nowadays, molecular markers provide powerful tools to evaluate this relationship for plant breeders. In this study, genetic diversity of 112 rice lines was evaluated by 20 pairs of SSR markers which linked to drought tolerant alleles. Totally, 77 polymorphic alleles with mean of 3.85 alleles per primer pairs were amplified. The minimum number of alleles was belonged to RM28199 and RM212 markers with 2 alleles, and the maximum number of alleles was belonged to RM72 marker with 6 alleles. The range of PIC for the examined markers was 0.30 to 0.72 and the mean of PIC was 0.58. The maximum amount of PIC was belonged to RM85 and RM20A markers and the minimum of PIC was belonged to RM28099 marker. Considering the gene diversity coeficient, RM28099 and RM 85 markers had minimum (0.33) and maximum (0.76) diversity, respectively. The stepwise regression analysis of the microsatellite data and morphologic traits identified 62 and 54 informative alleles for the evaluated traits in flooding and drought conditions, respectivly. Cluster analysis based on molecular data divided the genotypes into 7 groups. Considering the appropriate distribution of amplified DNA by the studied markers in this study, markers that have high separation power and high association with important agronomic traits in drought stress condition (if further experiments confirmed them), could be employed in plant breeding programs of drought stress.

Mitra Shahbazi, Farhad Nazarian-Firouzabadi, Omid Ali Akbarpour,
Volume 5, Issue 1 (9-2018)
Abstract

Chrysanthemum (Chrysanthemum morifolium) is one of the most important ornamental plants which plays a significant role in the development of gardening industry in the world. The knowledge of genetic diversity is one of the prerequisite criteria for Chrysanthemum breeding with important economic goals. Molecular markers have a significant share in elucidation of inter and intra species genetic diversity. To this end, genetic diversity of a number of Iranian cultivars was molecularly investigated by sequencing a part of rDNA, using ITS4 and ITS5 primers. Genetic distance between Chrysanthemum cultivars ranged from 0.05 to 10.15, demonstrating the power of ITS region in revealing the genetic diversity among cultivars of morifolium, suggesting Iranian cultivars have been genetically improved from morifolium species. Genetic diversity assessment of Iranian Chrysanthemum cultivars demonstrated that presumably inter, intra species or even inter population hybridization may have been involved in creating enormous genetic diversity among Chrysanthemum cultivars.

Shima Taghikhani, Hossein Ramshini, Seyed Ahmad Sadat-Noori, Mahmoud Lotfi, Ali Izadi Darbakdi, Naeimeh Sousaraei, Abdollah Varvani Farahani,
Volume 5, Issue 1 (9-2018)
Abstract

Melon is an important crop cultivated in moderate climate regions of the world. One of the most important diseases of this plant is vascular wilt caused by Fusarium oxysporum f.sp. melonis (Fom). Infection of farm by this pathogen can result in huge damage around the world. Development of resistant varieties is the most effective method for disease control. Four races of 0, 1, 2 and 1,2 have been reported for this pathogen and 1 is more versatile and dangerous races especially in the north half of Iran. Garmak, as an important variety in Isfahan province, is susceptible to race 1. Single dominant gene of Fom-2 induces resistance against race 0 and 1. In this research, the resistance gene was transferred from Isabelle into Garmak using SNP marker assisted back-crossing. The screening of plants in BC1, BC2, and BC3 generations was carried out using artificial inoculation. This gene was sequenced partially in parental genotypes and resistant and susceptible alleles were discriminated. In order to verify the resistant plants survived after artificial inoculation in BC3, plants were genotyped using the SNP marker and HRM method. This method distinctly separated three genotypes (RR, Rr and rr) from each other.  The resistance of most plants was verified by molecular method. However, among resistant genotypes identified by artificial inoculation method, there were some susceptible plants identified by molecular method, indicating the more confidence of molecular method in genotyping of plants. With selfing of BC3 resistant plants and selection of homozygote resistant plants, it is possible to develop resistant Garmak variety.

Shahin Jahangirzadeh Khiavi, Zabihollah Zamani, Mohamadreza Fatahi, Masoumeh Ashourpour,
Volume 5, Issue 1 (9-2018)
Abstract

The chloroplastic DNA of 64 accessions of apple (Malus spp.) (54 Iranian genotypes, five commercial cultivars and five rootstocks) were analyzed to reveal their haplotypes by using Polymerase Chain Reaction-Restriction Fragment Length Polymorphism (PCR-RFLP) method. Approximately 4320 bp of the chloroplast genome was analyzed, by using two chloroplast universal primer pairs and two restriction enzymes (EcoRI and MseI). All the mutations detected were insertion-deletions been in the range between 10-40 bp. The combination of all the mutations resulted to six haplotypes (H1, H2, H3, H4, H5 and H6) in the studied apple accessions. It was defined that the Iranian apple rootstock 'Gami-Almasi' had a specific haplotype form all the other studied accessions. It was approved that cpDNA diversity data can be considered for phylogenetic studies in this plant and the polymorphism determined in cytoplasmic genome by PCR-RFLP method can help to understand the maternal inheritance in apple.

Arash Salami, Mohammadhadi Pahlevani, Khalil Zenalinezhad, Mohsen Esmaeilzadeh Moghaddam,
Volume 5, Issue 1 (9-2018)
Abstract

Collection and conservation of germplasm, particularly for landraces of important agronomically species and organizing their information, cause to continuity of their usefulness and reduce the risk of their genetic erosion. In this experiment, 10 Iranian wheat landraces along with the Chinese Spring cultivar, as control, were used to assess inter and intra populations variation by using ISSR molecular markers and morphological traits. Evaluation of populations in terms of height, spike length, awn length, number of spike nodes, number of grains per spike, flag leaf length and grain weight showed that there were considerable variation among landraces. Also, in some landraces like KhorramAbad and Ardabil, intra population diversity for some of these traits, such as plant height and length of awn, was obvious. Evaluation of the landraces for ISSR markers showed that among 99 scored bands, 78 bands were polymorphic. Percent of polymorphism with mean of 81.88 % was varied from 53.33 for primer of ISSR-4 to 100% for primers of ISSR-9, ISSR-14, ISSR-5 and ISSR-7. Average PIC of the landraces was estimated 3.0. Results of this study showed that there was considerable intra population diversity for the ISSR markers in landraces of KhorramAbad, Maragheh and Torbat-e-Heydarieh however, a little diversity for Khoy, Ahwaz, Isfahan, Mashad, Urmia, Shiraz and Ardabil was observed. Results of this study showed that there is inter and intra genetic diversity within Iranian landraces of wheat with different levels and these landraces can be used as basic population for extraction of pure lines.


Page 1 from 2    
First
Previous
1
 

پژوهش های ژنتیک گیاهی Plant Genetic Researches
Persian site map - English site map - Created in 0.07 seconds with 45 queries by YEKTAWEB 4657