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The production of human gamma interferon in eukaryote expression systems refers as a therapeutic recombinant protein which has significant impact in medical studies. Unique com position of gamma interferon makes such protein as a suitable tool against cancer. It is documented that phosphinothricin (PPT) classified as non-selective herbicide group of bialaphos acts an inhibitor for glutamine synthetase. The bar gene is encoding the phosphinothricin-N-acetyltransferase (PAT) enzyme. This enzyme capable of boosting resistance against PPT herbicide, thus it can be selected as a selective marker within plant population. Then various colony PCR techniques, enzymatic digestion and sequencing were used to confirm the accuracy of fusion of IFNγ-bar gens within expression transporter. Using freezing and thawing method to transfer the pCAMBIA1305.1- IFNγ-bar construction into strain of LBA4404 of agrobacterium, then disc leaves was used to integrate into the genomic of tobacco plant. The transgenic plants were selected under selector condition which possess 30 mg/l of hygromycin. After the developed roots were transferred into soil, and PCR technique was used to confirm the presence of IFNγ-bar in the genomic of plants. Dot blot analysis was applied to detect IFNγ-bar protein in transgenic of to tobacco plants.

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Determination of genetic diversity of breeding material is the first step in breeding programs. Evaluation of tobacco genetic diversity is essential for breeding programs and preservation of genetic resources. Genetic diversity level in tobacco genotypes, is very important for selection of parents in breeding programs. In this study, genetic diversity of 100 tobacco genotypes was evaluated using 25 ISSR markers. Banding pattern based on the presence or absence of the bands showed with 0 and 1, respectively. Out of 237 fragments produced in total cultivars, 195 bands were polymorphic and average of polymorphism ranged from 4 to 12 per primer. Average of polymorphism percentage was 94.10. To determine the efficiency of ISSR markers, PIC and their polymorphic percentage was calculated. UBC 818, UBC 812 and UBC 815 had the best marker parameters and were introduced as the best primers for assessment of genetic diversity. In order to evaluate the genetic similarity between cultivars, different similarity coefficient (SM, Dice and Jaccard) was calculated and Mantel corresponding test was performed. Finally, dendrogram was drawn based on SM similarity coefficient and UPGMA algorithm and the Cofenetic coefficient was calculated. All genotypes formed two distinct clusters indicating the high efficiency of used primers in amplification the approximate parts of the genome. The principle coordinate analysis showed that the first three components could explain 79.65 % of total variance. Totally, evaluation the tobacco genetic diversity using ISSR markers is suitable and ISSR marker can be used as appropriate marker system to identify the diversity and genetic relationship for breeding programs of this plant.

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In order to evaluate heritability and gene action for some of the important quantitative traits in oriental tobacco, two genotypes, Basma 16-10 and SPT406 were crossed with Basma S. 31 cultivar, separately in 2009-2010. Parents with F1, F2, BC1 and BC2 generations were planted in a randomized complete block design with three replications. Traits such as plant height, leaf length, leaf width, leaf number, internnode number, stem diameter and yield per plant were recorded. The results obtained from analysis of variance indicated that generations mean squares were statistically significant for all traits expect for stem diameter. Therefore, generation mean analysis was performed for significant triats to estimate gene actions using Chi-square and scaling tests. The Chi-square of simple three-parametric model (additive-dominance model) was significant for studied crosses, indicating the presence of non allelic-interactions in the inheritance of these traits in oriental tobacco. Both additive and dominance genetic effects were significant for plant height, leaf length, leaf width, leaf number and internnode number. In addition, presence of high amount of dominance effect and dominance × dominance interactions suggests the importance of non-additive genetic effects for these traits in oriental tobacco. Therefore, selection for these traits in early generations can not be successful. However, additive genetic effects play an important role in the inheritance of yield, and then selection for this trait is hopeful in early generations during tobacco breeding process.

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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.

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The global prevalence of type 2 diabetes mellitus is continuously increasing, and there is currently no definitive cure for type 2 diabetes. The potent glucagon-like peptide 1 (GLP-1), a natural small incretin hormone, enhances insulin secretion in a glucose-dependent manner. However, the exceedingly short half-life of GLP-1 limits its therapeutic applications. Albumin-binding DARPin can be used to increase the serum half-lives of therapeutic proteins, peptides, and small compounds. In this study, a long-acting GLP-1 agonist with oral delivery potential containing a protease-resistant GLP-1, an albumin-binding DARPin, and Penetratin as a fusion protein was expressed in a bioencapsulated form within tobacco chloroplasts to confer digestive system protection in plant cells. The successful transformation of tobacco chloroplasts with trivalent fusion protein-coding genes was conducted using a pPRV111A chloroplastic expression vector and a gene gun. Homoplasmic transplastomic plants were obtained after three rounds of selection in selection medium containing 500 mg/L spectinomycin and streptomycin. Transgene integration and homoplasmic status in the transplastomic plants were confirmed by PCR and Southern blot analyses. Western blot analysis confirmed the accumulation of the mGLP1-DARPin-Pen fusion protein in the chloroplasts of the transplastomic plants. The fusion protein content estimated by ELISA was 21.8% of the total soluble protein content in the transplastomic plants. The successful expression of the designed fusion protein indicated that the production of functional GLP-1 in plants may facilitate the development of a low-cost, orally deliverable form of this protein for the treatment of type 2 diabetes.