JWSS - Journal of Water and Soil Science

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Analysis of transgenic plants is very important in gene transfer programs. In this research, the second generation (T₁) of transgenic brassica napus which was transformed by antisense of Glutamine synthetase (GS) gene was studied from the view of total soluble protein content of leaf, total chlorophyll and protein patterns (SDS-PAGE) using seeds of Brassica napus .Protein concentration was determined by a calorimetric method described by Bradford method. Chlorophyll (a, b) and carotenoid contents were determined by spectrophotometry. The total soluble protein content of Brassica napus leaves increased from YG stage, reached a maximum level during MG₂ and, after this, decreased with the progress of SS stage. Comparison of the total soluble protein between different treatments showed the highest level in the A₂ plant and the least in the A₆ plant. Comparisons with chlorophyll a and b were not significant between different treatments, but different stages showed significant differences with maximum and minimum levels obtained in the MG₁ and SS, respectively. Protein patterns were also studied using SDS-PAGE method. No new band was recognized in the MG₁ stage, but the density of some protein patterns was shown in YG and MG₂ stages. In YG stage, differences were seen among the A₅, A₃, A₄ and A₆ with W.T on 41 KDa weighty position and also between the A₁ and A₂ with W.T treatment on 23/6 KDa. Considering the molecular weight GS₁ subunit of glutamine synthetase (41 KDa) and the similar conditions in growth, protein extraction and macro molecular analysis in transgenic and control plants, we can tell that the difference shown in transgenic plants are probably due to the effect of the antisense of glutamine synthesis gene in this plant.

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Germplasm collection is the base of plant breeding. Iran is one of the most important centers of genetic diversity due to different climates and the old civilization.In this study we decided to collect melon accessions. The north and center of Iran were selected for this purpose. Fifteen qualitative and six quantitative traits were measured on thirty eight accessions. The cluster analysis by the use of UPGMA method and Jaccard coefficient helped separate the horticultural groups of Cucumis melo L. (Cantaloupensis, Inodorus, Flexousous, Reticulatus). The relationship between 30 of these accessions was assessed using 10 RAPD primers. The polymorphism was determined to be19%. The cluster analysis could not separate the horticultural groups of Cucumis melo L., showing that these groups are closely related. However, VB84 primer separated the tow Snakemelon.