Genetic Engineering and Gene Transformation
Mohamad Amin Neycee; Motahhareh Mohsenpour; Hassan Rahnama
Abstract
Safflower with low oleic acid content is one of the native plants of Iran. Generally,, high oleic acid oils have more oxidative stability than the oils with high linoleic acids . Genome editing technology enable us to obtain oilseeds with high oleic acid. In this research, two guide RNA sequences ...
Read More
Safflower with low oleic acid content is one of the native plants of Iran. Generally,, high oleic acid oils have more oxidative stability than the oils with high linoleic acids . Genome editing technology enable us to obtain oilseeds with high oleic acid. In this research, two guide RNA sequences were designed to target of Fatty Acid Desaturase 2 (FAD2-1) gene, which were located within the coding region and at a distance of 640 base pairs from each other. The guide sequences along with the codon optimized Cas9 gene were cloned in the T-DNA region of the Agrobacterium construct and transferred to the safflower by the In-planta method. The resulting seeds were cultivated and the plants were screened to track changes in the fatty acid profile of the seeds. The results showed that the amount of oleic acid in the seeds of one of the lines reached 53.14% on average. This line had four amino acid changes (L66F, N204D, S236A and I238V) at the same time. This is while the amount of oleic acid in the control plant was measured as 11.62% on average. The results showed that in the segregating generation, the change in fatty acid profile occurred in the line with homozygous amino acid change, and the heterozygous plants have the same oil profile as the control plants. Also, the results of this research can indicate the possibility of increasing the amount of oleic acid in oilseeds by changing the FAD2 enzyme sequence and without gene knockout.
Genetic Engineering and Gene Transformation
Zahra Ghorbanzadeh; Mehrbano Kazemi Alamouti; Leila Pourhang; Seyyed Mohammad Mousavi Pakzad; Elahe Moatamed; Mona Mapar; Aliakbar Ebadi; Mohammad Reza Ghaffari; Ghasem Hosseini Salekdeh; Behzad Ghareyazie; Motahhareh Mohsenpour
Abstract
Improvement of the root architecture lead to higher grain yield and seed quality. This is achieved via improvement of the plant growth, better establishment in soil, higher absorption of water and nutrition resulting in the biosynthesis of the essential amino acids and hormones. It increases the efficiency ...
Read More
Improvement of the root architecture lead to higher grain yield and seed quality. This is achieved via improvement of the plant growth, better establishment in soil, higher absorption of water and nutrition resulting in the biosynthesis of the essential amino acids and hormones. It increases the efficiency of the nutrition usage and the stress tolerance. Drought conditions are a serious challenge in Iran; therefore, improving crop tolerance has a major importance. In this study, we investigate the presence of DRO1 gene, which is involved in the modification of the root growth angle, in rice cultivar Hashemi and compared to the Kinandang Patong cultivar. We further analyze the simultaneous presence of DRO1 and a second gene, OsCKX4, which is involved in the improvement of root structure. DRO1 and OsCKX4 are cloned together in a single construct under the control of the ubiquitin and the root specific promoters, respectively. The resulting construct, pUhrCkDro is transformed into the Agrobacterium tumefactions strain EHA105 and used for the gene transformation into Hashemi cultivar. Putative transgenic plants, survived on 50 mg. L−1 Hygromycin during tissue culture steps, are transplanted into the Yoshida solution and then into the pots until they set seeds. Construct specific and gene specific PCR analysis are used to confirm the transgenic plants. Transgenic plants show stronger root structure compared to the non-transgenic ones. Molecular analysis in the T1 and T2 generations leads to the homozygous events. The multi-genic construct used in this study, can be introduced into other crops for the aim of root structure improvement and drought tolerance. It is hoped that the production of transgenic rice with enhanced root structure results in improving drought tolerance, reducing water consumption and enhancing yield under drought stress conditions.
Genetic Engineering and Gene Transformation
Elham Saboori-Robat; Mahmood Solouki; Ali Akbar Habashi; Motahhareh Moshenpour; Abbasali Emamjomeh
Abstract
Soybean is considered as one of the best source of protein for the nutrition of humans and mammals, and also is cultivated as an economic source of both vegetable oil and protein. Soybean like other Leguminosae, contains low levels of S-amino acids (methionine and cysteine). Using an appropriate selectable ...
Read More
Soybean is considered as one of the best source of protein for the nutrition of humans and mammals, and also is cultivated as an economic source of both vegetable oil and protein. Soybean like other Leguminosae, contains low levels of S-amino acids (methionine and cysteine). Using an appropriate selectable marker can be effective in the regeneration of transgenic plants and increasing gene transfer rate. Glyphosate is a widely used non-selective herbicide with broad spectrum of weed control around the world. The aim of this study is constructing of two-genes construct consists of 11 kDa delta zein and EPSPS genes to improve the methionine content and induce resistance to glyphosate herbicide using Agrobacterium-mediated method in soybean. After experimental processes tissue culture, gene transformation and regeneration, plants produced by gene transformation showed glyphosate resistance at 3.5 mM concentration of glyphosate herbicide. Chlorophyll and shikimic acid content analysis also revealed that these two indexes in lines produce by gene transformation compared to wild type were significantly altered after glyphosate application. Complementary analyses are under progress.
Molecular Genetics and Genetic Engineering
Masoud Tohidfar; Ebrahimi Ghorishi; Bartali Fakheri; Motahareh Mohsenpour
Volume 4, Issue 6 , October 2014, , Pages 47-59
Abstract
Abiotic stresses such as drought and salinity are the first factor of YIELD decrease in the world. In this study, betaine aldehyde dehydrogenase gene (badh) is used as both an abiotic stress marker gene and one of the abiotic stress tolerance candidate genes along with Flavodoxin (fld) in construction ...
Read More
Abiotic stresses such as drought and salinity are the first factor of YIELD decrease in the world. In this study, betaine aldehyde dehydrogenase gene (badh) is used as both an abiotic stress marker gene and one of the abiotic stress tolerance candidate genes along with Flavodoxin (fld) in construction of chloroplast vector for rice. Thereby, adding the appropriate enzyme role to let gene cassette enter to the center. The first two parts of a specific target areaof Plastom rice (FR) the rice genome using PCR that they can be re-attached in cloning. Then, the gene cassetes were designed for fld and badh genes in regulatory regions of the chloroplast. So that the fld genes and with rbcl 5'UTR and badh genes with T7gene10 5'UTR were cloned the strong chloroplastsic promoter Prrn and the terminator rbcl 3'UTR. Finally, The complete two-gene cassettes fld/badh with the regulatory regions is separated from targeting chloroplast metabolism of rice in two sides cloned. The two specific chloroplast vector called pFrFB(-) and pFrFB(+) are potential to be attached to gene that are resistant to drought and salinity targeted with two different orientations relative to the inner regions of the chloroplast genome of rice plants and are able to be the goal of creating high resistance to salinity, drought and chill in transferring genes to use the chloroplast of rice plant via gene gun.
Genetic Engineering and Gene Transformation
Motahareh Mohsen Por; Masoud Tohid Far
Volume 1, Issue 1 , March 2012, , Pages 35-48
Abstract
A system was designed using E. coli heat shock promoter (groE) in plastid vector and a hybrid plant/bacteria sigma factor was constructed under control of a tissue specific promoter. This system was designed for overcome to deleterious effects on plant growth and fertility that may be caused by transgene ...
Read More
A system was designed using E. coli heat shock promoter (groE) in plastid vector and a hybrid plant/bacteria sigma factor was constructed under control of a tissue specific promoter. This system was designed for overcome to deleterious effects on plant growth and fertility that may be caused by transgene overexpression. So that hybrid sigma factors contained N- terminal motives of tobacco sigma factors including chloroplast signal peptide and RNA polymerase interaction domains, composed by C-terminal motif of E. coli sigma32 that able to recognition and binding to groE promoter. Then this gene, HSig, was cloned in Agrobacterium vector after adding regulatory elements. The result vector was used for transformation of an Iranian variety of tobacco. Detection of transgenic plants was performed by PCR, southern blot and RT-PCR analysis. The Hsig gene expression and its targeting to plastid was confirmed after transformation of tobacco chloroplast using gene gun technique for targeting of green florescent protein (GFP) under control of groE promoter using pFNGi vector into transgenic HSig explants. We hope that the system that was designed and constructed in this study for GFP expression in chloroplast genome, be able to apply in molecular farming for expression of any other desired genes instead of GFP for specific gene expression in chloroplast.
