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We then investigated the regeneration frequency of homoplasmic shoots from heteroplasmic leaf segments with or without barnase expression. The regeneration frequency of homoplasmic-like shoots expressing barnase-barster system was higher than that of shoots not expressing this. We expect that the application of this novel strategy for transformation of plastids will be supportive to generate homoplasmic plastid transformants in other plant species.The CRISPR/Cas9 system is widely used for targeted mutagenesis in many organisms including plants. For application of this system, tissue culture methods need to be established. In this study, detailed methods for introduction of mutations in tomato and Nicotiana benthamiana plants using the CRISPR/Cas9 system are described. The methods include tissue culture protocols for tomato and N. benthamiana. We also demonstrate the methodology to generate Cas9-free genome edited tomato plants and use of one single guide RNA (sgRNA) to edit two orthologs in N. benthamiana. The examples of editing the PHYTOENE DESATURASE (PDS) genes in these plants are also provided. The Cas9-free tomato line was obtained when tomato plants were cultured on a non-selective medium after transformation with the CRISPR/Cas9 system. Two orthologs of PDS in N. benthamiana were mutated using a sgRNA, because these orthologs contain the same nucleotide sequences with PAM motif. These mutations were inherited to the next generation. The mutations in the PDS genes resulted in an albino phenotype in tomato and N. benthamiana plants. These results demonstrate that the non-selective method is one of the ways to obtain Cas9-free genome editing in tomato plants and that the two orthologs can be edited by one sgRNA in N. benthamiana.Genome editing using site-specific nucleases, such as transcription activator-like effector nucleases (TALENs) and clustered regularly interspaced short palindromic repeat-CRISPR-associated protein 9 (CRISPR-Cas9), is a powerful technology for crop breeding. For plant genome editing, the genome-editing reagents are usually expressed in plant cells from stably integrated transgenes within the genome. This requires crossing processes to remove foreign nucleotides from the genome to generate null segregants. read more However, in highly heterozygous plants such as potato, the progeny lines have different agronomic traits from the parent cultivar and do not necessarily become elite lines. Agrobacteria can transfer exogenous genes on T-DNA into plant cells. This has been used both to transform plants stably and to express the genes transiently in plant cells. Here, we infected potato, with Agrobacterium tumefaciens harboring TALEN-expression vector targeting sterol side chain reductase 2 (SSR2) gene and regenerated shoots without selection. We obtained regenerated lines with disrupted-SSR2 gene and without transgene of the TALEN gene, revealing that their disruption should be caused by transient gene expression. The strategy using transient gene expression by Agrobacterium that we call Agrobacterial mutagenesis, developed here should accelerate the use of genome-editing technology to modify heterozygous plant genomes.The tea plant (Camellia sinensis) contains various metabolic substances, including catechins and caffeine, for which genetic transformation techniques are essential for investigating the associated metabolic pathways. In this study, we sought to optimize the conditions and culture process for particle bombardment-mediated transformation of tea plant somatic embryos. We describe somatic embryo pretreatment for effective transient transformation in biolistic bombardment and the posttreatment conditions of somatic embryos for accelerating differentiation after bombardment. For the purpose of transformation, we used the somatic embryos of C. sinensis var. assamica 'Tingamira normal,' which were cultured in Murashige and Skoog (MS) medium containing 2 mg l-1 indole-3-butyric acid (IBA) and 4 mg l-1 6-benzyladenine (BA) at 25°C ±2°C under a 16-h photoperiod. With respect to the optimization of particle bombardment conditions for tea somatic embryos, we examined the effects of different Au colloid particle diameters and bombardment pressures, and accordingly established bombardment with 1.0-µm-diameter DNA-coated Au colloid at 1,100 psi as optimal conditions for introducing DNA for the transient expression of GUS. Additionally, we found that transplantation of tea somatic embryos from IBA/BA medium to a hormone-free medium prior to bombardment and incubation in the dark post-bombardment increased the frequency of secondary embryo production. Furthermore, osmotic treatment by culturing the somatic embryos in medium supplemented with 0.4 M mannitol improved transient transformation efficiency. After transformation, the culture of somatic embryos on filter papers or Kimwipes soaked in MS medium facilitated rapid and effective development of the somatic embryos.We established a method for embryogenic callus induction and highly efficient Agrobacterium-mediated genetic transformation of a table grape cultivar 'Shine Muscat' (Vitis labruscana). Embryogenic calli were induced using flower bud filaments from a dormant cane. Agrobacterium strain LBA4404 harboring the binary plasmid pBin19-sgfp, which contains the sgfp and nptII genes, was used to infect embryogenic calli. Infected calli were selected on 1/2 MS medium containing 5% maltose and 2% agar supplemented with 15 mg l-1 kanamycin. Efficiency of transformation of regenerated plants reached nearly 100% as determined by PCR and Southern blot analyses. The developed method will open a new avenue for genome editing of 'Shine Muscat' and contribute to the advancement of grape breeding.Biolistic transformation systems are widely used to introduce foreign genes into common wheat (Triticum aestivum L.); however, these techniques often generate high transgene copy numbers and complex transgene integration patterns that hinder the stable expression of the transgenes. To improve the efficiency of stable transgene expression, we examined the effect of low-temperature pretreatment of wheat flower spikes and of high maltose concentration (HMC) in the medium during the subsequent callus culture. Tillers of the spring wheat cultivar Bobwhite were stored at 5°C without water for one week before the isolation of their immature scutellar tissues, and the resulting particle-bombarded explants were cultured on 15% maltose for a month. Together, these treatments significantly increased the number of recovered transgenic lines expressing the reporter gene. The low-temperature pretreatment eliminated the negative effects of HMC, and HMC improved the efficiency of stable transgene expression. Southern blot analysis revealed that transgenic lines recovered after HMC treatment integrated a lower copy number of transgenes than those cultured at normal (4%) maltose concentration.
Website: https://www.selleckchem.com/products/680c91.html
We then investigated the regeneration frequency of homoplasmic shoots from heteroplasmic leaf segments with or without barnase expression. The regeneration frequency of homoplasmic-like shoots expressing barnase-barster system was higher than that of shoots not expressing this. We expect that the application of this novel strategy for transformation of plastids will be supportive to generate homoplasmic plastid transformants in other plant species.The CRISPR/Cas9 system is widely used for targeted mutagenesis in many organisms including plants. For application of this system, tissue culture methods need to be established. In this study, detailed methods for introduction of mutations in tomato and Nicotiana benthamiana plants using the CRISPR/Cas9 system are described. The methods include tissue culture protocols for tomato and N. benthamiana. We also demonstrate the methodology to generate Cas9-free genome edited tomato plants and use of one single guide RNA (sgRNA) to edit two orthologs in N. benthamiana. The examples of editing the PHYTOENE DESATURASE (PDS) genes in these plants are also provided. The Cas9-free tomato line was obtained when tomato plants were cultured on a non-selective medium after transformation with the CRISPR/Cas9 system. Two orthologs of PDS in N. benthamiana were mutated using a sgRNA, because these orthologs contain the same nucleotide sequences with PAM motif. These mutations were inherited to the next generation. The mutations in the PDS genes resulted in an albino phenotype in tomato and N. benthamiana plants. These results demonstrate that the non-selective method is one of the ways to obtain Cas9-free genome editing in tomato plants and that the two orthologs can be edited by one sgRNA in N. benthamiana.Genome editing using site-specific nucleases, such as transcription activator-like effector nucleases (TALENs) and clustered regularly interspaced short palindromic repeat-CRISPR-associated protein 9 (CRISPR-Cas9), is a powerful technology for crop breeding. For plant genome editing, the genome-editing reagents are usually expressed in plant cells from stably integrated transgenes within the genome. This requires crossing processes to remove foreign nucleotides from the genome to generate null segregants. read more However, in highly heterozygous plants such as potato, the progeny lines have different agronomic traits from the parent cultivar and do not necessarily become elite lines. Agrobacteria can transfer exogenous genes on T-DNA into plant cells. This has been used both to transform plants stably and to express the genes transiently in plant cells. Here, we infected potato, with Agrobacterium tumefaciens harboring TALEN-expression vector targeting sterol side chain reductase 2 (SSR2) gene and regenerated shoots without selection. We obtained regenerated lines with disrupted-SSR2 gene and without transgene of the TALEN gene, revealing that their disruption should be caused by transient gene expression. The strategy using transient gene expression by Agrobacterium that we call Agrobacterial mutagenesis, developed here should accelerate the use of genome-editing technology to modify heterozygous plant genomes.The tea plant (Camellia sinensis) contains various metabolic substances, including catechins and caffeine, for which genetic transformation techniques are essential for investigating the associated metabolic pathways. In this study, we sought to optimize the conditions and culture process for particle bombardment-mediated transformation of tea plant somatic embryos. We describe somatic embryo pretreatment for effective transient transformation in biolistic bombardment and the posttreatment conditions of somatic embryos for accelerating differentiation after bombardment. For the purpose of transformation, we used the somatic embryos of C. sinensis var. assamica 'Tingamira normal,' which were cultured in Murashige and Skoog (MS) medium containing 2 mg l-1 indole-3-butyric acid (IBA) and 4 mg l-1 6-benzyladenine (BA) at 25°C ±2°C under a 16-h photoperiod. With respect to the optimization of particle bombardment conditions for tea somatic embryos, we examined the effects of different Au colloid particle diameters and bombardment pressures, and accordingly established bombardment with 1.0-µm-diameter DNA-coated Au colloid at 1,100 psi as optimal conditions for introducing DNA for the transient expression of GUS. Additionally, we found that transplantation of tea somatic embryos from IBA/BA medium to a hormone-free medium prior to bombardment and incubation in the dark post-bombardment increased the frequency of secondary embryo production. Furthermore, osmotic treatment by culturing the somatic embryos in medium supplemented with 0.4 M mannitol improved transient transformation efficiency. After transformation, the culture of somatic embryos on filter papers or Kimwipes soaked in MS medium facilitated rapid and effective development of the somatic embryos.We established a method for embryogenic callus induction and highly efficient Agrobacterium-mediated genetic transformation of a table grape cultivar 'Shine Muscat' (Vitis labruscana). Embryogenic calli were induced using flower bud filaments from a dormant cane. Agrobacterium strain LBA4404 harboring the binary plasmid pBin19-sgfp, which contains the sgfp and nptII genes, was used to infect embryogenic calli. Infected calli were selected on 1/2 MS medium containing 5% maltose and 2% agar supplemented with 15 mg l-1 kanamycin. Efficiency of transformation of regenerated plants reached nearly 100% as determined by PCR and Southern blot analyses. The developed method will open a new avenue for genome editing of 'Shine Muscat' and contribute to the advancement of grape breeding.Biolistic transformation systems are widely used to introduce foreign genes into common wheat (Triticum aestivum L.); however, these techniques often generate high transgene copy numbers and complex transgene integration patterns that hinder the stable expression of the transgenes. To improve the efficiency of stable transgene expression, we examined the effect of low-temperature pretreatment of wheat flower spikes and of high maltose concentration (HMC) in the medium during the subsequent callus culture. Tillers of the spring wheat cultivar Bobwhite were stored at 5°C without water for one week before the isolation of their immature scutellar tissues, and the resulting particle-bombarded explants were cultured on 15% maltose for a month. Together, these treatments significantly increased the number of recovered transgenic lines expressing the reporter gene. The low-temperature pretreatment eliminated the negative effects of HMC, and HMC improved the efficiency of stable transgene expression. Southern blot analysis revealed that transgenic lines recovered after HMC treatment integrated a lower copy number of transgenes than those cultured at normal (4%) maltose concentration.
Website: https://www.selleckchem.com/products/680c91.html
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