Yes, if two independent single copy genes are inserted into the same binary vector construct, they can produce identical transgenic proteins. This is because the binary vector serves as a delivery system to introduce the gene of interest into the host organism.
The binary vector contains T-DNA repeats from the Ti-plasmids and a gene of interest to be inserted into the plant genome. The T-DNA binary vectors usually contain an origin of replication or ORI for E. coli or OriE, a particular element on the plasmid for starting its replication in E. coli. This component is useful for allowing maintenance of the vector in E. coli.
However, it’s important to note that while the binary vector construct is the same, the resulting transgenic proteins could still exhibit differences due to factors such as post-translational modifications, differences in expression levels, and environmental influences on the host organism. Therefore, while the binary vector construct is identical, the resulting transgenic proteins may not be identical in every aspect.
If two independent single-copy genes are inserted into the same binary vector construct, they can produce identical transgenic proteins. This is because the binary vector serves as a delivery system to introduce the gene of interest into the host organism.
The binary vector contains T-DNA repeats from the Ti-plasmids and a gene of interest to be inserted into the plant genome. The T-DNA binary vectors usually contain an origin of replication (ORI) for E. coli or OriE, a particular element on the plasmid for starting its replication in E. coli. This component is useful for allowing maintenance of the vector in E. coli.
However, it’s important to note that while the binary vector construct is the same, the resulting transgenic proteins could still exhibit differences due to post-translational modifications, expression level differences, and environmental influences on the host organism. Therefore, while the binary vector construct is identical, the resulting transgenic proteins may not be identical in every aspect.
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