Protein that the human gene codes for
In genetic engineering, the bacterial cell takes up the plasmid
called a transformed bacterial cell. The plasmid DNA can confer specific traits to the bacterial cell, such as antibiotic resistance, ability to produce certain proteins or enzymes, or other desired characteristics. This process is commonly used in genetic engineering and biotechnology research.
The genetic material is in the cytoplasm.
The genetic material is in the cytoplasm.
A bacteriophage attaches to a bacterium and injects its genetic material into the bacterial cell. This genetic material then uses the bacterial host's machinery to replicate and produce more phages, eventually leading to the lysis of the host cell.
Bacterial cells are commonly used in biotechnology to produce insulin using exogenous DNA. The exogenous DNA encoding for human insulin is introduced into the bacterial cells, which then serve as a host to produce the insulin protein through the process of genetic engineering.
The genetic material in the bacterial cell is DNA.
it is the stem cell genetic by the cloning of DNA
Bacteriophages (phages) attach to bacteria and inject their genetic material (either DNA or RNA) into the bacterial cell. This genetic material then takes over the bacterial cell's machinery, forcing it to produce more phages and ultimately leading to the destruction of the bacterium.
Because genetic engineering involves changing a cell's DNA sequence - the 'program' that tells the cell what to do.
The insertion of a human DNA fragment into a bacterial cell could potentially enable the bacterial cell to produce a human protein or enzyme. This technique is commonly used in biotechnology to produce pharmaceuticals or study gene function.
Bacterial cells do have genetic material, which is usually in the form of a single circular chromosome located in the nucleoid region of the cell. This genetic material contains the information needed for the cell to function and replicate.