Bacteria belong to a group called prokaryotes which have no membrane bound genetic material (a nucleus).
Nucleus
nucleus
DNA is the genetic material. It is in chromosomes in nucleus.
1. The nucleus in animal and plant cells contains the chromosomes. In bacteria, the single circular chromosome is in the cytoplasm. 2. The DNA in plant and animal cells is double stranded; in bacteria it is mostly single stranded.
Strands of genetic material floating in the nucleus is chromatin. Cytoplasm is the part of the cell that is between the cell membrane and the nucleus.
Phenotype
The technology used in genetic engineering on animals is roughly called animal engineering
nucleus
The mitochondria contain their own genetic material, in the form of circular chromosomes (like those of bacteria).
Viruses attach specific cells and inject genetic material. There are viruses called bacteriophages that infect bacteria be injecting their genetic material into the bacterial host and invading their protein machinery. With animal viruses that infect animal cells (much larger than bacteria), the virus either injects genetic material OR gets into the cell whole before it begins to unleash its pathogenic effects
Yes it is located in In a bacterial cell, the genetic material is just floating in the cytoplasm in a region called the necleoid. There are no membranes surrounding it.
The mitochondria contain their own genetic material, in the form of circular chromosomes (like those of bacteria).
Both animal and plant cells contain genetic material, DNA.
DNA is the genetic material. It is in chromosomes in nucleus.
yes both animals and plants have a nucleus
they carry genetic material of the animal.
The genetic material of an animal cell is located in the nucleus- this contains the chromosomal DNA of the cell
Not true, as bacteria do not enter host cells. The advantage taken from bacteria is their ability to take on plasmids from other bacteria is a form of bacterial genetic information change. A multiple of plasmids are extracted from bacteria, subjected to a bacterial restriction enzyme that cuts the plasmid is specific places and then genetic material, perhaps mammalian, is inserted into the plasmid and ligased. The bacteria are induced to take up these plasmids. A statistical amount of bacteria do so and then begin expressing the genetic material that was inserted in the plasmid. Insulin was developed this way, as a replacement for animal insulin. The insulin genes were inserted into plasmids and then expressed greatly by the bacteria.
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