Human intestinal bacterial symbionts serve in the production of Vitamin K.
Not in your stomach as it is too acidic for bacteria. Cows have a stomach compartment just for bacterial digestive action that produces methane. Perhaps in your intestinal region methane can be produced.
the bacterial cell reproduces the bacterial chromosome that the human gene codes for.
The new human-bacterial DNA is known as recombinant DNA.
That they have both DNA Bacterial DNA is a (closed) circle, those of human is lineair (straight) if you stretch it. Bacterial DNA does not have Proteines, Human DNA has Proteines. Bacteria have also RNA The DNA of bacteria is easy to reach , those of human not.
spirochete
Not in your stomach as it is too acidic for bacteria. Cows have a stomach compartment just for bacterial digestive action that produces methane. Perhaps in your intestinal region methane can be produced.
the bacterial cell reproduces the bacterial chromosome that the human gene codes for.
no
it has more human cells actually the human body has more bacterial cells. Although it may seem more likely that the human body would have more human cells than bacterial cells. -Vasillisa
1 for bacterial cell to produce a human protein
The new human-bacterial DNA is known as recombinant DNA.
That they have both DNA Bacterial DNA is a (closed) circle, those of human is lineair (straight) if you stretch it. Bacterial DNA does not have Proteines, Human DNA has Proteines. Bacteria have also RNA The DNA of bacteria is easy to reach , those of human not.
*there are made of cells *there the basic unite of structure and function *there are cells produced from other cells
bacterial
how genetic engineers remove sections from human dna for splicing into bacterial dna?
Hookworms live in the intestines and suck blood from the human host through the intestinal wall.
Peristalsis ; see relevant link .