Genetically modified bacteria can be used to produce. This is a transgenic bacteria.
Genetically modified bacteria can be used to produce. This is the only bacteria that can produce.
Yes. In fact, currently insulin manufacturers worldwide use transgenic (recombinant) bacteria to produce insulin efficiently.
bacteria reproduce quickly. The more transgenic bacteria there are, the more insulin is produced. (I am taking an online Biology course and this question was asked, and this was the answer the online class gave me)
C. medicinesI JUST TOOK THE PENNFOSTER TEST AUGUST 2010, THE ANSWER IS C: medicines, OTHERS ARE PLACING WRONG ANSWERS MASKED BY WHAT READS LIKE CREDIABLE DATA, I DON'T KNOW WHY! PLEASE RESEARCH MORE THAN ONE ANSWER. Good Luck!
Example of transgenic bacteria are- Escherichia coli and Streptococcus mutans.
Practical applications are: bacteria: they are easy to grow animal: study genes and improve the food supply plant: They are an important part of our food supply because they produce a natural insecticide so they don't have to be sprayed.
Transgenic organisms could be used to make a new type of protein. For example, give a bacteria a new gene. The bacteria can then make the protein coded by the new gene. The protein may end being something such as human insulin or some other protein the bacteria don't normally produce. Your welcome Habs 13
The advantages of using transgenic bacteria to produce human proteins are:It is very easy to alter bacterial plasmid.Moreover, bacteria can be cultured very easily and in large quantities. So, there is quick and bulk production of the required product.The proteins grow cheaply and in abundance.
B. protenis
A transgenic organisms has one or more genes from another organism inserted into its genome.Transgenic bacteria with the gene for human insulin make human insulin that is used to treat people with Diabetes.
To make bacteria with new abilities. Like eating oil.
Use a restriction enzyme to cut the insulin gene from human DNA. 5175286717
It is the easiest way for this protein to be produced. The DNA encoding human insulin can be put under the control of a constituitively active promoter and transfected into bacteria, which then produce the protein with their cellular machinery.