Recombinant proteins are genetically engineered proteins that have been created by transforming them from non-recombinant viruses, bacteria, or plant cells. They can also be produced by genetic engineering procedures and transgenic techniques.

Although these protein molecules will contain the same genetic sequence as an organism's native protein, they can come in many different forms because of the changes made during recombination. You can also check out here to know more about recombinant proteins.

In many cases, recombinant proteins have unique and beneficial properties that make them desirable for use in research, medicine, and other applications.

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One reason recombinant proteins are so valuable is that they can be customized to specifically address a particular need. For example, recombinant antibodies are used to target specific molecules in cells or tissues. These antibodies can be created using human or animal genes as the template. This means that the antibody is specifically tailored to recognize and neutralize a particular type of molecule.

Another important advantage of recombinant proteins is their potential for customization. This means that they can be tailored to interact with specific targets more effectively than traditional proteins. As a result, recombinant proteins often have a stronger effect on the target and are less likely to cause side effects.

Some of the most common applications for recombinant proteins include medicine, vaccine development, environmental cleanup, and food production. In each case, recombinant proteins offer distinct advantages over traditional proteins.