Enzymes such as Trypsin, Chymotrypsin and Carboxy peptidase converts the Proteins, Peptons & proteoses into Dipeptides... Then Dipeptidase convert the dipeptides into Amino acids.. Finally this amino acids are absorbed by villi of small intestine... This happens to the Protein molecules we eat..
you will get sick
when you eat a piece of chicken you are developing protein
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When a photon of light hits the photosystem II protein, it excites an electron within the chlorophyll molecules in the protein. This electron is then passed along a series of molecules within the protein, resulting in the generation of a proton gradient and the release of oxygen as a byproduct of water splitting.
Pea is a vegetable. It is quite nutritious and a good source of protein. Many people do eat peas.
In the mouth, small molecules of protein are broken down by enzymes called proteases. These enzymes break down the protein molecules into smaller peptides and amino acids, which can then be absorbed through the lining of the small intestine for use by the body.
If you eat protein but don't workout, your body may not effectively use the protein to build muscle. The excess protein may be stored as fat instead. Regular exercise is important to help your body utilize protein efficiently and promote muscle growth.
An enzyme is a protein with a pocket on its surface called an active site. This is where the binding of substrate molecules take place and where chemical reaction happens.
New protein molecules are made in the cytoplasm of the cell.
Smaller molecules called amino acids make protein molecules.
If you eat protein but don't workout, your body may not effectively use the protein for muscle growth and repair. The excess protein may be stored as fat instead. Regular exercise is important to help your body utilize protein efficiently and build muscle mass.
Binding: Molecules from the extracellular environment bind to the carrier protein on the cell membrane. Transportation: The carrier protein undergoes a conformational change, allowing the molecules to pass through the membrane. Release: Once inside the cell, the molecules are released from the carrier protein and the protein returns to its original conformation for further transport.