Proteins do have charges based on its amino acid content. there are polar uncharged and acidic, basic amino acids exist in the cells(Lysine, Arginine, asparic acid are a few charged groups). Based on the codes of mRNA proteins are formed by these amino acids in a sequence.
The ribosomes.
protein
A protein.
A neutron does not have a charge -- its neutral
Isoelectric point of a protein or amino acid is defined as the pH value at which the molecule has equalpositive charges on protonized basic (amino) groups as negative charges on protolized acid (carbonic) groups, so the net charge is neutral (zero).
The relationship between pH and pI is that the pH of a solution can affect the charge of a protein, while the pI (isoelectric point) is the pH at which a protein has no net charge. At a pH below the pI, the protein will have a net positive charge, and at a pH above the pI, the protein will have a net negative charge.
Structural Protein
complete protein
pI is the isoelectric point. This is a pH value where a protein has no net charge. NOTE: Proteins may have multiple pI's.
The ribosomes.
The cysteine pI value is important in determining the overall charge of a protein molecule because it helps identify the pH at which the protein carries no net charge. This is crucial for understanding the protein's behavior in different environments and interactions with other molecules.
About 11 % protein
DC Charge
negative
most people use whey protein for weightlifting, however you can use it for any kind of exersize if you need the extra protein
Electrons have a negative charge.
Electrons have a negative charge.