The identity of a protein is primarily determined by its amino acid sequence, which is dictated by the genetic code in the organism's DNA. The specific arrangement of amino acids dictates the protein’s structure and function. Additionally, post-translational modifications can further influence a protein's identity and activity. Ultimately, the combination of these factors defines how a protein behaves within a biological context.
The phenotype that determines the Rh factor in blood is based on the presence or absence of the specific protein antigens on the surface of red blood cells. A person can be either Rh positive (having the protein) or Rh negative (lacking the protein) based on their genetic inheritance.
Conformation is what determines a protein's unique set of functional and otherwise shapes.
The specific sequence of amino acids in a protein determines its final shape. This sequence dictates how the protein will fold into its unique three-dimensional structure, which ultimately determines its function. Factors like temperature, pH, and chemical environment can also influence a protein's shape.
The gene sequence determines the codon, which in turn determines the aminoacid, which in turn determines the tridimensional shape on the protein, which in turn determines the shape of the active site, which in turn determines what it'll be catalysing.
The number of protons in an atom's nucleus determines its chemical identity.
The sequence of amino acids determines the specific function of a protein. The shape and structure of the protein determines where in the cell it can go.
two factors influence protein quality- the proteins digestibility and its amino acid composition.
Lipid solubility determines if it will diffuse across. The presence of specific protein carrier molecules determines if it will be transported across the membrane.
protons
The specific shape of a protein, known as its tertiary structure, determines its function.
DNA determines the sequence of the amino acids (building blocks) in a protein. The sequence of nitrogen bases in the DNA determines the sequence of amino acids in a protein.
The phenotype that determines the Rh factor in blood is based on the presence or absence of the specific protein antigens on the surface of red blood cells. A person can be either Rh positive (having the protein) or Rh negative (lacking the protein) based on their genetic inheritance.
It determines the sequence of amino acids in a protein.
The key factor that determines the soundness of an argument is the truth of its premises.
The initials "Rh" stand for Rhesus factor, which is a protein found on the surface of red blood cells. This factor is important in blood typing, as individuals who have the Rh protein are considered Rh positive (Rh+), while those who do not have the protein are considered Rh negative (Rh-).
The primary factor that determines the velocity of a wave is the medium through which the wave is traveling.
Conformation is what determines a protein's unique set of functional and otherwise shapes.