Transport protein is the process were in materials are being transferred within an organism. Facilitated diffusion does not act as transferring protein because they are a gated trans-membrane.
DNA does not function as a transport protein. It serves as the genetic material that carries and transfers information essential for the development, growth, and reproduction of all organisms. However, it does not have a role in the active transport of molecules across cell membranes.
The shape, conformation, affect its function by determining what the shape is some proteins are long and fibrous : those form hair and form blood clots ... Some are globular and can function as enzymes which transport oxygen. The shape of a protein affects the function !
Protein is a polymer of amino acid. They are connected by peptide bonds.Proteins are needed for cellular function such as catalysis, transport, secretion, synthesis and so on.
A carrier protein (as opposed to a channel protein). An example of a carrier protein is the Na+/K+ pump.
Sorry my answer is not too accurate... don't have my bio textbook on me. From memory, ATP phosphorylates the protein that causes active transport. It would give the energy needed for a protein to actively transport the molecule or atom of choice through the pore. Now active transport mitosis? I've never heard of that before. Are you saying that ATP activates a protein (which transfers thing) during mitosis?
passive transport
NUCLEUS FUNCTION-Protein translocation, folding and transport or protein.
they help transport protein through other cells
What part of the membrane helps chemical reac
Some molecules are too large to pass through the cell membrane without transport proteins.
The shape, conformation, affect its function by determining what the shape is some proteins are long and fibrous : those form hair and form blood clots ... Some are globular and can function as enzymes which transport oxygen. The shape of a protein affects the function !
Protein is a polymer of amino acid. They are connected by peptide bonds.Proteins are needed for cellular function such as catalysis, transport, secretion, synthesis and so on.
is a protein which serves the function of moving other materials within an organism. Transport proteins are vital to the growth and life of all living things. There are several different kinds of transport proteins.
Did NaCl require a transport protein for diffusion?
A carrier protein (as opposed to a channel protein). An example of a carrier protein is the Na+/K+ pump.
In primary active transport, the transport protein gets phosphorylated; in secondary active transport, the transport protein is not phosphorylated
A vesicle is a small membrane-enclosed sac that can store or transport substances. So basically they help transport the protein.
A vesicle is a small membrane-enclosed sac that can store or transport substances. So basically they help transport the protein.