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Proteins that attach molecules in order to deliver them to another site?
These proteins are likely transport proteins, such as carrier proteins or channel proteins, which bind to specific molecules and facilitate their movement across cell membranes or through the bloodstream. These proteins help to transport essential molecules like hormones, ions, and nutrients to their target destinations in the body.
What is the facilitated diffusion to assist the transport of sugar and sodium molecules?
transport proteins both are carrier proteins and channel proteins
What are functional proteins?
Storage molecules, transport molecules, and movement.
Difference between receptor proteins and carrier proteins?
Receptor proteins are specialized proteins that bind specific molecules, such as hormones or neurotransmitters, triggering a cellular response. Carrier proteins, on the other hand, are involved in transport processes, helping to move molecules across cellular membranes. While receptor proteins facilitate communication and signaling within the cell, carrier proteins play a more functional role in transporting molecules.
What biomolecule helps transport molecules across the membrane?
proteins
Proteins that attach molecules in order to deliver them to another site?
These proteins are likely transport proteins, such as carrier proteins or channel proteins, which bind to specific molecules and facilitate their movement across cell membranes or through the bloodstream. These proteins help to transport essential molecules like hormones, ions, and nutrients to their target destinations in the body.
Why do steroid hormones need a transport protein to circulate with blood?
Steroid hormones are "lipophilic" (they are fatty molecules which do not dissolve in water.) They would not normally dissolve very well in blood. Proteins are "hydrophilic" and do dissolve in water. Transport proteins bind to steroid hormones and allow dissolution in blood; they also serve to keep most of the hormone molecules inactive until needed.
What are the protein molecules in a cell membrane that assist in cell transport?
Protein molecules are responsible for membrane transport. In passive transport diffusion is the phenomenon in which molecules flow naturally from areas of high concentration to lower concentrations.
What protein classes are not found as membrane proteins - identity markers or receptors or transport channels or enzymes or hormones?
Enzymes and hormones are protein classes that are not typically found as membrane proteins acting as identity markers, receptors, or transport channels. Enzymes catalyze chemical reactions inside cells, while hormones are signaling molecules released into the bloodstream to regulate various physiological processes.
What are 3 functions of proteins?
Transport. Antibodies. Hormones.
How are receptors and transport proteins similar?
they are both components of the cell membrane
What group of bio molecules do hormones belong to?
proteins
What group of bio-molecules do hormones belong to?
proteins
What is the facilitated diffusion to assist the transport of sugar and sodium molecules?
transport proteins both are carrier proteins and channel proteins
What are functional proteins?
Storage molecules, transport molecules, and movement.
Why must transport proteins be peripheral proteins?
Transport proteins must be peripheral proteins because they need to be able to move within the cell membrane to facilitate the transport of molecules across the membrane. Peripheral proteins are not embedded within the lipid bilayer of the membrane, allowing them to move more freely and interact with molecules on both sides of the membrane. This mobility is essential for transport proteins to effectively transport molecules across the cell membrane.
What role do peripheral proteins play in the transport of molecules across the cell membrane, particularly in the context of transport proteins?
Peripheral proteins play a crucial role in assisting transport proteins in moving molecules across the cell membrane. They help in the recognition and binding of specific molecules, as well as in the regulation of transport protein activity. This collaboration ensures efficient and selective transport of substances in and out of the cell.
