each hormone receptor only binds to one hormone
arget cell receptors that are unique for each hormone.
The tissue specificity of hormones is determined by the presence of specific hormone receptors on the surface of target cells. These receptors are proteins that can only bind to specific hormones, allowing for a precise response in a particular tissue. The binding of a hormone to its receptor triggers a specific signaling pathway that leads to the cellular response.
The shape of hormone receptors is crucial because it determines the binding specificity between the hormone and the receptor. When a hormone attaches to its specific receptor, it triggers a signaling cascade that regulates various physiological processes in the body. The specific shape ensures that only the correct hormone can bind to the receptor, leading to a specific biological response.
The full question is: What would increase the likelihood of hormone X binding to cell Z A increasing specificity of cell Z receptors B decreasing number of cell Z receptors C increasing blood concentration of hormone X D increasing rate that hormone X breaks down in the blood E All of these Answer: C increasing blood concentration of hormone X
SOD is treated symptomatically. Hormone deficiencies are managed with hormone replacement therapy while the best possible visual acuity is achieved with corrective spectacle lenses.
Enzymes exhibit different types of specificity, including substrate specificity (acting on a specific substrate), stereospecificity (acting on a specific stereoisomer), and regiospecificity (acting at a specific region of a substrate). For example, trypsin exhibits substrate specificity by cleaving peptide bonds after lysine or arginine residues, while lactase exhibits substrate specificity by hydrolyzing lactose.
How to calculate specificity?, please specify ^^
Specificity is pronounced as /ˌspɛsɪˈfɪsɪti/ in English.
the levels of specificity are Pronoun,Noun,and Propernoun...
the levels of specificity are Pronoun,Noun,and Propernoun...
Target cells have specific receptors that recognize and bind to the hormone, triggering a response. Non-target cells either lack the necessary receptors or have receptors that do not bind the hormone, so they do not respond to it. This specificity allows hormones to selectively regulate the functions of specific tissues or organs in the body.
Growth hormone promotes growth by stimulating cell growth and division, while growth hormone releasing hormone triggers the release of growth hormone from the pituitary gland. By using both hormones together, a synergistic effect can be achieved to maximize growth-promoting benefits in children with short statures.