Target Organ
Hormones are recognized by specific receptors on target cells that match their chemical structure. These receptors are typically proteins that bind to the hormone molecule, triggering a response within the cell. The binding of the hormone to its receptor initiates a signaling cascade that leads to the cellular response.
Hormones can have one or more ring structures in their molecular structure. For example, steroids such as testosterone have four rings, while peptides like insulin do not have any ring structures. The number of ring structures in a hormone depends on its specific molecular structure and composition.
Target organ can be defined as the organ or structure toward which the effects of a hormone are primarily directed. The target organ's activity levels demonstrate change in the course of biofeedback.
Calcitonin is the hormone that responds to high levels of calcium in the blood by promoting calcium deposition in the bones, thus helping to lower blood calcium levels.
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.
Hormones are recognized by specific receptors on target cells that match their chemical structure. These receptors are typically proteins that bind to the hormone molecule, triggering a response within the cell. The binding of the hormone to its receptor initiates a signaling cascade that leads to the cellular response.
Hormones can have one or more ring structures in their molecular structure. For example, steroids such as testosterone have four rings, while peptides like insulin do not have any ring structures. The number of ring structures in a hormone depends on its specific molecular structure and composition.
target tissue and it produces the hormone which it responds
A target cell is a cell in the body that recognizes a hormone's chemical structure. It is a cell to which a hormone binds chemically.
Target organ can be defined as the organ or structure toward which the effects of a hormone are primarily directed. The target organ's activity levels demonstrate change in the course of biofeedback.
Hormone receptors on cell membranes recognize a hormone's chemical structure in the endocrine system. When the hormone binds to the receptor, a cell changes its behavior.
Hormones are ligands that bond to cells and carry a specific receptor. The ligand bonds its receptor to form a complex that acquires a purpose. The ligand triggers a change in the receptor, which activates a potential biological function. Cells that do not exhibit the receptor never receive the signal.
Calcitonin is the hormone that responds to high levels of calcium in the blood by promoting calcium deposition in the bones, thus helping to lower blood calcium levels.
a.insulin b.melatonin c.Glucagon d.thyroid answer : B. melatonin
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.
That is the stomach. It produces the hormone gastrin
A target cell is a specific cell that has receptors for a particular hormone, allowing it to respond to that hormone's signals. Not all cells are considered target cells for all hormones because each hormone is designed to interact with specific receptors on specific cells, leading to specific responses in the body. This specificity ensures that hormones only affect the cells that are meant to respond to them, maintaining the body's balance and regulation.