Permissive effect when dealing with hormones refers to the effect of one hormone on a second whereby the second can exert its full normal effect that is normally associated with it. For example the effect of cortisol on glucagon's ability to increase blood glucose concentration during fasting is a permissive effect. Another one is the effect of Tri-iodothyronine (T3 active form of thyroid hormone) on epinephrine stimulation of lipolysis.
Insulin for glucagon on adipose tissue.
1. Synergistic effects in which two or more hormones act together to produce an effect that is greater than the sum of their separate effects. 2. Permissive effects in which one hormone enhances the target organ's response to a second hormone that is secreted later. 3. Antagonistic effects in which one hormone opposes the action of another. For example, insulin lowers blood glucose level and glucagon raises it.
can anyone effect your hormones? spike your drink,or put something in your food?
hormones do not effect the genetic constitution but it is the inverse, the genes effect the hormonal secretion. if there are genetic deletions it would effect the secretion of hormones therefore disrupting the normal functions of the body.
You deal with the mood swings caused by a change in hormones simply by dealing with them. Control your mood with your mind.
The effect of thyroid hormones on the cells of the body is regulation of metabolism of those cells.
thyroxin
Yes.
When a small amount of one hormone allows a second hormone to have its full effect the phenomenon is called
Permissive cells are capable of supporting the replication of a virus, whereas non-permissive cells are unable to support virus replication. In permissive cells, the virus can enter, replicate, and exit to infect other cells. Non-permissive cells may lack the necessary factors or receptors for the virus to complete its replication cycle.
No but the pregnancy hormones can.
In the nervous system, permissive action refers to one neurotransmitter enhancing the effect of another neurotransmitter. This occurs when one neurotransmitter prepares receptors to be more responsive to another neurotransmitter, allowing for a more amplified response.