overexposure to heat and uv radiations causes for the immune inhibition.
A decrease in blood glucose that causes the inhibition of insulin secretion is an example of a negative feedback mechanism. In this case, low blood glucose levels trigger the inhibition of insulin release to prevent further lowering of blood sugar and maintain homeostasis.
(1) Neutralization (2) Opsonization (3) Precipitation (4) Adherence inhibition (5) Immune complex formation
Microbes evade the immune system through inhibition of phagocytosis by affecting the receptors that phagocytes use to engulf bacteria or by mimicking host cells so that the immune system does not recognize them as foreign.
Noncompetitive inhibition and allosteric inhibition both affect enzyme activity, but through different mechanisms. Noncompetitive inhibition binds to a site on the enzyme that is not the active site, causing a change in the enzyme's shape and reducing its activity. Allosteric inhibition, on the other hand, binds to a different site on the enzyme called the allosteric site, which also causes a change in the enzyme's shape and reduces its activity.
an antigen
Inhibition of parasympathetic nervous system activity causes the salivary glands to become dry or produce less saliva. This is because the parasympathetic nervous system is responsible for stimulating saliva production and secretion.
Joaqvin Benitez Rajal has written: 'Immune inhibition of virus release from infected cells and influence of environmental factors'
an excess of a product of one reaction causes the enzyme of another reaction to stop working.
Allosteric inhibition is a type of noncompetitive inhibition.
lymph
density dependent inhibition
The definition of an immune system disease is a disease that causes over- or underactivity of the immune system. When the immune system is overactive, this is called an autoimmune disease.