Respuesta :
When a mature B cell encounters antigen that binds to its B cell receptor it becomes activated. ... Plasma cells and memory B cells with a high-affinity for the original antigen stimuli are produced. These cells are long lived and plasma cells may secrete antibody for weeks after the initial infection.
Answer:
B cell activation requires two distinct signals, and results in B cell differentiation into memory B cells or plasma cells. The first activation signal occurs upon antigen binding to B cell receptors (BCRs). When a mature B cell encounters antigen that binds to its B cell receptor it becomes activated. It then proliferates and becomes a blasting B cell. These B cells form germinal centres.
Explanation:
step 1
antigen recognition-B cell exposed to antigen and binds with matching complementary
step 2
antigen presentation-B cell displays epitope, Helper T cell binds secretes interleukin
step 3
clonal selection= interleukin stimulates B cell to divide
step 4
differentiation=become memory or plasma cells
step 5
attack- plasma cells secrete antibody
