Plasma cells develop from b cells.
producing progeny cells that include plasma cells and memory cells
plasma cells
They proliferate due to their exposure to IL-2
ativated B cells forms effector cells which are called plasma cells
Helper T cells recognize the receptor-antigen complex and cause plasma and memory cells to be produced to then produce antibodies.
antibody
Stem cells develop into plasma cells and B cells also turn into plasma cells. Plasma cells have been exposed to an antigen and then produces and secretes antibodies.
exposure to a specific antigen at a specific site in a plasma membrane.
The plasma cells develop from transformed b cells.
Memory B cells and memory T cells carry the record of the first exposure to an antigen in the body. These cells are generated during the initial immune response and remain in the body to provide a faster and stronger immune response upon re-exposure to the same antigen.
B cells respond to the initial antigen challenge by producing progeny cells. The progeny cells include both memory cells and plasma cells.
When a B cell detects an antigen, it will engulf it and then display it on its cell surface with an MHC molcule. This antigen/MHC combination is then detected by a T cell - which will send signalling molcules to B cells to multiply and mature into plasma cells (which create antibodies against the antigen) and memory B cells (which 'remember' the antigen for next time).They become plasma cells
Plasma Cell initiate attacks against specific antigens. Plasma cells are B cells bearing specific antibodies for binding to a specific antigen.
producing progeny cells that include plasma cells and memory cells
plasma cells
They proliferate due to their exposure to IL-2
ativated B cells forms effector cells which are called plasma cells