After birth, B cells change to immature B cells in the bone marrow.
After birth B cells change to immature B cells in follicular B lymphocytes.
Immature lymphocytes arise from hematopoietic stem cells in the bone marrow. They undergo maturation and selection processes in the bone marrow (B cells) and thymus (T cells).
B cells are produced in the bone marrow and then they mature in the bone marrow as well. During the maturation process, B cells develop their antigen receptors and undergo selection to ensure they can recognize antigens effectively without causing autoimmune reactions.
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
t cells are killer cells b cells are antibodies
Immunoglobulins, more commonly referred to as antibodies.- Immunoglobulins/antibodies are synthesized by plasma cells which is a specialized type of B-cell. Immature B-cells are produced in red bone marrow and then migrating to the spleen where some of them mature to a mature B-cell. A mature B-cell can differentiate into either a memory B-cell or a plasma cell."- In human adults, Immunoglobulins are synthesized by plasma cells (specialized type of B-cell) which in turn originates from red bone marrow in large bones (eg. femur).
ativated B cells forms effector cells which are called plasma cells
Approximately 67% T cells and 33% B cells.
The plasma cells develop from transformed b cells.
B cells make antibodies when they recognize antigens.
its the t and the b
The r and b lymphocyte groups mature in the primary lymphoid organs, which are the bone marrow for B cells and the thymus for T cells. During maturation, they undergo a series of genetic rearrangements to generate a diverse pool of receptors that can recognize a wide range of antigens. This process allows them to differentiate into functional immune cells capable of responding to specific pathogens.