its the t and the b
t cells are killer cells b cells are antibodies
B cells mark the virus or paracite as unknown the killer t cells attack and destroy the virus.
Approximately 67% T cells and 33% B cells.
T and B cells are two types of lymphatic cells.
T cells are part of the immune system and help identify and destroy infected or abnormal cells in the body. B cells produce antibodies that help to neutralize pathogens, such as bacteria and viruses, that have entered the body. Both T cells and B cells play crucial roles in the body's immune response.
Helper T cells play a crucial role in activating B cells to produce antibodies, which are essential for the humoral immune response. If a disease destroys helper T cells, the communication between B cells and T cells is disrupted, leading to a compromised humoral response as B cells are unable to be properly activated to produce antibodies.
T cells and B cells both arise from hematopoietic stem cells in the bone marrow. They undergo differentiation and maturation in the thymus for T cells and in the bone marrow for B cells.
T-cells B-cells NK cells (natural killer)
T cells's primary task is to activate B cells and killer T cells. The B cells searchfor antigens matching its receptors. If it finds such antigen it connects to it, and inside the B cell a triggering signal is set off.
T cells are a specific type of lymphocyte that are identified via immunologic staining; they are involved in the cell lysis portion of the immune response to viruses and intracellular bacteria.
The two main immunocompetent cells are B-lymphocytes (B-cells) and T-lymphocytes (T-cells). B-cells are responsible for producing antibodies, while T-cells have various roles including helping B-cells produce antibodies and directly killing infected cells.
B cells and T cells migrate to secondary lymphoid organs such as lymph nodes and spleen to carry out their immune functions. Here, they encounter antigens, undergo activation, and differentiate into effector cells to mount an immune response.