Clonal selection is responsible for the proliferation of clones of effector and memory cells specific for an encountered antigen
Antigen challenge and clonal selection are most likely to occur in the secondary lymphoid organs, such as the lymph nodes and spleen. These organs are where antigens encounter immune cells, triggering an immune response and the selection of specific immune cell clones.
Antigen-presenting cells (APCs) are nonlymphocyte cells that play a central role in clonal selection. They present antigens to T cells, triggering the immune response and selection of specific clones of T cells that can recognize and respond to the antigen.
Clonal selection theory explains how the adaptive immune system selects and amplifies immune cells (such as B cells and T cells) that are specific to antigens. When a pathogen enters the body, immune cells with receptors that match the antigen are selected for activation and proliferation, leading to a targeted immune response. This theory is fundamental to understanding how the immune system responds to infections and develops immunological memory.
Many flowering plants possesses both sexual and certain types of asexual propagation. Those group of similar plants which are reproduced asexully and grown together in the same place are clonal. The each individual of this group or clony is known as Ramet. If there is genetic dissimalaraties within a clony is clonal diversity.
Clonal Propagation
Clonal selection and differentiation of lymphocytes provide the basis for immunological memory.
Antigen challenge and clonal selection are most likely to occur in the secondary lymphoid organs, such as the lymph nodes and spleen. These organs are where antigens encounter immune cells, triggering an immune response and the selection of specific immune cell clones.
Antigen-presenting cells (APCs) are nonlymphocyte cells that play a central role in clonal selection. They present antigens to T cells, triggering the immune response and selection of specific clones of T cells that can recognize and respond to the antigen.
there are 100,000 antibodies on the surface of b-cells which are specific for particular type of antigen therefore if specific antibody recognize the particular type antigen then it attach with it and activated.
no, inherited traits are responsible for natural selection
False
Clonal selection theory explains how the adaptive immune system selects and amplifies immune cells (such as B cells and T cells) that are specific to antigens. When a pathogen enters the body, immune cells with receptors that match the antigen are selected for activation and proliferation, leading to a targeted immune response. This theory is fundamental to understanding how the immune system responds to infections and develops immunological memory.
Natural selection is the mechanism primarily responsible for the development of today's biodiversity.
The process of clonal selection in the immune system produces numerous B cells and T cells that are activated in response to specific antigens. This involves the proliferation of cells that have receptors capable of binding to a particular antigen, resulting in an amplified response to combat the invading pathogen.
Many flowering plants possesses both sexual and certain types of asexual propagation. Those group of similar plants which are reproduced asexully and grown together in the same place are clonal. The each individual of this group or clony is known as Ramet. If there is genetic dissimalaraties within a clony is clonal diversity.
WOC
Mutation and natural selection.