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This Concept Map, created with IHMC CmapTools, has information related to: Blanks_ abydiversity, Each B-lymphocyte becomes genetically programmed to produce an antibody functioning as a B-cell receptor (BCR) having a unique shaped Fab. process, Through random gene translocation, any combination of the multiple forms of each gene can join together. receptor editing, Through random gene translocation, any combination of the multiple forms of each gene can join together. negative selection, Through random gene translocation, any combination of the multiple forms of each gene can join together. junctional diversity, results Each B-lymphocyte will typically carry out a unique series of gene translocations and be able to produce an antibody with a unique shaped epitope-binding site., affinity maturation, Each B-lymphocyte becomes genetically programmed to produce an antibody functioning as a B-cell receptor (BCR) having a unique shaped Fab. light chain of Fab, Each B-lymphocyte becomes genetically programmed to produce an antibody functioning as a B-cell receptor (BCR) having a unique shaped Fab. heavy chain of Fab, Both B-lymphocytes and T-lymphocytes have evolved a unique system of gene-splicing called gene translocation. B-lymphocytes Each B-lymphocyte becomes genetically programmed to produce an antibody functioning as a B-cell receptor (BCR) having a unique shaped Fab., process The DNA of each B-lymphocyte there are multiple forms of each one of these variable determinant genes., The DNA of each B-lymphocyte there are multiple forms of each one of these variable determinant genes. process Through random gene translocation, any combination of the multiple forms of each gene can join together., Generation of Antibody Diversity combinatorial diversity through gene translocation Both B-lymphocytes and T-lymphocytes have evolved a unique system of gene-splicing called gene translocation.
