The mutation patterns in B-cell immunoglobulin receptors reflect the influence of selection acting at multiple time-scales

doi:https://doi.org/10.1098/rstb.2014.0242

Open AccessArticle10.1098/rstb.2014.0242

The mutation patterns in B-cell immunoglobulin receptors reflect the influence of selection acting at multiple time-scales

Gur Yaari,Jennifer I. C. Benichou,Jason A. Vander Heiden,Steven H. Kleinstein,Yoram Louzoun-2015-07-21-Philosophical Transactions of the Royal Society B Biological Sciences

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TL;DRAbstract

During the several-week course of an immune response, B cells undergo a process of clonal expansion, somatic hypermutation of the immunoglobulin (Ig) genes and affinity-dependent selection. Over a lifetime, each B cell may participate in multiple rounds of affinity maturation as part of different immune responses. These two time-scales for selection are apparent in the structure of B-cell lineage trees, which often contain a 'trunk' consisting of mutations that are shared across all members of a clone, and several branches that form a 'canopy' consisting of mutations that are shared by a subset of clone members. The influence of affinity maturation on the B-cell population can be inferred by analysing the pattern of somatic mutations in the Ig. While global analysis of mutation patterns has shown evidence of strong selection pressures shaping the B-cell population, the effect of different time-scales of selection and diversification has not yet been studied. Analysis of B cells from bl

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During the several-week course of an immune response, B cells undergo a process of clonal expansion, somatic hypermutation of the immunoglobulin (Ig) genes and affinity-dependent selection. Over a lifetime, each B cell may participate in multiple rounds of affinity maturation as part of different immune responses. These two time-scales for selection are apparent in the structure of B-cell lineage trees, which often contain a 'trunk' consisting of mutations that are shared across all members of a clone, and several branches that form a 'canopy' consisting of mutations that are shared by a subset of clone members. The influence of affinity maturation on the B-cell population can be inferred by analysing the pattern of somatic mutations in the Ig. While global analysis of mutation patterns has shown evidence of strong selection pressures shaping the B-cell population, the effect of different time-scales of selection and diversification has not yet been studied. Analysis of B cells from bl

Keywords

Somatic hypermutationBiologyAffinity maturationComplementarity determining regionNegative selectionclone (Java method)PopulationGenetics

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