Quantifying evolutionary constraints on B cell affinity maturation
Abstract
The antibody repertoire of each individual is continuously updated by the evolutionary process of B cell receptor mutation and selection. It has recently become possible to gain detailed information concerning this process through high-throughput sequencing. Here, we develop modern statistical molecular evolution methods for the analysis of B cell sequence data, and then apply them to a very deep short-read data set of B cell receptors. We find that the substitution process is conserved across individuals but varies significantly across gene segments. We investigate selection on B cell receptors using a novel method that side-steps the difficulties encountered by previous work in differentiating between selection and motif-driven mutation; this is done through stochastic mapping and empirical Bayes estimators that compare the evolution of in-frame and out-of-frame rearrangements. We use this new method to derive a per-residue map of selection, which provides a more nuanced view of the constraints on framework and variable regions.
Cite
@article{arxiv.1403.3066,
title = {Quantifying evolutionary constraints on B cell affinity maturation},
author = {Connor O. McCoy and Trevor Bedford and Vladimir N. Minin and Philip Bradley and Harlan Robins and Frederick A. Matsen},
journal= {arXiv preprint arXiv:1403.3066},
year = {2015}
}
Comments
Previously entitled "Substitution and site-specific selection driving B cell affinity maturation is consistent across individuals"