Repertoire sequencing and the statistical ensemble approach to adaptive immunity

The recent advent of high-throughput sequencing of immune receptors allows for the study of immune repertoires in unprecedented depth. This should eventually lead to a better understanding of basic immune function and the development of valuable new diagnostic tools. However, the interpretation of t...

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Published in:Current opinion in systems biology Vol. 1; pp. 44 - 47
Main Authors: Callan, Curtis G., Mora, Thierry, Walczak, Aleksandra M.
Format: Journal Article
Language:English
Published: Elsevier Ltd 01.02.2017
Subjects:
Immunology
Next generation sequencing
Statistical physics
Next generation sequencing
Statistical physics
Immunology
ISSN:2452-3100, 2452-3100
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Abstract The recent advent of high-throughput sequencing of immune receptors allows for the study of immune repertoires in unprecedented depth. This should eventually lead to a better understanding of basic immune function and the development of valuable new diagnostic tools. However, the interpretation of these new sequence data can be difficult because the relationship between receptor sequence and immune specificity is generally unknown. In particular, phenotypically similar repertoires will in general be completely different at the sequence level because of cross-reactivity. Here we argue that sequence repertoires need to be considered statistically to overcome this functional degeneracy. New tools are needed to extract the functionally relevant statistical features from sequence data, separating them from individual-specific, stochastic, and other non-reproducible effects.
AbstractList The recent advent of high-throughput sequencing of immune receptors allows for the study of immune repertoires in unprecedented depth. This should eventually lead to a better understanding of basic immune function and the development of valuable new diagnostic tools. However, the interpretation of these new sequence data can be difficult because the relationship between receptor sequence and immune specificity is generally unknown. In particular, phenotypically similar repertoires will in general be completely different at the sequence level because of cross-reactivity. Here we argue that sequence repertoires need to be considered statistically to overcome this functional degeneracy. New tools are needed to extract the functionally relevant statistical features from sequence data, separating them from individual-specific, stochastic, and other non-reproducible effects.
Author Callan, Curtis G.
Walczak, Aleksandra M.
Mora, Thierry
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Snippet The recent advent of high-throughput sequencing of immune receptors allows for the study of immune repertoires in unprecedented depth. This should eventually...
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SubjectTerms Immunology
Next generation sequencing
Statistical physics
Title Repertoire sequencing and the statistical ensemble approach to adaptive immunity
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