Identification of candidate vaccine antigens in silico

Darren R. Flower; Matthew N. Davies; Irini A. Doytchinova

doi:10.1007/978-1-4614-5070-2_3

Identification of candidate vaccine antigens in silico

Darren R. Flower^*, Matthew N. Davies, Irini A. Doytchinova

^*Corresponding author for this work

Research output: Chapter in Book/Published conference output › Chapter

Abstract

The identification of immunogenic whole-protein antigens is fundamental to the successful discovery of candidate subunit vaccines and their rapid, effective, and efficient transformation into clinically useful, commercially successful vaccine formulations. In the wider context of the experimental discovery of vaccine antigens, with particular reference to reverse vaccinology, this chapter adumbrates the principal computational approaches currently deployed in the hunt for novel antigens: genome-level prediction of antigens, antigen identification through the use of protein sequence alignment-based approaches, antigen detection through the use of subcellular location prediction, and the use of alignment-independent approaches to antigen discovery. Reference is also made to the recent emergence of various expert systems for protein antigen identification.

Original language	English
Title of host publication	Immunomic Discovery of Adjuvants and Candidate Subunit Vaccines
Publisher	Springer
Pages	39-71
Number of pages	33
ISBN (Electronic)	9781461450702
ISBN (Print)	9781461450696
DOIs	https://doi.org/10.1007/978-1-4614-5070-2_3
Publication status	Published - 1 Jan 2013

Publication series

Name	Immunomics Reviews
Publisher	Springer
Volume	5

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title = "Identification of candidate vaccine antigens in silico",

abstract = "The identification of immunogenic whole-protein antigens is fundamental to the successful discovery of candidate subunit vaccines and their rapid, effective, and efficient transformation into clinically useful, commercially successful vaccine formulations. In the wider context of the experimental discovery of vaccine antigens, with particular reference to reverse vaccinology, this chapter adumbrates the principal computational approaches currently deployed in the hunt for novel antigens: genome-level prediction of antigens, antigen identification through the use of protein sequence alignment-based approaches, antigen detection through the use of subcellular location prediction, and the use of alignment-independent approaches to antigen discovery. Reference is also made to the recent emergence of various expert systems for protein antigen identification.",

author = "Flower, {Darren R.} and Davies, {Matthew N.} and Doytchinova, {Irini A.}",

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AU - Davies, Matthew N.

AU - Doytchinova, Irini A.

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N2 - The identification of immunogenic whole-protein antigens is fundamental to the successful discovery of candidate subunit vaccines and their rapid, effective, and efficient transformation into clinically useful, commercially successful vaccine formulations. In the wider context of the experimental discovery of vaccine antigens, with particular reference to reverse vaccinology, this chapter adumbrates the principal computational approaches currently deployed in the hunt for novel antigens: genome-level prediction of antigens, antigen identification through the use of protein sequence alignment-based approaches, antigen detection through the use of subcellular location prediction, and the use of alignment-independent approaches to antigen discovery. Reference is also made to the recent emergence of various expert systems for protein antigen identification.

AB - The identification of immunogenic whole-protein antigens is fundamental to the successful discovery of candidate subunit vaccines and their rapid, effective, and efficient transformation into clinically useful, commercially successful vaccine formulations. In the wider context of the experimental discovery of vaccine antigens, with particular reference to reverse vaccinology, this chapter adumbrates the principal computational approaches currently deployed in the hunt for novel antigens: genome-level prediction of antigens, antigen identification through the use of protein sequence alignment-based approaches, antigen detection through the use of subcellular location prediction, and the use of alignment-independent approaches to antigen discovery. Reference is also made to the recent emergence of various expert systems for protein antigen identification.

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M3 - Chapter

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T3 - Immunomics Reviews

SP - 39

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BT - Immunomic Discovery of Adjuvants and Candidate Subunit Vaccines

PB - Springer

ER -

Identification of candidate vaccine antigens in silico

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