PuLSE: Quality control and quantification of peptide sequences explored by phage display libraries

The design of highly diverse phage display libraries is based on assumption that DNA bases are incorporated at similar rates within the randomized sequence. As library complexity increases and expected copy numbers of unique sequences decrease, the exploration of library space becomes sparser and th...

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Veröffentlicht in:	PloS one 2018-02, Vol.13 (2), p.e0193332
Hauptverfasser:	Shave, Steven, Mann, Stefan, Koszela, Joanna, Kerr, Alastair, Auer, Manfred
Format:	Artikel
Sprache:	eng
Schlagworte:	Algorithms Automation Bacteriophages Binding sites Bioinformatics Biological products Biology and Life Sciences Computational Biology Deoxyribonucleic acid Displays DNA Escherichia coli Gene sequencing Genomic libraries Immunoglobulins Immunology Libraries Medical schools Medical screening Molecular biology Nucleotide sequence Oligonucleotides - genetics Oligonucleotides - metabolism Peptide Library Peptides Phage display Phages Physiological aspects Proteins Quality control Research and Analysis Methods Software
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creator	Shave, Steven Mann, Stefan Koszela, Joanna Kerr, Alastair Auer, Manfred
description	The design of highly diverse phage display libraries is based on assumption that DNA bases are incorporated at similar rates within the randomized sequence. As library complexity increases and expected copy numbers of unique sequences decrease, the exploration of library space becomes sparser and the presence of truly random sequences becomes critical. We present the program PuLSE (Phage Library Sequence Evaluation) as a tool for assessing randomness and therefore diversity of phage display libraries. PuLSE runs on a collection of sequence reads in the fastq file format and generates tables profiling the library in terms of unique DNA sequence counts and positions, translated peptide sequences, and normalized 'expected' occurrences from base to residue codon frequencies. The output allows at-a-glance quantitative quality control of a phage library in terms of sequence coverage both at the DNA base and translated protein residue level, which has been missing from toolsets and literature. The open source program PuLSE is available in two formats, a C++ source code package for compilation and integration into existing bioinformatics pipelines and precompiled binaries for ease of use.
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subjects	Algorithms Automation Bacteriophages Binding sites Bioinformatics Biological products Biology and Life Sciences Computational Biology Deoxyribonucleic acid Displays DNA Escherichia coli Gene sequencing Genomic libraries Immunoglobulins Immunology Libraries Medical schools Medical screening Molecular biology Nucleotide sequence Oligonucleotides - genetics Oligonucleotides - metabolism Peptide Library Peptides Phage display Phages Physiological aspects Proteins Quality control Research and Analysis Methods Software
title	PuLSE: Quality control and quantification of peptide sequences explored by phage display libraries
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