A Perfect Match Genomic Landscape Provides a Unified Framework for the Precise Detection of Variation in Natural and Synthetic Haploid Genomes

We present a conceptually simple, sensitive, precise, and essentially nonstatistical solution for the analysis of genome variation in haploid organisms. The generation of a Perfect Match Genomic Landscape (PMGL), which computes intergenome identity with single nucleotide resolution, reveals signatur...

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Detalles Bibliográficos
Autores principales: Palacios-Flores, Kim, García-Sotelo, Jair, Castillo, Alejandra, Uribe, Carina, Aguilar, Luis, Morales, Lucía, Gómez-Romero, Laura, Reyes, José, Garciarubio, Alejandro, Boege, Margareta, Dávila, Guillermo
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Genetics Society of America 2018
Materias:
Investigations
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5887153/
https://www.ncbi.nlm.nih.gov/pubmed/29367403
http://dx.doi.org/10.1534/genetics.117.300589
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author Palacios-Flores, Kim
García-Sotelo, Jair
Castillo, Alejandra
Uribe, Carina
Aguilar, Luis
Morales, Lucía
Gómez-Romero, Laura
Reyes, José
Garciarubio, Alejandro
Boege, Margareta
Dávila, Guillermo
author_facet Palacios-Flores, Kim
García-Sotelo, Jair
Castillo, Alejandra
Uribe, Carina
Aguilar, Luis
Morales, Lucía
Gómez-Romero, Laura
Reyes, José
Garciarubio, Alejandro
Boege, Margareta
Dávila, Guillermo
author_sort Palacios-Flores, Kim
collection PubMed
description We present a conceptually simple, sensitive, precise, and essentially nonstatistical solution for the analysis of genome variation in haploid organisms. The generation of a Perfect Match Genomic Landscape (PMGL), which computes intergenome identity with single nucleotide resolution, reveals signatures of variation wherever a query genome differs from a reference genome. Such signatures encode the precise location of different types of variants, including single nucleotide variants, deletions, insertions, and amplifications, effectively introducing the concept of a general signature of variation. The precise nature of variants is then resolved through the generation of targeted alignments between specific sets of sequence reads and known regions of the reference genome. Thus, the perfect match logic decouples the identification of the location of variants from the characterization of their nature, providing a unified framework for the detection of genome variation. We assessed the performance of the PMGL strategy via simulation experiments. We determined the variation profiles of natural genomes and of a synthetic chromosome, both in the context of haploid yeast strains. Our approach uncovered variants that have previously escaped detection. Moreover, our strategy is ideally suited for further refining high-quality reference genomes. The source codes for the automated PMGL pipeline have been deposited in a public repository.
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spelling pubmed-58871532018-04-06 A Perfect Match Genomic Landscape Provides a Unified Framework for the Precise Detection of Variation in Natural and Synthetic Haploid Genomes Palacios-Flores, Kim García-Sotelo, Jair Castillo, Alejandra Uribe, Carina Aguilar, Luis Morales, Lucía Gómez-Romero, Laura Reyes, José Garciarubio, Alejandro Boege, Margareta Dávila, Guillermo Genetics Investigations We present a conceptually simple, sensitive, precise, and essentially nonstatistical solution for the analysis of genome variation in haploid organisms. The generation of a Perfect Match Genomic Landscape (PMGL), which computes intergenome identity with single nucleotide resolution, reveals signatures of variation wherever a query genome differs from a reference genome. Such signatures encode the precise location of different types of variants, including single nucleotide variants, deletions, insertions, and amplifications, effectively introducing the concept of a general signature of variation. The precise nature of variants is then resolved through the generation of targeted alignments between specific sets of sequence reads and known regions of the reference genome. Thus, the perfect match logic decouples the identification of the location of variants from the characterization of their nature, providing a unified framework for the detection of genome variation. We assessed the performance of the PMGL strategy via simulation experiments. We determined the variation profiles of natural genomes and of a synthetic chromosome, both in the context of haploid yeast strains. Our approach uncovered variants that have previously escaped detection. Moreover, our strategy is ideally suited for further refining high-quality reference genomes. The source codes for the automated PMGL pipeline have been deposited in a public repository. Genetics Society of America 2018-04 2018-01-24 /pmc/articles/PMC5887153/ /pubmed/29367403 http://dx.doi.org/10.1534/genetics.117.300589 Text en Copyright © 2018 by the Genetics Society of America Available freely online through the author-supported open access option.
spellingShingle Investigations
Palacios-Flores, Kim
García-Sotelo, Jair
Castillo, Alejandra
Uribe, Carina
Aguilar, Luis
Morales, Lucía
Gómez-Romero, Laura
Reyes, José
Garciarubio, Alejandro
Boege, Margareta
Dávila, Guillermo
A Perfect Match Genomic Landscape Provides a Unified Framework for the Precise Detection of Variation in Natural and Synthetic Haploid Genomes
title A Perfect Match Genomic Landscape Provides a Unified Framework for the Precise Detection of Variation in Natural and Synthetic Haploid Genomes
title_full A Perfect Match Genomic Landscape Provides a Unified Framework for the Precise Detection of Variation in Natural and Synthetic Haploid Genomes
title_fullStr A Perfect Match Genomic Landscape Provides a Unified Framework for the Precise Detection of Variation in Natural and Synthetic Haploid Genomes
title_full_unstemmed A Perfect Match Genomic Landscape Provides a Unified Framework for the Precise Detection of Variation in Natural and Synthetic Haploid Genomes
title_short A Perfect Match Genomic Landscape Provides a Unified Framework for the Precise Detection of Variation in Natural and Synthetic Haploid Genomes
title_sort perfect match genomic landscape provides a unified framework for the precise detection of variation in natural and synthetic haploid genomes
topic Investigations
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5887153/
https://www.ncbi.nlm.nih.gov/pubmed/29367403
http://dx.doi.org/10.1534/genetics.117.300589
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