Perspectives and opportunities in forensic human, animal, and plant integrative genomics in the Pangenome era

The Human Pangenome Reference Consortium, the Chinese Pangenome Consortium, and other plant and animal pangenome projects have announced the completion of pilot work aimed at constructing high-quality, haplotype-resolved reference graph genomes representative of global ethno-linguistically different...

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Vydáno v:	Forensic science international Ročník 367; s. 112370
Hlavní autoři:	He, Guanglin, Liu, Chao, Wang, Mengge
Médium:	Journal Article
Jazyk:	angličtina
Vydáno:	Ireland Elsevier B.V 01.02.2025 Elsevier Limited
Témata:	Algorithms Animal human relations Animal species Animals Bias Biomarkers Consortia DNA Fingerprinting DNA sequencing Drug resistance Epigenetics Forensic Genetics Forensic integrative genomics Forensic science Gene sequencing Genetic diversity Genetic Markers Genetic research Genome Genomes Genomic diversity Genomics Genotyping Haplotypes High-Throughput Nucleotide Sequencing Humans Long-read third-generation sequencing Microbiomes Microbiota Multiculturalism & pluralism Pangenome reference Paradigm shift Population Sequence Analysis, DNA Technological change Transcriptomics Southeast Asia China Africa Oceania Pangenome reference Long-read third-generation sequencing Forensic integrative genomics Genomic diversity Paradigm shift
ISSN:	0379-0738, 1872-6283, 1872-6283
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Abstract	The Human Pangenome Reference Consortium, the Chinese Pangenome Consortium, and other plant and animal pangenome projects have announced the completion of pilot work aimed at constructing high-quality, haplotype-resolved reference graph genomes representative of global ethno-linguistically different populations or different plant and animal species. These graph-based, gapless pangenome references, which are enriched in terms of genomic diversity, completeness, and contiguity, have the potential for enhancing long-read sequencing (LRS)-based genomic research, as well as improving mappability and variant genotyping on traditional short-read sequencing platforms. We comprehensively discuss the advancements in pangenome-based genomic integrative genomic discoveries across forensic-related species (humans, animals, and plants) and summarize their applications in variant identification and forensic genomics, epigenetics, transcriptomics, and microbiome research. Recent developments in multiplexed array sequencing have introduced a highly efficient and programmable technique to overcome the limitations of short forensic marker lengths in LRS platforms. This technique enables the concatenation of short RNA transcripts and DNA fragments into LRS-optimal molecules for sequencing, assembly, and genotyping. The integration of new pangenome reference coordinates and corresponding computational algorithms will benefit forensic integrative genomics by facilitating new marker identification, accurate genotyping, high-resolution panel development, and the updating of statistical algorithms. This review highlights the necessity of integrating LRS-based platforms, pangenome-based study designs, and graph-based pangenome references in short-read mapping and LRS-based innovations to achieve precision forensic science. •Global pangenome projects have built high-quality, haplotype-resolved reference genomes representing diverse populations.•Graph-based pangenome references enhance genomic diversity, benefiting long-read and short-read sequencing research.•Pangenome advances improve variant identification, forensic genomics, epigenetics, transcriptomics, and microbiome research.•MAS-seq addresses short forensic marker limitations by enabling optimal RNA and DNA fragment sequencing.•New pangenome coordinates and algorithms improve accurate genotyping, marker discovery, and forensic genomics innovations.
AbstractList	The Human Pangenome Reference Consortium, the Chinese Pangenome Consortium, and other plant and animal pangenome projects have announced the completion of pilot work aimed at constructing high-quality, haplotype-resolved reference graph genomes representative of global ethno-linguistically different populations or different plant and animal species. These graph-based, gapless pangenome references, which are enriched in terms of genomic diversity, completeness, and contiguity, have the potential for enhancing long-read sequencing (LRS)-based genomic research, as well as improving mappability and variant genotyping on traditional short-read sequencing platforms. We comprehensively discuss the advancements in pangenome-based genomic integrative genomic discoveries across forensic-related species (humans, animals, and plants) and summarize their applications in variant identification and forensic genomics, epigenetics, transcriptomics, and microbiome research. Recent developments in multiplexed array sequencing have introduced a highly efficient and programmable technique to overcome the limitations of short forensic marker lengths in LRS platforms. This technique enables the concatenation of short RNA transcripts and DNA fragments into LRS-optimal molecules for sequencing, assembly, and genotyping. The integration of new pangenome reference coordinates and corresponding computational algorithms will benefit forensic integrative genomics by facilitating new marker identification, accurate genotyping, high-resolution panel development, and the updating of statistical algorithms. This review highlights the necessity of integrating LRS-based platforms, pangenome-based study designs, and graph-based pangenome references in short-read mapping and LRS-based innovations to achieve precision forensic science. The Human Pangenome Reference Consortium, the Chinese Pangenome Consortium, and other plant and animal pangenome projects have announced the completion of pilot work aimed at constructing high-quality, haplotype-resolved reference graph genomes representative of global ethno-linguistically different populations or different plant and animal species. These graph-based, gapless pangenome references, which are enriched in terms of genomic diversity, completeness, and contiguity, have the potential for enhancing long-read sequencing (LRS)-based genomic research, as well as improving mappability and variant genotyping on traditional short-read sequencing platforms. We comprehensively discuss the advancements in pangenome-based genomic integrative genomic discoveries across forensic-related species (humans, animals, and plants) and summarize their applications in variant identification and forensic genomics, epigenetics, transcriptomics, and microbiome research. Recent developments in multiplexed array sequencing have introduced a highly efficient and programmable technique to overcome the limitations of short forensic marker lengths in LRS platforms. This technique enables the concatenation of short RNA transcripts and DNA fragments into LRS-optimal molecules for sequencing, assembly, and genotyping. The integration of new pangenome reference coordinates and corresponding computational algorithms will benefit forensic integrative genomics by facilitating new marker identification, accurate genotyping, high-resolution panel development, and the updating of statistical algorithms. This review highlights the necessity of integrating LRS-based platforms, pangenome-based study designs, and graph-based pangenome references in short-read mapping and LRS-based innovations to achieve precision forensic science. •Global pangenome projects have built high-quality, haplotype-resolved reference genomes representing diverse populations.•Graph-based pangenome references enhance genomic diversity, benefiting long-read and short-read sequencing research.•Pangenome advances improve variant identification, forensic genomics, epigenetics, transcriptomics, and microbiome research.•MAS-seq addresses short forensic marker limitations by enabling optimal RNA and DNA fragment sequencing.•New pangenome coordinates and algorithms improve accurate genotyping, marker discovery, and forensic genomics innovations. The Human Pangenome Reference Consortium, the Chinese Pangenome Consortium, and other plant and animal pangenome projects have announced the completion of pilot work aimed at constructing high-quality, haplotype-resolved reference graph genomes representative of global ethno-linguistically different populations or different plant and animal species. These graph-based, gapless pangenome references, which are enriched in terms of genomic diversity, completeness, and contiguity, have the potential for enhancing long-read sequencing (LRS)-based genomic research, as well as improving mappability and variant genotyping on traditional short-read sequencing platforms. We comprehensively discuss the advancements in pangenome-based genomic integrative genomic discoveries across forensic-related species (humans, animals, and plants) and summarize their applications in variant identification and forensic genomics, epigenetics, transcriptomics, and microbiome research. Recent developments in multiplexed array sequencing have introduced a highly efficient and programmable technique to overcome the limitations of short forensic marker lengths in LRS platforms. This technique enables the concatenation of short RNA transcripts and DNA fragments into LRS-optimal molecules for sequencing, assembly, and genotyping. The integration of new pangenome reference coordinates and corresponding computational algorithms will benefit forensic integrative genomics by facilitating new marker identification, accurate genotyping, high-resolution panel development, and the updating of statistical algorithms. This review highlights the necessity of integrating LRS-based platforms, pangenome-based study designs, and graph-based pangenome references in short-read mapping and LRS-based innovations to achieve precision forensic science.The Human Pangenome Reference Consortium, the Chinese Pangenome Consortium, and other plant and animal pangenome projects have announced the completion of pilot work aimed at constructing high-quality, haplotype-resolved reference graph genomes representative of global ethno-linguistically different populations or different plant and animal species. These graph-based, gapless pangenome references, which are enriched in terms of genomic diversity, completeness, and contiguity, have the potential for enhancing long-read sequencing (LRS)-based genomic research, as well as improving mappability and variant genotyping on traditional short-read sequencing platforms. We comprehensively discuss the advancements in pangenome-based genomic integrative genomic discoveries across forensic-related species (humans, animals, and plants) and summarize their applications in variant identification and forensic genomics, epigenetics, transcriptomics, and microbiome research. Recent developments in multiplexed array sequencing have introduced a highly efficient and programmable technique to overcome the limitations of short forensic marker lengths in LRS platforms. This technique enables the concatenation of short RNA transcripts and DNA fragments into LRS-optimal molecules for sequencing, assembly, and genotyping. The integration of new pangenome reference coordinates and corresponding computational algorithms will benefit forensic integrative genomics by facilitating new marker identification, accurate genotyping, high-resolution panel development, and the updating of statistical algorithms. This review highlights the necessity of integrating LRS-based platforms, pangenome-based study designs, and graph-based pangenome references in short-read mapping and LRS-based innovations to achieve precision forensic science.
ArticleNumber	112370
Author	He, Guanglin Liu, Chao Wang, Mengge
Author_xml	– sequence: 1 givenname: Guanglin orcidid: 0000-0002-6614-5267 surname: He fullname: He, Guanglin email: guanglinhescu@163.com organization: Institute of Rare Diseases, West China Hospital of Sichuan University, Sichuan University, Chengdu 610000, China – sequence: 2 givenname: Chao surname: Liu fullname: Liu, Chao email: liuchaogzf@163.com organization: Anti-Drug Technology Center of Guangdong Province, Guangzhou 510230, China – sequence: 3 givenname: Mengge surname: Wang fullname: Wang, Mengge email: Menggewang2021@163.com organization: Institute of Rare Diseases, West China Hospital of Sichuan University, Sichuan University, Chengdu 610000, China
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Keywords	Pangenome reference Long-read third-generation sequencing Forensic integrative genomics Genomic diversity Paradigm shift
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Snippet	The Human Pangenome Reference Consortium, the Chinese Pangenome Consortium, and other plant and animal pangenome projects have announced the completion of...
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SubjectTerms	Algorithms Animal human relations Animal species Animals Bias Biomarkers Consortia DNA Fingerprinting DNA sequencing Drug resistance Epigenetics Forensic Genetics Forensic integrative genomics Forensic science Gene sequencing Genetic diversity Genetic Markers Genetic research Genome Genomes Genomic diversity Genomics Genotyping Haplotypes High-Throughput Nucleotide Sequencing Humans Long-read third-generation sequencing Microbiomes Microbiota Multiculturalism & pluralism Pangenome reference Paradigm shift Population Sequence Analysis, DNA Technological change Transcriptomics
Title	Perspectives and opportunities in forensic human, animal, and plant integrative genomics in the Pangenome era
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