sg:pub.10.1186/s12864-022-08572-y - Springer Nature SciGraph

Article Info

DATE

2022-05-07

AUTHORS

Dana Kristjansson, Jon Bohlin, Truc Trung Nguyen, Astanand Jugessur, Theodore G. Schurr

ABSTRACT

BackgroundWe combined an unsupervised learning methodology for analyzing mitogenome sequences with maximum likelihood (ML) phylogenetics to make detailed inferences about the evolution and diversification of mitochondrial DNA (mtDNA) haplogroup U5, which appears at high frequencies in northern Europe.MethodsHaplogroup U5 mitogenome sequences were gathered from GenBank. The hierarchal Bayesian Analysis of Population Structure (hierBAPS) method was used to generate groups of sequences that were then projected onto a rooted maximum likelihood (ML) phylogenetic tree to visualize the pattern of clustering. The haplogroup statuses of the individual sequences were assessed using Haplogrep2.ResultsA total of 23 hierBAPS groups were identified, all of which corresponded to subclades defined in Phylotree, v.17. The hierBAPS groups projected onto the ML phylogeny accurately clustered all haplotypes belonging to a specific haplogroup in accordance with Haplogrep2. By incorporating the geographic source of each sequence and subclade age estimates into this framework, inferences about the diversification of U5 mtDNAs were made. Haplogroup U5 has been present in northern Europe since the Mesolithic, and spread in both eastern and western directions, undergoing significant diversification within Scandinavia. A review of historical and archeological evidence attests to some of the population interactions contributing to this pattern.ConclusionsThe hierBAPS algorithm accurately grouped mitogenome sequences into subclades in a phylogenetically robust manner. This analysis provided new insights into the phylogeographic structure of haplogroup U5 diversity in northern Europe, revealing a detailed perspective on the diversity of subclades in this region and their distribution in Scandinavian populations. More... »

PAGES

354

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Journal

TITLE

BMC Genomics

ISSUE

VOLUME

Subjects

FOR: Biological Sciences

FOR: Genetics

MESH: Bayes Theorem

MESH: Dna, Mitochondrial

MESH: Europe

MESH: Evolution, Molecular

MESH: Genetics, Population

MESH: Haplotypes

MESH: Humans

MESH: Phylogeny

MESH: Phylogeography

MESH: Unsupervised Machine Learning

Author Affiliations

Department of Global Public Health and Primary Care, Faculty of Medicine, University of Bergen, Bergen, Norway

Department of Method Development and Analytics, Norwegian Institute of Public Health, Oslo, Norway

IT Systems Bergen, Norwegian Institute of Public Health, Bergen, Norway

Department of Anthropology, University of Pennsylvania, Philadelphia, PA, USA

From Grant

The Intrauterine Redox State And Telomere Length In The Newborn

Identifiers

URI

http://scigraph.springernature.com/pub.10.1186/s12864-022-08572-y

DOI

http://dx.doi.org/10.1186/s12864-022-08572-y

DIMENSIONS

https://app.dimensions.ai/details/publication/pub.1147717560

PUBMED

https://www.ncbi.nlm.nih.gov/pubmed/35525961

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42	″	schema:description	BackgroundWe combined an unsupervised learning methodology for analyzing mitogenome sequences with maximum likelihood (ML) phylogenetics to make detailed inferences about the evolution and diversification of mitochondrial DNA (mtDNA) haplogroup U5, which appears at high frequencies in northern Europe.MethodsHaplogroup U5 mitogenome sequences were gathered from GenBank. The hierarchal Bayesian Analysis of Population Structure (hierBAPS) method was used to generate groups of sequences that were then projected onto a rooted maximum likelihood (ML) phylogenetic tree to visualize the pattern of clustering. The haplogroup statuses of the individual sequences were assessed using Haplogrep2.ResultsA total of 23 hierBAPS groups were identified, all of which corresponded to subclades defined in Phylotree, v.17. The hierBAPS groups projected onto the ML phylogeny accurately clustered all haplotypes belonging to a specific haplogroup in accordance with Haplogrep2. By incorporating the geographic source of each sequence and subclade age estimates into this framework, inferences about the diversification of U5 mtDNAs were made. Haplogroup U5 has been present in northern Europe since the Mesolithic, and spread in both eastern and western directions, undergoing significant diversification within Scandinavia. A review of historical and archeological evidence attests to some of the population interactions contributing to this pattern.ConclusionsThe hierBAPS algorithm accurately grouped mitogenome sequences into subclades in a phylogenetically robust manner. This analysis provided new insights into the phylogeographic structure of haplogroup U5 diversity in northern Europe, revealing a detailed perspective on the diversity of subclades in this region and their distribution in Scandinavian populations.
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50	″	″	Bayesian analysis
51	″	″	Europe
52	″	″	GenBank
53	″	″	ML phylogeny
54	″	″	Mesolithic
55	″	″	Phylotree
56	″	″	Scandinavia
57	″	″	Scandinavian populations
58	″	″	U5
59	″	″	accordance
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92	″	″	maximum likelihood phylogenetic tree
93	″	″	maximum likelihood phylogenetics
94	″	″	method
95	″	″	methodology
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97	″	″	mtDNAs
98	″	″	new insights
99	″	″	northern Europe
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121	″	″	unsupervised learning approach
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Evolution and dispersal of mitochondrial DNA haplogroup U5 in Northern Europe: insights from an unsupervised learning approach to phylogeography View Full Text