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Full-Text Articles in Life Sciences
Taxonomic Assessment Of Two Wild House Mouse Subspecies Using Whole-Genome Sequencing., Raman Akinyanju Lawal, Verity L Mathis, Mary Barter, Jeremy R. Charette, Alexis Garretson, Beth L Dumont
Taxonomic Assessment Of Two Wild House Mouse Subspecies Using Whole-Genome Sequencing., Raman Akinyanju Lawal, Verity L Mathis, Mary Barter, Jeremy R. Charette, Alexis Garretson, Beth L Dumont
Faculty Research 2022
The house mouse species complex (Mus musculus) is comprised of three primary subspecies. A large number of secondary subspecies have also been suggested on the basis of divergent morphology and molecular variation at limited numbers of markers. While the phylogenetic relationships among the primary M. musculus subspecies are well-defined, relationships among secondary subspecies and between secondary and primary subspecies remain less clear. Here, we integrate de novo genome sequencing of museum-stored specimens of house mice from one secondary subspecies (M. m. bactrianus) and publicly available genome sequences of house mice previously characterized as M. m. helgolandicus, with whole genome sequences …
Svanna: Efficient And Accurate Pathogenicity Prediction Of Coding And Regulatory Structural Variants In Long-Read Genome Sequencing., Daniel Danis, Julius O B Jacobsen, Parithi Balachandran, Qihui Zhu, Feyza Yilmaz, Justin Reese, Matthias Haimel, Gholson J Lyon, Ingo Helbig, Christopher J Mungall, Christine R Beck, Charles Lee, Damian Smedley, Peter N Robinson
Svanna: Efficient And Accurate Pathogenicity Prediction Of Coding And Regulatory Structural Variants In Long-Read Genome Sequencing., Daniel Danis, Julius O B Jacobsen, Parithi Balachandran, Qihui Zhu, Feyza Yilmaz, Justin Reese, Matthias Haimel, Gholson J Lyon, Ingo Helbig, Christopher J Mungall, Christine R Beck, Charles Lee, Damian Smedley, Peter N Robinson
Faculty Research 2022
Structural variants (SVs) are implicated in the etiology of Mendelian diseases but have been systematically underascertained owing to sequencing technology limitations. Long-read sequencing enables comprehensive detection of SVs, but approaches for prioritization of candidate SVs are needed. Structural variant Annotation and analysis (SvAnna) assesses all classes of SVs and their intersection with transcripts and regulatory sequences, relating predicted effects on gene function with clinical phenotype data. SvAnna places 87% of deleterious SVs in the top ten ranks. The interpretable prioritizations offered by SvAnna will facilitate the widespread adoption of long-read sequencing in diagnostic genomics. SvAnna is available at https://github.com/TheJacksonLaboratory/SvAnn a …
Profiling Variable-Number Tandem Repeat Variation Across Populations Using Repeat-Pangenome Graphs., Tsung-Yu Lu, Human Genome Structural Variation Consortium, Mark J P Chaisson, Charles Lee, Qihui Zhu
Profiling Variable-Number Tandem Repeat Variation Across Populations Using Repeat-Pangenome Graphs., Tsung-Yu Lu, Human Genome Structural Variation Consortium, Mark J P Chaisson, Charles Lee, Qihui Zhu
Faculty Research 2021
Variable number tandem repeats (VNTRs) are composed of consecutive repetitive DNA with hypervariable repeat count and composition. They include protein coding sequences and associations with clinical disorders. It has been difficult to incorporate VNTR analysis in disease studies that use short-read sequencing because the traditional approach of mapping to the human reference is less effective for repetitive and divergent sequences. In this work, we solve VNTR mapping for short reads with a repeat-pangenome graph (RPGG), a data structure that encodes both the population diversity and repeat structure of VNTR loci from multiple haplotype-resolved assemblies. We develop software to build a …
Facial Shape And Allometry Quantitative Trait Locus Intervals In The Diversity Outbred Mouse Are Enriched For Known Skeletal And Facial Development Genes., David C Katz, J David Aponte, Wei Liu, Rebecca M Green, Jessica M Mayeux, K Michael Pollard, Daniel Pomp, Steven C. Munger, Stephen A Murray, Charles C Roseman, Christopher J Percival, James Cheverud, Ralph S Marcucio, Benedikt Hallgrímsson
Facial Shape And Allometry Quantitative Trait Locus Intervals In The Diversity Outbred Mouse Are Enriched For Known Skeletal And Facial Development Genes., David C Katz, J David Aponte, Wei Liu, Rebecca M Green, Jessica M Mayeux, K Michael Pollard, Daniel Pomp, Steven C. Munger, Stephen A Murray, Charles C Roseman, Christopher J Percival, James Cheverud, Ralph S Marcucio, Benedikt Hallgrímsson
Faculty Research 2020
The biology of how faces are built and come to differ from one another is complex. Discovering normal variants that contribute to differences in facial morphology is one key to untangling this complexity, with important implications for medicine and evolutionary biology. This study maps quantitative trait loci (QTL) for skeletal facial shape using Diversity Outbred (DO) mice. The DO is a randomly outcrossed population with high heterozygosity that captures the allelic diversity of eight inbred mouse lines from three subspecies. The study uses a sample of 1147 DO animals (the largest sample yet employed for a shape QTL study in …