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Life Sciences Commons

Open Access. Powered by Scholars. Published by Universities.®

2016

Selected Works

Genetics and Genomics

Population genetics

Articles 1 - 2 of 2

Full-Text Articles in Life Sciences

Comparative Phylogeography Of Pteropus Samoensis And P. Tonganus (Pteropodidae: Chiroptera) In The South Pacific, Amy L. Russell, Veronica A. Brown, Ruth C. B. Utzurrum, Anne P. Brooke, Lisa A. Wolf, Gary F. Mccracken Nov 2016

Comparative Phylogeography Of Pteropus Samoensis And P. Tonganus (Pteropodidae: Chiroptera) In The South Pacific, Amy L. Russell, Veronica A. Brown, Ruth C. B. Utzurrum, Anne P. Brooke, Lisa A. Wolf, Gary F. Mccracken

Amy L. Russell

Pteropids are large, highly mobile bats that are distributed widely across islands of the Pacific and Indian Oceans, southern Asia, and Australia. Dispersal behaviors and colonization patterns of pteropid species among oceanic islands are poorly known. In the southern Pacific, Pteropus samoensis and P. tonganus have partially overlapping ranges, existing in sympatry on the Samoan and Fijian archipelagos. These species exhibit differences in morphology and roosting behavior, with P. samoensis being smaller and tending to roost solitarily or in small groups. Here, we use genetic data to explore whether these species also exhibit differences with regard to patterns of population …

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A Gene-Based Association Method For Mapping Traits Using Reference Transcriptome Data, Eric R. Gamazon, Heather Wheeler, Kaanan P. Shah, Sahar V. Mozaffari, Keston Aquino-Michaels, Robert J. Carroll, Anne E. Eyler, Joshua C. Denny, Dan L. Nicolae, Nancy J. Cox, Hae Kyung Im Aug 2016

A Gene-Based Association Method For Mapping Traits Using Reference Transcriptome Data, Eric R. Gamazon, Heather Wheeler, Kaanan P. Shah, Sahar V. Mozaffari, Keston Aquino-Michaels, Robert J. Carroll, Anne E. Eyler, Joshua C. Denny, Dan L. Nicolae, Nancy J. Cox, Hae Kyung Im

Heather Wheeler

Genome-wide association studies (GWAS) have identified thousands of variants robustly associated with complex traits. However, the biological mechanisms underlying these associations are, in general, not well understood. We propose a gene-based association method called PrediXcan that directly tests the molecular mechanisms through which genetic variation affects phenotype. The approach estimates the component of gene expression determined by an individual’s genetic profile and correlates ‘imputed’ gene expression with the phenotype under investigation to identify genes involved in the etiology of the phenotype. Genetically regulated gene expression is estimated using whole-genome tissue-dependent prediction models trained with reference transcriptome data sets. PrediXcan enjoys …

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