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7 results on '"Spence, Jason S."'

1. Analyses of allele-specific gene expression in highly divergent mouse crosses identifies pervasive allelic imbalance

Author

Crowley, James J, Zhabotynsky, Vasyl, Sun, Wei, Huang, Shunping, Pakatci, Isa Kemal, Kim, Yunjung, Wang, Jeremy R, Morgan, Andrew P, Calaway, John D, Aylor, David L, Yun, Zaining, Bell, Timothy A, Buus, Ryan J, Calaway, Mark E, Didion, John P, Gooch, Terry J, Hansen, Stephanie D, Robinson, Nashiya N, Shaw, Ginger D, Spence, Jason S, Quackenbush, Corey R, Barrick, Cordelia J, Nonneman, Randal J, Kim, Kyungsu, Xenakis, James, Xie, Yuying, Valdar, William, Lenarcic, Alan B, Wang, Wei, Welsh, Catherine E, Fu, Chen-Ping, Zhang, Zhaojun, Holt, James, Guo, Zhishan, Threadgill, David W, Tarantino, Lisa M, Miller, Darla R, Zou, Fei, McMillan, Leonard, Sullivan, Patrick F, and Pardo-Manuel de Villena, Fernando

Subjects
Biotechnology, Human Genome, Genetics, Alleles, Allelic Imbalance, Animals, Crosses, Genetic, Dosage Compensation, Genetic, Female, Gene Expression, Genetic Speciation, Humans, Male, Mice, Mice, Knockout, Phylogeny, Polymorphism, Single Nucleotide, Biological Sciences, Medical and Health Sciences, Developmental Biology
Abstract

Complex human traits are influenced by variation in regulatory DNA through mechanisms that are not fully understood. Because regulatory elements are conserved between humans and mice, a thorough annotation of cis regulatory variants in mice could aid in further characterizing these mechanisms. Here we provide a detailed portrait of mouse gene expression across multiple tissues in a three-way diallel. Greater than 80% of mouse genes have cis regulatory variation. Effects from these variants influence complex traits and usually extend to the human ortholog. Further, we estimate that at least one in every thousand SNPs creates a cis regulatory effect. We also observe two types of parent-of-origin effects, including classical imprinting and a new global allelic imbalance in expression favoring the paternal allele. We conclude that, as with humans, pervasive regulatory variation influences complex genetic traits in mice and provide a new resource toward understanding the genetic control of transcription in mammals.

Published
2015

4. Erratum: Corrigendum: Analyses of allele-specific gene expression in highly divergent mouse crosses identifies pervasive allelic imbalance

Author

Crowley, James J, primary, Zhabotynsky, Vasyl, additional, Sun, Wei, additional, Huang, Shunping, additional, Pakatci, Isa Kemal, additional, Kim, Yunjung, additional, Wang, Jeremy R, additional, Morgan, Andrew P, additional, Calaway, John D, additional, Aylor, David L, additional, Yun, Zaining, additional, Bell, Timothy A, additional, Buus, Ryan J, additional, Calaway, Mark E, additional, Didion, John P, additional, Gooch, Terry J, additional, Hansen, Stephanie D, additional, Robinson, Nashiya N, additional, Shaw, Ginger D, additional, Spence, Jason S, additional, Quackenbush, Corey R, additional, Barrick, Cordelia J, additional, Nonneman, Randal J, additional, Kim, Kyungsu, additional, Xenakis, James, additional, Xie, Yuying, additional, Valdar, William, additional, Lenarcic, Alan B, additional, Wang, Wei, additional, Welsh, Catherine E, additional, Fu, Chen-Ping, additional, Zhang, Zhaojun, additional, Holt, James, additional, Guo, Zhishan, additional, Threadgill, David W, additional, Tarantino, Lisa M, additional, Miller, Darla R, additional, Zou, Fei, additional, McMillan, Leonard, additional, Sullivan, Patrick F, additional, and de Villena, Fernando Pardo-Manuel, additional

Published
2015
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5. Genetic analysis in the Collaborative Cross breeding population

Author

Philip, Vivek M., primary, Sokoloff, Greta, additional, Ackert-Bicknell, Cheryl L., additional, Striz, Martin, additional, Branstetter, Lisa, additional, Beckmann, Melissa A., additional, Spence, Jason S., additional, Jackson, Barbara L., additional, Galloway, Leslie D., additional, Barker, Paul, additional, Wymore, Ann M., additional, Hunsicker, Patricia R., additional, Durtschi, David C., additional, Shaw, Ginger S., additional, Shinpock, Sarah, additional, Manly, Kenneth F., additional, Miller, Darla R., additional, Donohue, Kevin D., additional, Culiat, Cymbeline T., additional, Churchill, Gary A., additional, Lariviere, William R., additional, Palmer, Abraham A., additional, O'Hara, Bruce F., additional, Voy, Brynn H., additional, and Chesler, Elissa J., additional

Published
2011
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6. Corrigendum: Analyses of allele-specific gene expression in highly divergent mouse crosses identifies pervasive allelic imbalance.

Author

Crowley, James J, Zhabotynsky, Vasyl, Sun, Wei, Huang, Shunping, Pakatci, Isa Kemal, Kim, Yunjung, Wang, Jeremy R, Morgan, Andrew P, Calaway, John D, Aylor, David L, Yun, Zaining, Bell, Timothy A, Buus, Ryan J, Calaway, Mark E, Didion, John P, Gooch, Terry J, Hansen, Stephanie D, Robinson, Nashiya N, Shaw, Ginger D, and Spence, Jason S

Subjects
GENETIC carriers, MICE genetics
Abstract

A correction to the article “Analyses of allele-specific gene expression in highly divergent mouse crosses identifies pervasive allelic imbalance" that was published online on 2nd March, 2015 after print in the 16th April, 2015 issue is presented.

Published
2015
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7. A Diallel of the Mouse Collaborative Cross Founders Reveals Strong Strain-Specific Maternal Effects on Litter Size.

Author

Shorter JR, Maurizio PL, Bell TA, Shaw GD, Miller DR, Gooch TJ, Spence JS, McMillan L, Valdar W, and Pardo-Manuel de Villena F

Subjects
Algorithms, Animals, Crosses, Genetic, Environment, Gene-Environment Interaction, Genetic Testing, Mice, Mice, Inbred Strains, Models, Genetic, Phenotype, Sex Ratio, Species Specificity, Alleles, Animals, Genetically Modified, Collaborative Cross Mice genetics, Litter Size genetics, Maternal Inheritance
Abstract

Reproductive success in the eight founder strains of the Collaborative Cross (CC) was measured using a diallel-mating scheme. Over a 48-month period we generated 4,448 litters, and provided 24,782 weaned pups for use in 16 different published experiments. We identified factors that affect the average litter size in a cross by estimating the overall contribution of parent-of-origin, heterosis, inbred, and epistatic effects using a Bayesian zero-truncated overdispersed Poisson mixed model. The phenotypic variance of litter size has a substantial contribution (82%) from unexplained and environmental sources, but no detectable effect of seasonality. Most of the explained variance was due to additive effects (9.2%) and parental sex (maternal vs. paternal strain; 5.8%), with epistasis accounting for 3.4%. Within the parental effects, the effect of the dam's strain explained more than the sire's strain (13.2% vs. 1.8%), and the dam's strain effects account for 74.2% of total variation explained. Dams from strains C57BL/6J and NOD/ShiLtJ increased the expected litter size by a mean of 1.66 and 1.79 pups, whereas dams from strains WSB/EiJ, PWK/PhJ, and CAST/EiJ reduced expected litter size by a mean of 1.51, 0.81, and 0.90 pups. Finally, there was no strong evidence for strain-specific effects on sex ratio distortion. Overall, these results demonstrate that strains vary substantially in their reproductive ability depending on their genetic background, and that litter size is largely determined by dam's strain rather than sire's strain effects, as expected. This analysis adds to our understanding of factors that influence litter size in mammals, and also helps to explain breeding successes and failures in the extinct lines and surviving CC strains., (Copyright © 2019 Shorter et al.)

Published
2019
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