Your search keyword '"Lyman, Richard F."' showing total 5 results

1. Genetic basis of transcriptome diversity in Drosophila melanogaster

Author

Huang, Wen, Carbone, Mary Anna, Magwire, Michael M, Peiffer, Jason, Lyman, Richard F, Stone, Eric, Anholt, Robert R H, Mackay, Trudy FC, Huang, Wen, Carbone, Mary Anna, Magwire, Michael M, Peiffer, Jason, Lyman, Richard F, Stone, Eric, Anholt, Robert R H, and Mackay, Trudy FC

Abstract

Understanding how DNA sequence variation is translated into variation for complex phenotypes has remained elusive but is essential for predicting adaptive evolution, for selecting agriculturally important animals and crops, and for personalized medicine. Gene expression may provide a link between variation in DNA sequence and organismal phenotypes, and its abundance can be measured efficiently and accurately. Here we quantified genomewide variation in gene expression in the sequenced inbred lines of the Drosophila melanogaster Genetic Reference Panel (DGRP), increasing the annotated Drosophila transcriptome by 11%, including thousands of novel transcribed regions (NTRs). We found that 42%of the Drosophila transcriptome is genetically variable in males and females, including the NTRs, and is organized into modules of genetically correlated transcripts. We found that NTRs often were negatively correlated with the expression of protein-coding genes, which we exploited to annotate NTRs functionally. We identified regulatory variants for the mean and variance of gene expression, which have largely independent genetic control. Expression quantitative trait loci (eQTLs) for the mean, but not for the variance, of gene expression were concentrated near genes. Notably, the variance eQTLs often interacted epistatically with local variants in these genes to regulate gene expression. This comprehensive characterization of population-scale diversity of transcriptomes and its genetic basis in the DGRP is critically important for a systems understanding of quantitative trait variation.

Published

2015

2. Natural variation in genome architecture among 205 Drosophila melanogaster Genetic Reference Panel lines

Author

Huang, Wen, Massouras, Andreas, Inoue, Yutaka, Peiffer, Jason, Ramia, Miquel, Tarone, Aaron M, Turlapati, Lavanya, Zichner, Thomas, Zhu, Dianhui, Lyman, Richard F, Stone, Eric, Huang, Wen, Massouras, Andreas, Inoue, Yutaka, Peiffer, Jason, Ramia, Miquel, Tarone, Aaron M, Turlapati, Lavanya, Zichner, Thomas, Zhu, Dianhui, Lyman, Richard F, and Stone, Eric

Abstract

The Drosophila melanogaster Genetic Reference Panel (DGRP) is a community resource of 205 sequenced inbred lines, derived to improve our understanding of the effects of naturally occurring genetic variation on molecular and organismal phenotypes. We used an integrated genotyping strategy to identify 4,853,802 single nucleotide polymorphisms (SNPs) and 1,296,080 non-SNP variants. Our molecular population genomic analyses show higher deletion than insertion mutation rates and stronger purifying selection on deletions. Weaker selection on insertions than deletions is consistent with our observed distribution of genome size determined by flow cytometry, which is skewed toward larger genomes. Insertion/deletion and single nucleotide polymorphisms are positively correlated with each other and with local recombination, suggesting that their nonrandom distributions are due to hitchhiking and background selection. Our cytogenetic analysis identified 16 polymorphic inversions in the DGRP. Common inverted and standard karyotypes are genetically divergent and account for most of the variation in relatedness among the DGRP lines. Intriguingly, variation in genome size and many quantitative traits are significantly associated with inversions. Approximately 50% of the DGRP lines are infected with Wolbachia, and four lines have germline insertions of Wolbachia sequences, but effects of Wolbachia infection on quantitative traits are rarely significant. The DGRP complements ongoing efforts to functionally annotate the Drosophila genome. Indeed, 15% of all D. melanogaster genes segregate for potentially damaged proteins in the DGRP, and genome-wide analyses of quantitative traits identify novel candidate genes. The DGRP lines, sequence data, genotypes, quality scores, phenotypes, and analysis and visualization tools are publicly available.

Published

2014

3. The Drosophila melanogaster Genetic Reference Panel.

Author

Mackay, Trudy FC, Mackay, Trudy FC, Richards, Stephen, Stone, Eric A, Barbadilla, Antonio, Ayroles, Julien F, Zhu, Dianhui, Casillas, Sònia, Han, Yi, Magwire, Michael M, Cridland, Julie M, Richardson, Mark F, Anholt, Robert RH, Barrón, Maite, Bess, Crystal, Blankenburg, Kerstin Petra, Carbone, Mary Anna, Castellano, David, Chaboub, Lesley, Duncan, Laura, Harris, Zeke, Javaid, Mehwish, Jayaseelan, Joy Christina, Jhangiani, Shalini N, Jordan, Katherine W, Lara, Fremiet, Lawrence, Faye, Lee, Sandra L, Librado, Pablo, Linheiro, Raquel S, Lyman, Richard F, Mackey, Aaron J, Munidasa, Mala, Muzny, Donna Marie, Nazareth, Lynne, Newsham, Irene, Perales, Lora, Pu, Ling-Ling, Qu, Carson, Ràmia, Miquel, Reid, Jeffrey G, Rollmann, Stephanie M, Rozas, Julio, Saada, Nehad, Turlapati, Lavanya, Worley, Kim C, Wu, Yuan-Qing, Yamamoto, Akihiko, Zhu, Yiming, Bergman, Casey M, Thornton, Kevin R, Mittelman, David, Gibbs, Richard A, Mackay, Trudy FC, Mackay, Trudy FC, Richards, Stephen, Stone, Eric A, Barbadilla, Antonio, Ayroles, Julien F, Zhu, Dianhui, Casillas, Sònia, Han, Yi, Magwire, Michael M, Cridland, Julie M, Richardson, Mark F, Anholt, Robert RH, Barrón, Maite, Bess, Crystal, Blankenburg, Kerstin Petra, Carbone, Mary Anna, Castellano, David, Chaboub, Lesley, Duncan, Laura, Harris, Zeke, Javaid, Mehwish, Jayaseelan, Joy Christina, Jhangiani, Shalini N, Jordan, Katherine W, Lara, Fremiet, Lawrence, Faye, Lee, Sandra L, Librado, Pablo, Linheiro, Raquel S, Lyman, Richard F, Mackey, Aaron J, Munidasa, Mala, Muzny, Donna Marie, Nazareth, Lynne, Newsham, Irene, Perales, Lora, Pu, Ling-Ling, Qu, Carson, Ràmia, Miquel, Reid, Jeffrey G, Rollmann, Stephanie M, Rozas, Julio, Saada, Nehad, Turlapati, Lavanya, Worley, Kim C, Wu, Yuan-Qing, Yamamoto, Akihiko, Zhu, Yiming, Bergman, Casey M, Thornton, Kevin R, Mittelman, David, and Gibbs, Richard A

Abstract

A major challenge of biology is understanding the relationship between molecular genetic variation and variation in quantitative traits, including fitness. This relationship determines our ability to predict phenotypes from genotypes and to understand how evolutionary forces shape variation within and between species. Previous efforts to dissect the genotype-phenotype map were based on incomplete genotypic information. Here, we describe the Drosophila melanogaster Genetic Reference Panel (DGRP), a community resource for analysis of population genomics and quantitative traits. The DGRP consists of fully sequenced inbred lines derived from a natural population. Population genomic analyses reveal reduced polymorphism in centromeric autosomal regions and the X chromosome, evidence for positive and negative selection, and rapid evolution of the X chromosome. Many variants in novel genes, most at low frequency, are associated with quantitative traits and explain a large fraction of the phenotypic variance. The DGRP facilitates genotype-phenotype mapping using the power of Drosophila genetics.

Published

2012

4. The Drosophila melanogaster Genetic Reference Panel

Author

Mackay, Trudy FC, Richards, Stephen, Stone, Eric A, Barbadilla, Antonio, Ayroles, Julien F, Zhu, Dianhui, Casillas, Sonia, Han, Yi, Magwire, Michael M, Cridland, Julie M, Richardson, Mark F, Anholt, Robert RH, Barrón, Maite, Bess, Crystal, Blankenburg, Kerstin Petra, Carbone, Mary Anna, Castellano, David, Chaboub, Lesley, Duncan, Laura, Harris, Zeke, Javaid, Mehwish, Jayaseelan, Joy Christina, Jhangiani, Shalini N, Jordan, Katherine W, Lara, Fremiet, Lawrence, Faye, Lee, Sandra L, Librado, Pablo, Linheiro, Raquel S, Lyman, Richard F, Mackey, Aaron J, Munidasa, Mala, Muzny, Donna Marie, Nazareth, Lynne, Newsham, Irene, Perales, Lora, Pu, Ling-Ling, Qu, Carson, Ràmia, Miquel, Reid, Jeffrey G, Rollmann, Stephanie M, Rozas, Julio, Saada, Nehad, Turlapati, Lavanya, Worley, Kim C, Wu, Yuan-Qing, Yamamoto, Akihiko, Zhu, Yiming, Bergman, Casey M, Thornton, Kevin R, Mittelman, David, Gibbs, Richard A, Mackay, Trudy FC, Richards, Stephen, Stone, Eric A, Barbadilla, Antonio, Ayroles, Julien F, Zhu, Dianhui, Casillas, Sonia, Han, Yi, Magwire, Michael M, Cridland, Julie M, Richardson, Mark F, Anholt, Robert RH, Barrón, Maite, Bess, Crystal, Blankenburg, Kerstin Petra, Carbone, Mary Anna, Castellano, David, Chaboub, Lesley, Duncan, Laura, Harris, Zeke, Javaid, Mehwish, Jayaseelan, Joy Christina, Jhangiani, Shalini N, Jordan, Katherine W, Lara, Fremiet, Lawrence, Faye, Lee, Sandra L, Librado, Pablo, Linheiro, Raquel S, Lyman, Richard F, Mackey, Aaron J, Munidasa, Mala, Muzny, Donna Marie, Nazareth, Lynne, Newsham, Irene, Perales, Lora, Pu, Ling-Ling, Qu, Carson, Ràmia, Miquel, Reid, Jeffrey G, Rollmann, Stephanie M, Rozas, Julio, Saada, Nehad, Turlapati, Lavanya, Worley, Kim C, Wu, Yuan-Qing, Yamamoto, Akihiko, Zhu, Yiming, Bergman, Casey M, Thornton, Kevin R, Mittelman, David, and Gibbs, Richard A

Abstract

A major challenge of biology is understanding the relationship between molecular genetic variation and variation in quantitative traits, including fitness. This relationship determines our ability to predict phenotypes from genotypes and to understand how evolutionary forces shape variation within and between species. Previous efforts to dissect the genotype–phenotype map were based on incomplete genotypic information. Here, we describe the Drosophila melanogaster Genetic Reference Panel (DGRP), a community resource for analysis of population genomics and quantitative traits. The DGRP consists of fully sequenced inbred lines derived from a natural population. Population genomic analyses reveal reduced polymorphism in centromeric autosomal regions and the X chromosome, evidence for positive and negative selection, and rapid evolution of the X chromosome. Many variants in novel genes, most at low frequency, are associated with quantitative traits and explain a large fraction of the phenotypic variance. The DGRP facilitates genotype–phenotype mapping using the power of Drosophila genetics.

Published

2012

5. The Drosophila melanogaster Genetic Reference Panel.

Author

Mackay, Trudy FC, Mackay, Trudy FC, Richards, Stephen, Stone, Eric A, Barbadilla, Antonio, Ayroles, Julien F, Zhu, Dianhui, Casillas, Sònia, Han, Yi, Magwire, Michael M, Cridland, Julie M, Richardson, Mark F, Anholt, Robert RH, Barrón, Maite, Bess, Crystal, Blankenburg, Kerstin Petra, Carbone, Mary Anna, Castellano, David, Chaboub, Lesley, Duncan, Laura, Harris, Zeke, Javaid, Mehwish, Jayaseelan, Joy Christina, Jhangiani, Shalini N, Jordan, Katherine W, Lara, Fremiet, Lawrence, Faye, Lee, Sandra L, Librado, Pablo, Linheiro, Raquel S, Lyman, Richard F, Mackey, Aaron J, Munidasa, Mala, Muzny, Donna Marie, Nazareth, Lynne, Newsham, Irene, Perales, Lora, Pu, Ling-Ling, Qu, Carson, Ràmia, Miquel, Reid, Jeffrey G, Rollmann, Stephanie M, Rozas, Julio, Saada, Nehad, Turlapati, Lavanya, Worley, Kim C, Wu, Yuan-Qing, Yamamoto, Akihiko, Zhu, Yiming, Bergman, Casey M, Thornton, Kevin R, Mittelman, David, Gibbs, Richard A, Mackay, Trudy FC, Mackay, Trudy FC, Richards, Stephen, Stone, Eric A, Barbadilla, Antonio, Ayroles, Julien F, Zhu, Dianhui, Casillas, Sònia, Han, Yi, Magwire, Michael M, Cridland, Julie M, Richardson, Mark F, Anholt, Robert RH, Barrón, Maite, Bess, Crystal, Blankenburg, Kerstin Petra, Carbone, Mary Anna, Castellano, David, Chaboub, Lesley, Duncan, Laura, Harris, Zeke, Javaid, Mehwish, Jayaseelan, Joy Christina, Jhangiani, Shalini N, Jordan, Katherine W, Lara, Fremiet, Lawrence, Faye, Lee, Sandra L, Librado, Pablo, Linheiro, Raquel S, Lyman, Richard F, Mackey, Aaron J, Munidasa, Mala, Muzny, Donna Marie, Nazareth, Lynne, Newsham, Irene, Perales, Lora, Pu, Ling-Ling, Qu, Carson, Ràmia, Miquel, Reid, Jeffrey G, Rollmann, Stephanie M, Rozas, Julio, Saada, Nehad, Turlapati, Lavanya, Worley, Kim C, Wu, Yuan-Qing, Yamamoto, Akihiko, Zhu, Yiming, Bergman, Casey M, Thornton, Kevin R, Mittelman, David, and Gibbs, Richard A

Abstract

A major challenge of biology is understanding the relationship between molecular genetic variation and variation in quantitative traits, including fitness. This relationship determines our ability to predict phenotypes from genotypes and to understand how evolutionary forces shape variation within and between species. Previous efforts to dissect the genotype-phenotype map were based on incomplete genotypic information. Here, we describe the Drosophila melanogaster Genetic Reference Panel (DGRP), a community resource for analysis of population genomics and quantitative traits. The DGRP consists of fully sequenced inbred lines derived from a natural population. Population genomic analyses reveal reduced polymorphism in centromeric autosomal regions and the X chromosome, evidence for positive and negative selection, and rapid evolution of the X chromosome. Many variants in novel genes, most at low frequency, are associated with quantitative traits and explain a large fraction of the phenotypic variance. The DGRP facilitates genotype-phenotype mapping using the power of Drosophila genetics.

Published

2012