Natural variation in genome architecture among 205 <i>Drosophila melanogaster</i> Genetic Reference Panel lines

Huang, Wen; Massouras, Andreas; Inoue, Yutaka; Peiffer, Jason A.; Ràmia, Miquel; Tarone, Aaron M.; Turlapati, Lavanya; Zichner, Thomas; Zhu, Dianhui; Lyman, Richard F.; Magwire, Michael M.; Blankenburg, Kerstin P.; Carbone, Mary Anna; Chang, Kyle; Ellis, Lisa L.; Fernández, Sonia Rodríguez; Han, Yi; Highnam, Gareth; Hjelmen, Carl E.; Jack, John; Javaid, Mehwish; Jayaseelan, Joy C.; Kalra, Dipak; Lee, Sandy; Lewis, Lora; Munidasa, Mala; Ongeri, Fiona; Patel, Shohba; Perales, Lora; Perez, Agapito; Pu, Ling-Ling; Rollmann, Stephanie M.; Ruth, R. Montgomery; Saada, Nehad; Warner, Crystal B.; Williams, Aneisa; Wu, Yuanqing; Yamamoto, Akihiko; Zhang, Yiqing; Zhu, Yiping; Anholt, Robert R. H.; Korbel, Jan O.; Mittelman, David; Muzny, Donna M.; Gibbs, Richard A.; Barbadilla, Antonio; Johnston, J. Spencer; Stone, Eric A.; Richards, Stephen; Deplancke, Bart; Mackay, Trudy F. C.

doi:10.1101/gr.171546.113

Cited by 579 publications

(1,109 citation statements)

References 94 publications

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“…xQTL mapping in an AIP can be done with very large numbers of individuals, such that top variants can achieve significance following a strict Bonferroni correction for multiple tests; but unless many generations of recombination are allowed, local LD is much higher than in the DGRP, decreasing the mapping precision. In addition, association mapping in the DGRP can only be performed using common variants (minor allele frequencies > 0.05), 40 whereas the effects of private variants in any of the 6 parental lines used to construct the AIP can be assessed. However, this replication approach will only work if gene action of the causal variants is additive; in the presence of epistatic gene action, differences in allele frequency between the DGRP and the AIP will lead to failure of replication.…”

Section: Genetic Architecture Of D Melanogaster Abdominal Pigmentationmentioning

confidence: 99%

Genetic basis of natural variation in body pigmentation inDrosophila melanogaster

Dembeck

Huang

Carbone

et al. 2015

Fly

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Section: Genetic Architecture Of D Melanogaster Abdominal Pigmentationmentioning

confidence: 99%

Genetic basis of natural variation in body pigmentation inDrosophila melanogaster

Dembeck

Huang

Carbone

et al. 2015

Fly

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“…It consists of a collection of isofemale lines derived from a single field collection from the Raleigh NC farmers market, followed by 20 generations of fullsib mating that rendered most loci homozygous within lines (expected F= 0.986 22 ). As a result, the genetic variation that was present between individual flies in the natural population is now captured between lines in the panel.…”

Section: Drosophila Stocksmentioning

confidence: 99%

“…GWAS was performed using the code and approach decribed in 22 (dgrp2.gnets.ncsu.edu). In a first step phenotypic stores were adjusted for the potential effect of Wolbachia and known large inversions segregating in this panel (namely: In(2L)t, In(2R)NS, In(3R)P, In(3R)K, and In(3R)Mo) none of them were associated with variability turning bias.…”

Section: Genome Wide Association Mappingmentioning

confidence: 99%

“…To test this possibility, we scored additional phenotypes from our Y-maze data, namely, the total number of turns (a measure of overall activity); the mutual leftright information between successive turns; and the regularity of turn timing. We also analyzed other phenotypes previously measured on the DGRP (starvation resistance 22 , chill coma recovery 22 , startle response 22 , and night sleep 23 ). We found significant genetic variation for variability in all these phenotypes, confirming that genetic control of variability is ubiquitous across phenotypes.…”

mentioning

confidence: 99%

“…The DGRP lines have been fully sequenced 22 , allowing for whole-genome association mapping using the variability (i.e. MAD) of turning bias as a trait.…”

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Behavioral individuality reveals genetic control of phenotypic variability

Ayroles

Buchanan²,

Jenney

et al. 2014

Preprint

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Variability is ubiquitous in nature and a fundamental feature of complex systems. Few studies, however, have investigated variance itself as a trait under genetic control. By focusing primarily on trait means and ignoring the effect of alternative alleles on trait variability, we may be missing an important axis of genetic variation contributing to phenotypic differences among individuals 1,2 . To study genetic effects on individual-to-individual phenotypic variability (or intragenotypic variability), we used a panel of Drosophila inbred lines 3 and focused on locomotor handedness 4 , in an assay optimized to measure variability. We discovered that some lines had consistently high levels of intragenotypic variability among individuals while others had low levels. We demonstrate that the degree of variability is itself heritable. Using a genome-wide association study (GWAS) for the degree of intragenotypic variability as the phenotype across lines, we identified several genes expressed in the brain that affect variability in handedness without affecting the mean. One of these genes, Ten-a implicated a neuropil in the central complex 5 of the fly brain as influencing the magnitude of behavioral variability, a brain region involved in sensory integration and locomotor coordination 6 . We have validated these results using genetic deficiencies, null alleles, and inducible RNAi transgenes. This study reveals the constellation of phenotypes that can arise from a single genotype and it shows that different genetic backgrounds differ dramatically in their propensity for phenotypic variability. Because traditional mean-focused GWASs ignore the contribution of variability to overall phenotypic variation, current methods may miss important links between genotype and phenotype.

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Perspectives on the Drosophila melanogaster Model for Advances in Toxicological Science

Rand,

Tennessen,

Mackay

et al. 2023

Current Protocols

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The use of Drosophila melanogaster for studies of toxicology has grown considerably in the last decade. The Drosophila model has long been appreciated as a versatile and powerful model for developmental biology and genetics because of its ease of handling, short life cycle, low cost of maintenance, molecular genetic accessibility, and availability of a wide range of publicly available strains and data resources. These features, together with recent unique developments in genomics and metabolomics, make the fly model especially relevant and timely for the development of new approach methodologies and movements toward precision toxicology. Here, we offer a perspective on how flies can be leveraged to identify risk factors relevant to environmental exposures and human health. First, we review and discuss fundamental toxicologic principles for experimental design with Drosophila. Next, we describe quantitative and systems genetics approaches to resolve the genetic architecture and candidate pathways controlling susceptibility to toxicants. Finally, we summarize the current state and future promise of the emerging field of Drosophila metabolomics for elaborating toxic mechanisms. © 2023 The Authors. Current Protocols published by Wiley Periodicals LLC.

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

Cited by 579 publications

References 94 publications

Genetic basis of natural variation in body pigmentation inDrosophila melanogaster

Genetic basis of natural variation in body pigmentation inDrosophila melanogaster

Behavioral individuality reveals genetic control of phenotypic variability

Perspectives on the Drosophila melanogaster Model for Advances in Toxicological Science

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