Identification of a genetic network for an ecologically relevant behavioural phenotype in <i>Drosophila melanogaster</i>

Zhang, Wenyu; Reeves, R. Guy; Tautz, Diethard

doi:10.1111/mec.15341

Cited by 5 publications

(26 citation statements)

References 68 publications

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“…The spread of pupal case length among the DGRP inbred lines exceeded that of the DSPR recombinant inbred stocks (ranging from 2.9 mm to 3.5 mm) (Reeves and Tautz, 2017), suggesting that DGRP lines capture indeed the existing variation of pupal case length in Drosophila melanogaster . The same conclusion applies also to the pupation site choice phenotype, as we have shown previously (Zhang et al, 2020).…”

Section: Resultssupporting

confidence: 86%

“…Our results show a much higher contribution of autosomes to the variance of pupal case length (Table 1-figure supplement 1), with the exception of chromosome 4, mostly likely due to the limited number of genetic variants within this chromosome. Hence, pupal case length is a highly heritable phenotype and the DGRP lines include the genetic variation suitable for mapping, similarly as we have previously shown for the pupation site choice phenotype (Zhang et al, 2020).…”

Section: Resultssupporting

confidence: 57%

“…We adapted and modified the earlier image-analysis based phenotyping pipeline (Reeves and Tautz, 2017) for the high-throughput measurement of pupal case length. The same approach allows also to score the independent phenotype of pupation site choice (pupation height) and for both we have shown that a very large number of phenotypes can be measured with high precision (Reeves and Tautz, 2017; Zhang et al, 2020).…”

Section: Resultsmentioning

confidence: 99%

“…We have chosen Drosophila pupal size and pupation site choice as quantitative phenotypes, for which we have previously developed automated phenotyping pipelines and have shown their polygenic basis (Reeves and Tautz, 2017; Zhang et al, 2020). The pupal stage is an immobile life history stage of transformation between larval and adult stages found in holometabolous insects (Jones and Reiter, 1975; Price, 1970).…”

Section: Introductionmentioning

confidence: 99%

“…Pupation site choice (or pupation height) is measured as the distance of the pupation site above the surface of the food. It reflects an ecologically relevant trait that is behaviourally determined and where a core network could be identified (Zhang et al, 2020). The phenotypes are not directly related to each other (Zhang et al, 2020).…”

Section: Introductionmentioning

confidence: 99%

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Testing implications of the polygenic model for the genetic analysis of loci identified through genome-wide association

Zhang

Reeves

Tautz

2019

Preprint

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27The omnigenic model suggests the existence of core networks of genes for quantitative traits, which are influenced 28 by modifiers that may encompass most, if not all expressed genes in the genome. We have studied pupation site 29 choice behaviour in Drosophila to test this model. Based on a GWA analysis of the Drosophila Genetic Reference 30 Panel (DGRP) stocks, we identify candidate genes and show for disrupted versions of the genes that most are indeed 31 involved in the phenotype. These candidate genes also allowed us to identify a core network and we experimentally 32 confirm the involvement of other members of this core network in the trait. Intriguingly, when randomly choosing 20 33 non-network genes we also find an involvement in the trait for most of them. Comparison of phenotypic effect sizes 34 suggest that the core network genes have on average stronger effects. Our data thus confirm the predictions of an 35 omnigenic genetic architecture. 36 37 48 or disease etiology in human disease studies. These are expected to be modified by many, if not all other genes 49 expressed in the same cells. Although the effect sizes of these other genes are expected to be smaller than those of 50 the core genes, in sum they explain more of the genetic variance or heritability than the set of core genes. However, 51an explicit test of this model is still lacking. 52We assess here predictions of the omnigenic model using an ecologically relevant quantitative behavioural trait in 53 Drosophila melanogaster, namely pupation site choice. The pupal stage is a life history stage found in 54 holometabolous insects undergoing transformation between larval and adult stages (Jones and Reiter, 1975; Price, 55 1970). The choice of pupation site is known to directly influence the probability of successful eclosion of adult flies 56 (Joshi and Mueller, 1993; Rodriguez et al., 1992; Sokolowski, 1985), as pupae are exposed to many biotic and 57 abiotic risks while immobilized during the 3-4 days of metamorphosis. Patterns of pupation site choices in a number 58 of Drosophila species have been extensively investigated (Erezyilmaz and Stern, 2013; Markow, 1979; Vandal et al., 59 2012 Vandal et al., 59 , 2008, and substantial variation has been found both within and between species. Several environmental 60 factors, such as temperature (Schnebel and Grossfield, 1992), light (Markow, 1981; Schnebel and Grossfield, 1986), 61 humidity (Casares et al., 1997; Sokal et al., 1960) and food medium (Harini, 2013; Hodge and Caslaw, 1998) have 62 been shown to contribute to the variation. Biotic factors were also identified, including sex (Casares and Carracedo, 63 1987), larval development time (Welbergen and Sokolowski 1994), and larval density in the vial (Joshi and Mueller, 64 1993; Sokolowski and Hansell, 1983). 65Previous genetic association studies to explore the genetic basis of pupation site choice in Drosophila were 66 consistent with it being a complex behavioural trait with a polygenic basis (Erezyilmaz and Stern, 20...

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Section: Resultssupporting

confidence: 86%

Section: Resultssupporting

confidence: 57%

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Testing implications of the polygenic model for the genetic analysis of loci identified through genome-wide association

Zhang

Reeves

Tautz

2019

Preprint

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Testing Implications of the Omnigenic Model for the Genetic Analysis of Loci Identified through Genome-wide Association

2021

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Drosophila melanogaster Pupae Orientation in Several Culture Conditions

Fauzi,

Fatmawati,

Zubaidah

et al. 2024

BIO Web Conf.

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Environmental conditions are indicated to affect pupal orientation in Drosophila melanogaster. The aim of this study was to analyze the differences in the number of upright, tilted, and flat pupae under 4 experimental conditions: uncontaminated conditions (condition 1), contaminated conditions for one generation (condition 2), contaminated conditions for two generations (condition 3), and the condition in which the contamination has been removed by five generations (condition 4). Each experiment involved 72 experimental units and each experimental unit consisting of one fruit fly culture. Each culture was derived from five pairs of wildtype fruit flies. The Kruskal-Wallis H Test was used as a hypothesis test while the Games-Howell was used for the post hoc test. The results of the analysis indicated that the pupal orientation was always significantly different in the four experimental conditions: condition 1 (χ2(2)=51.769, p<0.001), condition 2 (χ2(2)=47.543, p<0.001), condition 3 (χ2(2))=48.835, p<0.001), and condition 4 (χ2(2)=49.972, p<0.001). The number of pupae in the tilted orientation was always significantly higher than the other two orientations. On the other hand, the number of pupae in the upright orientation was not significantly different from the flat orientation in the four experimental conditions. The findings obtained in this study can be used as a basis for studying the behavior of fruit fly larvae under certain disease or environmental conditions, especially during the pupal formation stage.

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Identification of a genetic network for an ecologically relevant behavioural phenotype in Drosophila melanogaster

Cited by 5 publications

References 68 publications

Testing implications of the polygenic model for the genetic analysis of loci identified through genome-wide association

Testing implications of the polygenic model for the genetic analysis of loci identified through genome-wide association

Testing Implications of the Omnigenic Model for the Genetic Analysis of Loci Identified through Genome-wide Association

Drosophila melanogaster Pupae Orientation in Several Culture Conditions

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