Multiple genetic loci affect place learning and memory performance in <i>Drosophila melanogaster</i>

Williams-Simon, Patricka A.; Posey, C.; Mitchell, Samuel J.; Ng’oma, Enoch; Mrkvicka, James A; Zars, Troy; King, Elizabeth G.

doi:10.1111/gbb.12581

Cited by 12 publications

(6 citation statements)

References 120 publications

(267 reference statements)

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“…S5E), suggesting potential co-regulation of the coding and noncoding transcript in cis as previously reported for other lncRNAs-mRNA pairs [ 58 ]. Drosophila wdp encodes a transmembrane protein with known functions in the wing disc [ 59 ] and the trachea [ 60 ], and it has also been implicated in synaptic target recognition [ 61 ] and learning [ 62 ]. While the sequence of the lncRNA LOC112590028 itself is not conserved, Drosophila has a lncRNA, CR44758 in the same position as LOC112590028, between wdp and Gp150 (Fig.…”

Section: Resultsmentioning

confidence: 99%

Genome annotation with long RNA reads reveals new patterns of gene expression and improves single-cell analyses in an ant brain

et al. 2021

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Background Functional genomic analyses rely on high-quality genome assemblies and annotations. Highly contiguous genome assemblies have become available for a variety of species, but accurate and complete annotation of gene models, inclusive of alternative splice isoforms and transcription start and termination sites, remains difficult with traditional approaches. Results Here, we utilized full-length isoform sequencing (Iso-Seq), a long-read RNA sequencing technology, to obtain a comprehensive annotation of the transcriptome of the ant Harpegnathos saltator. The improved genome annotations include additional splice isoforms and extended 3′ untranslated regions for more than 4000 genes. Reanalysis of RNA-seq experiments using these annotations revealed several genes with caste-specific differential expression and tissue- or caste-specific splicing patterns that were missed in previous analyses. The extended 3′ untranslated regions afforded great improvements in the analysis of existing single-cell RNA-seq data, resulting in the recovery of the transcriptomes of 18% more cells. The deeper single-cell transcriptomes obtained with these new annotations allowed us to identify additional markers for several cell types in the ant brain, as well as genes differentially expressed across castes in specific cell types. Conclusions Our results demonstrate that Iso-Seq is an efficient and effective approach to improve genome annotations and maximize the amount of information that can be obtained from existing and future genomic datasets in Harpegnathos and other organisms.

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Section: Resultsmentioning

confidence: 99%

Genome annotation with long RNA reads reveals new patterns of gene expression and improves single-cell analyses in an ant brain

et al. 2021

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“…There is evidence that most behaviors and behavioral variation between individuals have some genetic basis [49][50][51][52][53]. For example, several candidate loci were identified and associated with phenotypic variation for memorizing locations in the fly Drosophila melanogaster [54]. The identification of candidate loci paves the way for finding the genetic basis of complex behavioral traits, including spatial exploration ability and memory retention of spatial location (e.g., of suitable resources, including host plants for oviposition).…”

Section: Genetics Epigenetics and Social Inheritance In The Context Of Oviposition Site Selectionmentioning

confidence: 99%

“…Genetic variants with higher learning capacity and memory retention may thus become more numerous in successive generations, when there is positive selection for oviposition site selection (Figure 2). There is further evidence that learning ability itself has a genetic basis and that there is genetic variation in learning ability between individuals in various invertebrate, non-social taxa (reviewed in [54][55][56][57][58]). One gene whose allelic variation and expression is associated with differential learning rate and memory retention is the foraging gene ("for"), a pleiotropic gene that produces a cyclic GMP-dependent protein kinase (PKG), a protein involved in many regulatory functions, including energy homeostasis [59][60][61][62].…”

Section: Genetics Epigenetics and Social Inheritance In The Context Of Oviposition Site Selectionmentioning

confidence: 99%

The Evolutionary Relevance of Social Learning and Transmission in Non-Social Arthropods with a Focus on Oviposition-Related Behaviors

Nieberding

Marcantonio

Vodă

et al. 2021

Genes

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Research on social learning has centered around vertebrates, but evidence is accumulating that small-brained, non-social arthropods also learn from others. Social learning can lead to social inheritance when socially acquired behaviors are transmitted to subsequent generations. Using oviposition site selection, a critical behavior for most arthropods, as an example, we first highlight the complementarities between social and classical genetic inheritance. We then discuss the relevance of studying social learning and transmission in non-social arthropods and document known cases in the literature, including examples of social learning from con- and hetero-specifics. We further highlight under which conditions social learning can be adaptive or not. We conclude that non-social arthropods and the study of oviposition behavior offer unparalleled opportunities to unravel the importance of social learning and inheritance for animal evolution.

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“…There is evidence that most behaviors and behavioral variation between individuals have some genetic basis [37][38][39][40][41]. For example, several candidate loci were identified and associated with phenotypic variation for memorizing locations in the fly Drosophila melanogaster [42]. The identification of candidate loci paves the way for finding the genetic basis of complex behavioral traits, including spatial exploration ability (e.g., spatial learning rate) and memory retention of spatial location (e.g., suitable resources, including host plants for oviposition).…”

Section: Genetics Epigenetics and Social Inheritance In The Context Of Oviposition Site Selectionmentioning

confidence: 99%

“…Genetic variants with higher learning rate and memory retention may thus become more numerous in successive generations, when there is positive selection for oviposition site selection (Figure 2). There is further evidence that learning ability itself has a genetic basis and that there is genetic variation in learning ability between individuals in various invertebrate, non-social taxa (reviewed in [42][43][44][45][46]). One gene whose allelic variation and expression is associated with differential learning rate and memory retention is the foraging gene ("for"), a pleiotropic gene that produces a cyclic GMP-dependent protein kinase (PKG), the protein of which is involved in energy homeostasis [47][48][49][50].…”

Section: Genetics Epigenetics and Social Inheritance In The Context Of Oviposition Site Selectionmentioning

confidence: 99%

The evolutionary relevance of social learning and transmission of behaviors in non-social arthropods

Nieberding¹,

Marcantonio²,

Vodă³

et al. 2021

Preprint

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Research on social learning has centered around vertebrates, but evidence is accumulating that small-brained, non-social arthropods also learn from others. Social learning can lead to social inheritance when socially acquired behaviors are transmitted to subsequent generations. Here, we first highlight the complementarities between social and classical genetic inheritance, using oviposition site selection, a behavior critical for many non-social arthropods, as a hypothetical example. We then discuss the relevance of studying social learning and transmission in non-social arthropods and document known cases in the literature, including examples of social learning from con and hetero-specifics. We subsequently highlight under which conditions social learning can be adaptive or not. We conclude that non-social arthropods and the study of oviposition behavior offer unparalleled opportunities to increase our understanding of social learning and inheritance.

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Multiple genetic loci affect place learning and memory performance in Drosophila melanogaster

Cited by 12 publications

References 120 publications

Genome annotation with long RNA reads reveals new patterns of gene expression and improves single-cell analyses in an ant brain

Genome annotation with long RNA reads reveals new patterns of gene expression and improves single-cell analyses in an ant brain

The Evolutionary Relevance of Social Learning and Transmission in Non-Social Arthropods with a Focus on Oviposition-Related Behaviors

The evolutionary relevance of social learning and transmission of behaviors in non-social arthropods

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