BeetleAtlas: An Ontogenetic and Tissue-specific Transcriptomic Atlas of the Red Flour Beetle Tribolium castaneum

BeetleAtlas: An Ontogenetic and Tissue-specific Transcriptomic Atlas of the Red Flour Beetle Tribolium castaneum

[Display omitted] •• A major new insect transcriptomics web resource for Tribolium castaneum.•• View RNAseq data for adult and larval tissues, and different embryonic stages.•• Query by gene, tissue and function, or retrieve genes with similar patterns of expression.•• Use both Drosophila and Tribol...

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Veröffentlicht in:Journal of molecular biology 2024-09, Vol.436 (17), p.168520, Article 168520
Hauptverfasser: Leader, David P., Naseem, Muhammad T., Halberg, Kenneth V.
Format: Artikel
Sprache:eng
Schlagworte:
adults
Animals
Databases, Genetic
Drosophila melanogaster
Drosophila melanogaster - genetics
Drosophila melanogaster - metabolism
embryogenesis
gene expression
Gene Expression Profiling
Gene Expression Regulation, Developmental
genes
genomics
insects
Internet
Larva - genetics
Larva - growth & development
Larva - metabolism
larvae
molecular biology
mRNA expression
ontogeny
Organ Specificity
tissue-specific gene enrichment
Transcriptome
transcriptomics
Tribolium - embryology
Tribolium - genetics
Tribolium castaneum
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container_issue 17
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container_title Journal of molecular biology
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creator Leader, David P.
Naseem, Muhammad T.
Halberg, Kenneth V.
description [Display omitted] •• A major new insect transcriptomics web resource for Tribolium castaneum.•• View RNAseq data for adult and larval tissues, and different embryonic stages.•• Query by gene, tissue and function, or retrieve genes with similar patterns of expression.•• Use both Drosophila and Tribolium gene identifiers for searches.•• Gene results link out to tissue expression tables of beetle paralogues and fly homologues. The red flour beetle Tribolium castaneum has emerged as a powerful model in insect functional genomics. However, a major limitation in the field is the lack of a detailed spatio-temporal view of the genetic signatures underpinning the function of distinct tissues and life stages. Here, we present an ontogenetic and tissue-specific web-based resource for Tribolium transcriptomics: BeetleAtlas (https://www.beetleatlas.org). This web application provides access to a database populated with quantitative expression data for nine adult and seven larval tissues, as well as for four embryonic stages of Tribolium. BeetleAtlas allows one to search for individual Tribolium genes to obtain values of both total gene expression and enrichment in different tissues, together with data for individual isoforms. To facilitate cross-species studies, one can also use Drosophila melanogaster gene identifiers to search for related Tribolium genes. For retrieved genes there are options to identify and display the tissue expression of related Tribolium genes or homologous Drosophila genes. Five additional search modes are available to find genes conforming to any of the following criteria: exhibiting high expression in a particular tissue; showing significant differences in expression between larva and adult; having a peak of expression at a specific stage of embryonic development; belonging to a particular functional category; and displaying a pattern of tissue expression similar to that of a query gene. We illustrate how the different feaures of BeetleAtlas can be used to illuminate our understanding of the genetic mechanisms underpinning the biology of what is the largest animal group on earth.
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The red flour beetle Tribolium castaneum has emerged as a powerful model in insect functional genomics. However, a major limitation in the field is the lack of a detailed spatio-temporal view of the genetic signatures underpinning the function of distinct tissues and life stages. Here, we present an ontogenetic and tissue-specific web-based resource for Tribolium transcriptomics: BeetleAtlas (https://www.beetleatlas.org). This web application provides access to a database populated with quantitative expression data for nine adult and seven larval tissues, as well as for four embryonic stages of Tribolium. BeetleAtlas allows one to search for individual Tribolium genes to obtain values of both total gene expression and enrichment in different tissues, together with data for individual isoforms. To facilitate cross-species studies, one can also use Drosophila melanogaster gene identifiers to search for related Tribolium genes. For retrieved genes there are options to identify and display the tissue expression of related Tribolium genes or homologous Drosophila genes. Five additional search modes are available to find genes conforming to any of the following criteria: exhibiting high expression in a particular tissue; showing significant differences in expression between larva and adult; having a peak of expression at a specific stage of embryonic development; belonging to a particular functional category; and displaying a pattern of tissue expression similar to that of a query gene. 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The red flour beetle Tribolium castaneum has emerged as a powerful model in insect functional genomics. However, a major limitation in the field is the lack of a detailed spatio-temporal view of the genetic signatures underpinning the function of distinct tissues and life stages. Here, we present an ontogenetic and tissue-specific web-based resource for Tribolium transcriptomics: BeetleAtlas (https://www.beetleatlas.org). This web application provides access to a database populated with quantitative expression data for nine adult and seven larval tissues, as well as for four embryonic stages of Tribolium. BeetleAtlas allows one to search for individual Tribolium genes to obtain values of both total gene expression and enrichment in different tissues, together with data for individual isoforms. To facilitate cross-species studies, one can also use Drosophila melanogaster gene identifiers to search for related Tribolium genes. 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The red flour beetle Tribolium castaneum has emerged as a powerful model in insect functional genomics. However, a major limitation in the field is the lack of a detailed spatio-temporal view of the genetic signatures underpinning the function of distinct tissues and life stages. Here, we present an ontogenetic and tissue-specific web-based resource for Tribolium transcriptomics: BeetleAtlas (https://www.beetleatlas.org). This web application provides access to a database populated with quantitative expression data for nine adult and seven larval tissues, as well as for four embryonic stages of Tribolium. BeetleAtlas allows one to search for individual Tribolium genes to obtain values of both total gene expression and enrichment in different tissues, together with data for individual isoforms. To facilitate cross-species studies, one can also use Drosophila melanogaster gene identifiers to search for related Tribolium genes. 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subjects adults
Animals
Databases, Genetic
Drosophila melanogaster
Drosophila melanogaster - genetics
Drosophila melanogaster - metabolism
embryogenesis
gene expression
Gene Expression Profiling
Gene Expression Regulation, Developmental
genes
genomics
insects
Internet
Larva - genetics
Larva - growth & development
Larva - metabolism
larvae
molecular biology
mRNA expression
ontogeny
Organ Specificity
tissue-specific gene enrichment
Transcriptome
transcriptomics
Tribolium - embryology
Tribolium - genetics
Tribolium castaneum
title BeetleAtlas: An Ontogenetic and Tissue-specific Transcriptomic Atlas of the Red Flour Beetle Tribolium castaneum
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