Evolution of genes involved in feeding preference and metabolic processes in Calliphoridae (Diptera: Calyptratae)

The genotype-phenotype interactions among traits governing feeding preference are of fundamental importance to behavioral genetics and evolutionary biology. The genetic basis of behavioral traits has been explored in different taxa using different approaches. However, the complex nature of the genet...

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Published in:	PeerJ (San Francisco, CA) Vol. 4; p. e2598
Main Authors:	Cardoso, Gisele Antoniazzi, Marinho, Marco Antonio Tonus, Monfardini, Raquel Dietsche, Espin, Ana Maria Lima de Azeredo, Torres, Tatiana Teixeira
Format:	Journal Article
Language:	English
Published:	United States PeerJ. Ltd 27-10-2016 PeerJ, Inc PeerJ Inc
Subjects:	Analysis Animals Behavior Behavioral genetics Bioinformatics Blowflies Calliphoridae Calyptratae Candidate genes Chrysomya Cochliomyia Diptera Drosophila Drosophila melanogaster Entomology Evolution Evolutionary biology Evolutionary genetics Feeding behavior Foraging behavior Gene expression Genes Genetic aspects Genetics Genomes Glutamate Glutamate dehydrogenase Habits Hypotheses Insects Molecular Biology Parasites Parasitism Parasitology Phylogenetics Protein kinase qPCR Saprophagy Species Statistical analysis Studies Transcription Chrysomya Parasitism qPCR Cochliomyia Candidate genes
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Abstract	The genotype-phenotype interactions among traits governing feeding preference are of fundamental importance to behavioral genetics and evolutionary biology. The genetic basis of behavioral traits has been explored in different taxa using different approaches. However, the complex nature of the genetic mechanisms undergirding behavior is poorly understood. Here, we present an evolutionary study of candidate genes related to parasitism in Calliphoridae (Diptera: Calyptratae). Closely related species in this family exhibit distinct larval feeding habits, most notably necro-saprophagy and obligate parasitism. To understand the genetic and molecular bases underlying these habits, expression levels of eight candidate genes for feeding behavior- , and -were measured in four species using qPCR. Moreover we used expression values and sequence information to reconstruct the relationship among species and the rate to infer possible sites under selection. For most candidate genes, no statistically significant differences were observed, indicating a high degree of conservation in expression. However, was differentially expressed between habits. Evolutionary analyses based on transcript levels and nucleotide sequences of coding region suggest that transcript levels were correlated to feeding habit preferences among species, although deviations under a strictly neutral model were also observed in statistical tests. was the only gene demonstrating a possible connection to feeding habit. Differences in gene expression may be involved in (or be a result of) the genetic regulation of Calliphoridae feeding habit. Our results are the first steps towards understanding the genetic basis and evolution of feeding behavior in Calliphoridae using a functional approach.
AbstractList	BACKGROUNDThe genotype-phenotype interactions among traits governing feeding preference are of fundamental importance to behavioral genetics and evolutionary biology. The genetic basis of behavioral traits has been explored in different taxa using different approaches. However, the complex nature of the genetic mechanisms undergirding behavior is poorly understood. Here, we present an evolutionary study of candidate genes related to parasitism in Calliphoridae (Diptera: Calyptratae). Closely related species in this family exhibit distinct larval feeding habits, most notably necro-saprophagy and obligate parasitism. METHODSTo understand the genetic and molecular bases underlying these habits, expression levels of eight candidate genes for feeding behavior-Cyp6g2, foraging, glutamate dehydrogenase, Jonah65aiv, Malvolio, PGRP-SC2, RPS6-p70-protein kinase, and smooth-were measured in four species using qPCR. Moreover we used expression values and sequence information to reconstruct the relationship among species and the dN/dS rate to infer possible sites under selection. RESULTSFor most candidate genes, no statistically significant differences were observed, indicating a high degree of conservation in expression. However, Malvolio was differentially expressed between habits. Evolutionary analyses based on transcript levels and nucleotide sequences of Malvolio coding region suggest that transcript levels were correlated to feeding habit preferences among species, although deviations under a strictly neutral model were also observed in statistical tests. DISCUSSIONMalvolio was the only gene demonstrating a possible connection to feeding habit. Differences in gene expression may be involved in (or be a result of) the genetic regulation of Calliphoridae feeding habit. Our results are the first steps towards understanding the genetic basis and evolution of feeding behavior in Calliphoridae using a functional approach. The genotype-phenotype interactions among traits governing feeding preference are of fundamental importance to behavioral genetics and evolutionary biology. The genetic basis of behavioral traits has been explored in different taxa using different approaches. However, the complex nature of the genetic mechanisms undergirding behavior is poorly understood. Here, we present an evolutionary study of candidate genes related to parasitism in Calliphoridae (Diptera: Calyptratae). Closely related species in this family exhibit distinct larval feeding habits, most notably necro-saprophagy and obligate parasitism. To understand the genetic and molecular bases underlying these habits, expression levels of eight candidate genes for feeding behavior- , and -were measured in four species using qPCR. Moreover we used expression values and sequence information to reconstruct the relationship among species and the rate to infer possible sites under selection. For most candidate genes, no statistically significant differences were observed, indicating a high degree of conservation in expression. However, was differentially expressed between habits. Evolutionary analyses based on transcript levels and nucleotide sequences of coding region suggest that transcript levels were correlated to feeding habit preferences among species, although deviations under a strictly neutral model were also observed in statistical tests. was the only gene demonstrating a possible connection to feeding habit. Differences in gene expression may be involved in (or be a result of) the genetic regulation of Calliphoridae feeding habit. Our results are the first steps towards understanding the genetic basis and evolution of feeding behavior in Calliphoridae using a functional approach. The genotype-phenotype interactions among traits governing feeding preference are of fundamental importance to behavioral genetics and evolutionary biology. The genetic basis of behavioral traits has been explored in different taxa using different approaches. However, the complex nature of the genetic mechanisms undergirding behavior is poorly understood. Here, we present an evolutionary study of candidate genes related to parasitism in Calliphoridae (Diptera: Calyptratae). Closely related species in this family exhibit distinct larval feeding habits, most notably necro-saprophagy and obligate parasitism. To understand the genetic and molecular bases underlying these habits, expression levels of eight candidate genes for feeding behavior-Cyp6g2, foraging, glutamate dehydrogenase, Jonah65aiv, Malvolio, PGRP-SC2, RPS6-p70-protein kinase, and smooth-were measured in four species using qPCR. Moreover we used expression values and sequence information to reconstruct the relationship among species and the d.sub.N /d.sub.S rate to infer possible sites under selection. For most candidate genes, no statistically significant differences were observed, indicating a high degree of conservation in expression. However, Malvolio was differentially expressed between habits. Evolutionary analyses based on transcript levels and nucleotide sequences of Malvolio coding region suggest that transcript levels were correlated to feeding habit preferences among species, although deviations under a strictly neutral model were also observed in statistical tests. Malvolio was the only gene demonstrating a possible connection to feeding habit. Differences in gene expression may be involved in (or be a result of) the genetic regulation of Calliphoridae feeding habit. Our results are the first steps towards understanding the genetic basis and evolution of feeding behavior in Calliphoridae using a functional approach. Background The genotype-phenotype interactions among traits governing feeding preference are of fundamental importance to behavioral genetics and evolutionary biology. The genetic basis of behavioral traits has been explored in different taxa using different approaches. However, the complex nature of the genetic mechanisms undergirding behavior is poorly understood. Here, we present an evolutionary study of candidate genes related to parasitism in Calliphoridae (Diptera: Calyptratae). Closely related species in this family exhibit distinct larval feeding habits, most notably necro-saprophagy and obligate parasitism. Methods To understand the genetic and molecular bases underlying these habits, expression levels of eight candidate genes for feeding behavior-Cyp6g2, foraging, glutamate dehydrogenase, Jonah65aiv, Malvolio, PGRP-SC2, RPS6-p70-protein kinase, and smooth-were measured in four species using qPCR. Moreover we used expression values and sequence information to reconstruct the relationship among species and the d.sub.N /d.sub.S rate to infer possible sites under selection. Results For most candidate genes, no statistically significant differences were observed, indicating a high degree of conservation in expression. However, Malvolio was differentially expressed between habits. Evolutionary analyses based on transcript levels and nucleotide sequences of Malvolio coding region suggest that transcript levels were correlated to feeding habit preferences among species, although deviations under a strictly neutral model were also observed in statistical tests. Discussion Malvolio was the only gene demonstrating a possible connection to feeding habit. Differences in gene expression may be involved in (or be a result of) the genetic regulation of Calliphoridae feeding habit. Our results are the first steps towards understanding the genetic basis and evolution of feeding behavior in Calliphoridae using a functional approach. Background The genotype-phenotype interactions among traits governing feeding preference are of fundamental importance to behavioral genetics and evolutionary biology. The genetic basis of behavioral traits has been explored in different taxa using different approaches. However, the complex nature of the genetic mechanisms undergirding behavior is poorly understood. Here, we present an evolutionary study of candidate genes related to parasitism in Calliphoridae (Diptera: Calyptratae). Closely related species in this family exhibit distinct larval feeding habits, most notably necro-saprophagy and obligate parasitism. Methods To understand the genetic and molecular bases underlying these habits, expression levels of eight candidate genes for feeding behavior—Cyp6g2, foraging, glutamate dehydrogenase, Jonah65aiv, Malvolio, PGRP-SC2, RPS6-p70-protein kinase, and smooth—were measured in four species using qPCR. Moreover we used expression values and sequence information to reconstruct the relationship among species and the dN/dS rate to infer possible sites under selection. Results For most candidate genes, no statistically significant differences were observed, indicating a high degree of conservation in expression. However, Malvolio was differentially expressed between habits. Evolutionary analyses based on transcript levels and nucleotide sequences of Malvolio coding region suggest that transcript levels were correlated to feeding habit preferences among species, although deviations under a strictly neutral model were also observed in statistical tests. Discussion Malvolio was the only gene demonstrating a possible connection to feeding habit. Differences in gene expression may be involved in (or be a result of) the genetic regulation of Calliphoridae feeding habit. Our results are the first steps towards understanding the genetic basis and evolution of feeding behavior in Calliphoridae using a functional approach.
ArticleNumber	e2598
Audience	Academic
Author	Marinho, Marco Antonio Tonus Monfardini, Raquel Dietsche Espin, Ana Maria Lima de Azeredo Cardoso, Gisele Antoniazzi Torres, Tatiana Teixeira
Author_xml	– sequence: 1 givenname: Gisele Antoniazzi surname: Cardoso fullname: Cardoso, Gisele Antoniazzi organization: Department of Genetics and Evolutionary Biology, University of Sao Paulo , Sao Paulo , Brazil – sequence: 2 givenname: Marco Antonio Tonus surname: Marinho fullname: Marinho, Marco Antonio Tonus organization: Department of Biology, Faculty of Philosophy, Science, and Letters, University of Sao Paulo , Ribeirao Preto , Sao Paulo , Brazil – sequence: 3 givenname: Raquel Dietsche surname: Monfardini fullname: Monfardini, Raquel Dietsche organization: Department of Genetics and Evolutionary Biology, University of Sao Paulo , Sao Paulo , Brazil – sequence: 4 givenname: Ana Maria Lima de Azeredo surname: Espin fullname: Espin, Ana Maria Lima de Azeredo organization: Department of Genetics, Evolution, and Bioagents, State University of Campinas , Campinas , Sao Paulo , Brazil – sequence: 5 givenname: Tatiana Teixeira surname: Torres fullname: Torres, Tatiana Teixeira organization: Department of Genetics and Evolutionary Biology, University of Sao Paulo , Sao Paulo , Brazil
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Keywords	Chrysomya Parasitism qPCR Cochliomyia Candidate genes
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Snippet	The genotype-phenotype interactions among traits governing feeding preference are of fundamental importance to behavioral genetics and evolutionary biology.... Background The genotype-phenotype interactions among traits governing feeding preference are of fundamental importance to behavioral genetics and evolutionary... BACKGROUNDThe genotype-phenotype interactions among traits governing feeding preference are of fundamental importance to behavioral genetics and evolutionary...
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SubjectTerms	Analysis Animals Behavior Behavioral genetics Bioinformatics Blowflies Calliphoridae Calyptratae Candidate genes Chrysomya Cochliomyia Diptera Drosophila Drosophila melanogaster Entomology Evolution Evolutionary biology Evolutionary genetics Feeding behavior Foraging behavior Gene expression Genes Genetic aspects Genetics Genomes Glutamate Glutamate dehydrogenase Habits Hypotheses Insects Molecular Biology Parasites Parasitism Parasitology Phylogenetics Protein kinase qPCR Saprophagy Species Statistical analysis Studies Transcription
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Title	Evolution of genes involved in feeding preference and metabolic processes in Calliphoridae (Diptera: Calyptratae)
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