Genetic and behavioral analyses suggest that larval and adult stages of Lucilia cuprina employ different sensory systems to detect rotten beef
Abstract Background The blowfly Lucilia cuprina is a destructive parasite of sheep that causes flystrike or myiasis. Larvae consume the animal’s living flesh, producing large wounds that can lead to death. The main aim of this study was to identify genes that may play important roles in the behavior...
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BMC
2025-07-01
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| Series: | Parasites & Vectors |
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| Online Access: | https://doi.org/10.1186/s13071-025-06804-0 |
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| author | Juan P. Wulff Rachel K. Laminack Maxwell J. Scott |
| author_facet | Juan P. Wulff Rachel K. Laminack Maxwell J. Scott |
| author_sort | Juan P. Wulff |
| collection | DOAJ |
| description | Abstract Background The blowfly Lucilia cuprina is a destructive parasite of sheep that causes flystrike or myiasis. Larvae consume the animal’s living flesh, producing large wounds that can lead to death. The main aim of this study was to identify genes that may play important roles in the behavior and physiology of L. cuprina larvae. Methods An RNA-Seq analysis of RNA from whole larvae at different developmental stages and third-instar head and gut tissues was used to identify sensory receptors and other genes relevant to the physiology of L. cuprina larvae. In addition, CRISPR/Cas9 gene editing was used to obtain a loss-of-function mutation for the L. cuprina odorant coreceptor gene (LcupOrco). The response of mutant larvae and adult females to fresh and rotten meat at different temperatures was evaluated. Results The RNA-Seq analysis suggested that odorant (OR), gustatory, ionotropic, and Pickpocket receptors may not play a central role in the L. cuprina larval sensory signaling and digestive systems. Rather, ATP-binding cassettes (ABCs) were highly enriched in head and gut RNA, and odorant-binding proteins (OBPs) only in the head. To confirm that ORs are not essential for larval detection of rotten beef, diet-choice assays were performed including larvae and adults homozygous for a null mutation in LcupOrco. While the attraction of adult females to rotten beef was disrupted, LcupOrco mutant larvae showed no change in diet preference. Conclusions The expression pattern of the ABC and OBP gene families suggests a central role in the sensory system of the L. cuprina larva for these receptors. Behavioral assays showed that ORs are essential for the adult female response to rotten beef, but not for larval behavior. These findings are consistent with high levels of expression of LcupOrco in the adult female antenna but very low expression in larvae. Graphical abstract |
| format | Article |
| id | doaj-art-026b2ed2c83a4d86bd9249288260eb40 |
| institution | DOAJ |
| issn | 1756-3305 |
| language | English |
| publishDate | 2025-07-01 |
| publisher | BMC |
| record_format | Article |
| series | Parasites & Vectors |
| spelling | doaj-art-026b2ed2c83a4d86bd9249288260eb402025-08-20T03:04:22ZengBMCParasites & Vectors1756-33052025-07-0118112310.1186/s13071-025-06804-0Genetic and behavioral analyses suggest that larval and adult stages of Lucilia cuprina employ different sensory systems to detect rotten beefJuan P. Wulff0Rachel K. Laminack1Maxwell J. Scott2Entomology and Plant Pathology, NCSUEntomology and Plant Pathology, NCSUEntomology and Plant Pathology, NCSUAbstract Background The blowfly Lucilia cuprina is a destructive parasite of sheep that causes flystrike or myiasis. Larvae consume the animal’s living flesh, producing large wounds that can lead to death. The main aim of this study was to identify genes that may play important roles in the behavior and physiology of L. cuprina larvae. Methods An RNA-Seq analysis of RNA from whole larvae at different developmental stages and third-instar head and gut tissues was used to identify sensory receptors and other genes relevant to the physiology of L. cuprina larvae. In addition, CRISPR/Cas9 gene editing was used to obtain a loss-of-function mutation for the L. cuprina odorant coreceptor gene (LcupOrco). The response of mutant larvae and adult females to fresh and rotten meat at different temperatures was evaluated. Results The RNA-Seq analysis suggested that odorant (OR), gustatory, ionotropic, and Pickpocket receptors may not play a central role in the L. cuprina larval sensory signaling and digestive systems. Rather, ATP-binding cassettes (ABCs) were highly enriched in head and gut RNA, and odorant-binding proteins (OBPs) only in the head. To confirm that ORs are not essential for larval detection of rotten beef, diet-choice assays were performed including larvae and adults homozygous for a null mutation in LcupOrco. While the attraction of adult females to rotten beef was disrupted, LcupOrco mutant larvae showed no change in diet preference. Conclusions The expression pattern of the ABC and OBP gene families suggests a central role in the sensory system of the L. cuprina larva for these receptors. Behavioral assays showed that ORs are essential for the adult female response to rotten beef, but not for larval behavior. These findings are consistent with high levels of expression of LcupOrco in the adult female antenna but very low expression in larvae. Graphical abstracthttps://doi.org/10.1186/s13071-025-06804-0MyiasisBlowfly livestock pestAustralian sheep blowflyHost seekingRNA-SeqDESeq2 |
| spellingShingle | Juan P. Wulff Rachel K. Laminack Maxwell J. Scott Genetic and behavioral analyses suggest that larval and adult stages of Lucilia cuprina employ different sensory systems to detect rotten beef Parasites & Vectors Myiasis Blowfly livestock pest Australian sheep blowfly Host seeking RNA-Seq DESeq2 |
| title | Genetic and behavioral analyses suggest that larval and adult stages of Lucilia cuprina employ different sensory systems to detect rotten beef |
| title_full | Genetic and behavioral analyses suggest that larval and adult stages of Lucilia cuprina employ different sensory systems to detect rotten beef |
| title_fullStr | Genetic and behavioral analyses suggest that larval and adult stages of Lucilia cuprina employ different sensory systems to detect rotten beef |
| title_full_unstemmed | Genetic and behavioral analyses suggest that larval and adult stages of Lucilia cuprina employ different sensory systems to detect rotten beef |
| title_short | Genetic and behavioral analyses suggest that larval and adult stages of Lucilia cuprina employ different sensory systems to detect rotten beef |
| title_sort | genetic and behavioral analyses suggest that larval and adult stages of lucilia cuprina employ different sensory systems to detect rotten beef |
| topic | Myiasis Blowfly livestock pest Australian sheep blowfly Host seeking RNA-Seq DESeq2 |
| url | https://doi.org/10.1186/s13071-025-06804-0 |
| work_keys_str_mv | AT juanpwulff geneticandbehavioralanalysessuggestthatlarvalandadultstagesofluciliacuprinaemploydifferentsensorysystemstodetectrottenbeef AT rachelklaminack geneticandbehavioralanalysessuggestthatlarvalandadultstagesofluciliacuprinaemploydifferentsensorysystemstodetectrottenbeef AT maxwelljscott geneticandbehavioralanalysessuggestthatlarvalandadultstagesofluciliacuprinaemploydifferentsensorysystemstodetectrottenbeef |