Structural remodeling of midgut symbiotic organ and altered food flow upon metamorphosis of the stinkbug Plautia stali

Animals possess a mouth for feeding, an anus for defecation, and a gut structurally and functionally connecting them for digestion and absorption. In some stinkbugs, strikingly, the mouth and the anus are functionally disconnected in the middle. The constricted region blocks food flow and selectivel...

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Published inApplied entomology and zoology Vol. 58; no. 4; pp. 393 - 399
Main Authors Oishi, Sayumi, Moriyama, Minoru, Fukatsu, Takema
Format Journal Article
LanguageEnglish
Published Tokyo Springer Japan 01.11.2023
Springer Nature B.V
Subjects
absorption
adults
Agriculture
Anus
Applied Ecology
Biomedical and Life Sciences
Brief Report
Defecation
digestion
Digestive system
Entomology
Environmental Management
fluorescence
Food
Food selection
Gastrointestinal tract
Hindgut
instars
Life Sciences
liquids
Malpighian tubules
Metamorphosis
microbeads
Microspheres
Midgut
Mouth
Plant Pathology
Plautia stali
symbionts
Symbiosis
Zoology
Midgut symbiotic organ
Development
Food flow
Metamorphosis
Online AccessGet full text
ISSN0003-6862
1347-605X
DOI10.1007/s13355-023-00838-5

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Abstract Animals possess a mouth for feeding, an anus for defecation, and a gut structurally and functionally connecting them for digestion and absorption. In some stinkbugs, strikingly, the mouth and the anus are functionally disconnected in the middle. The constricted region blocks food flow and selectively allows passing of a specific bacterial symbiont to maintain the posterior midgut region as an exclusive space for symbiosis. In the stinkbug Plautia stali , the constricted region was reported to open during the last nymphal instar, thereby restoring the normal gut passage in adult insects. Here, we experimentally investigated how the structural gut reorganization upon metamorphosis of P. stali affects the processing of liquid food and solid food using blue coloring and fluorescent microbeads. In nymphal insects, both coloring and microbeads were blocked at the constricted region, and only coloring was excreted to the hindgut via Malpighian tubules. In adult insects, both coloring and microbeads passed through the constricted region and excreted to the hindgut. These results suggested that nymphal P. stali can utilize liquid food only whereas adult P. stali can live on both liquid food and solid suspension food, which may be relevant to nutritional and reproductive differences between nymphal and adult stinkbugs.
AbstractList Animals possess a mouth for feeding, an anus for defecation, and a gut structurally and functionally connecting them for digestion and absorption. In some stinkbugs, strikingly, the mouth and the anus are functionally disconnected in the middle. The constricted region blocks food flow and selectively allows passing of a specific bacterial symbiont to maintain the posterior midgut region as an exclusive space for symbiosis. In the stinkbug Plautia stali, the constricted region was reported to open during the last nymphal instar, thereby restoring the normal gut passage in adult insects. Here, we experimentally investigated how the structural gut reorganization upon metamorphosis of P. stali affects the processing of liquid food and solid food using blue coloring and fluorescent microbeads. In nymphal insects, both coloring and microbeads were blocked at the constricted region, and only coloring was excreted to the hindgut via Malpighian tubules. In adult insects, both coloring and microbeads passed through the constricted region and excreted to the hindgut. These results suggested that nymphal P. stali can utilize liquid food only whereas adult P. stali can live on both liquid food and solid suspension food, which may be relevant to nutritional and reproductive differences between nymphal and adult stinkbugs.
Animals possess a mouth for feeding, an anus for defecation, and a gut structurally and functionally connecting them for digestion and absorption. In some stinkbugs, strikingly, the mouth and the anus are functionally disconnected in the middle. The constricted region blocks food flow and selectively allows passing of a specific bacterial symbiont to maintain the posterior midgut region as an exclusive space for symbiosis. In the stinkbug Plautia stali , the constricted region was reported to open during the last nymphal instar, thereby restoring the normal gut passage in adult insects. Here, we experimentally investigated how the structural gut reorganization upon metamorphosis of P. stali affects the processing of liquid food and solid food using blue coloring and fluorescent microbeads. In nymphal insects, both coloring and microbeads were blocked at the constricted region, and only coloring was excreted to the hindgut via Malpighian tubules. In adult insects, both coloring and microbeads passed through the constricted region and excreted to the hindgut. These results suggested that nymphal P. stali can utilize liquid food only whereas adult P. stali can live on both liquid food and solid suspension food, which may be relevant to nutritional and reproductive differences between nymphal and adult stinkbugs.
Author Fukatsu, Takema
Oishi, Sayumi
Moriyama, Minoru
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Cites_doi 10.1038/s41598-022-11895-1
10.1073/pnas.1511454112
10.1128/mbio.00522-23
10.2307/1536004
10.1038/nmicrobiol.2015.11
10.1186/s40851-019-0134-2
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10.1007/BF00403148
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Development
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SubjectTerms absorption
adults
Agriculture
Anus
Applied Ecology
Biomedical and Life Sciences
Brief Report
Defecation
digestion
Digestive system
Entomology
Environmental Management
fluorescence
Food
Food selection
Gastrointestinal tract
Hindgut
instars
Life Sciences
liquids
Malpighian tubules
Metamorphosis
microbeads
Microspheres
Midgut
Mouth
Plant Pathology
Plautia stali
symbionts
Symbiosis
Zoology
Title Structural remodeling of midgut symbiotic organ and altered food flow upon metamorphosis of the stinkbug Plautia stali
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