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Main Authors: Pinto, Bruno, Lusito, Marialuisa, Amato, Amalia, Italiano, Anna, Esposito, Roberta, Sagi, Amir, Aflalo, Eliahu D, Hoeger, Ulrich, Gojobori, Takashi, Hoehndorf, Robert, Brunelli, Elvira, Macirella, Rachele, Zupo, Valerio, Costantini, Maria
Format: Artículo científico
Language:en
Published: Animal reproduction science 2026
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Online Access:https://pubmed.ncbi.nlm.nih.gov/42061340/
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author Pinto, Bruno
Lusito, Marialuisa
Amato, Amalia
Italiano, Anna
Esposito, Roberta
Sagi, Amir
Aflalo, Eliahu D
Hoeger, Ulrich
Gojobori, Takashi
Hoehndorf, Robert
Brunelli, Elvira
Macirella, Rachele
Zupo, Valerio
Costantini, Maria
author_facet Pinto, Bruno
Lusito, Marialuisa
Amato, Amalia
Italiano, Anna
Esposito, Roberta
Sagi, Amir
Aflalo, Eliahu D
Hoeger, Ulrich
Gojobori, Takashi
Hoehndorf, Robert
Brunelli, Elvira
Macirella, Rachele
Zupo, Valerio
Costantini, Maria
Pinto, Bruno
Lusito, Marialuisa
Amato, Amalia
Italiano, Anna
Esposito, Roberta
Sagi, Amir
Aflalo, Eliahu D
Hoeger, Ulrich
Gojobori, Takashi
Hoehndorf, Robert
Brunelli, Elvira
Macirella, Rachele
Zupo, Valerio
Costantini, Maria
collection PubMed - marine biology
contents Sexual plasticity of Hippolyte inermis Leach (Crustacea, Decapoda): Gene expression of vitellogenin and insulin-like androgenic gland hormone. Pinto, Bruno Lusito, Marialuisa Amato, Amalia Italiano, Anna Esposito, Roberta Sagi, Amir Aflalo, Eliahu D Hoeger, Ulrich Gojobori, Takashi Hoehndorf, Robert Brunelli, Elvira Macirella, Rachele Zupo, Valerio Costantini, Maria Animals Vitellogenins Female Male Gene Expression Regulation Decapoda Gonadal Hormones Insulin-Like Peptides Hippolyte inermis is a protandric hermaphroditic shrimp widespread in most Mediterranean seagrass meadows. It has a complex life cycle, because an unknown compound present in benthic diatoms (Cocconeis spp.) induces an early sex reversal in its post-larvae upon ingestion. This change occurs due to the disruption of the androgenic gland (AG) germ cells. To elucidate the molecular mechanisms behind this unique example of sexual plasticity, we isolated sex-specific genes from the transcriptomes of shrimp collected at various stages of their life cycle. Using Real-Time qPCR, we measured, in wild adults, the expression levels of the Insulin-like Androgenic Gland hormone (Hi-IAG), Vitellogenin-1 (Hi-VG1), two uncharacterized male and female genes (Hi-UCM and Hi-UCF), and two uncharacterized male and female eyestalk genes (Hi-UCMe and Hi-UCFe). Further, the expression of these genes was evaluated in shrimp cultured in the laboratory, after the ingestion of bioactive diatoms, to identify potential molecular markers. Only Hi-VG1 and Hi-UCM showed a consistent relationship with the phenotype of adults, according to their sex. Subsequently, we investigated the physiological and developmental expression patterns of Hi-VG1 and Hi-UCM, along with several Vitellogenin variants, across a range of developmental stages, to reveal the mechanisms of sex regulation. While the results revealed complex response patterns, they lay the groundwork for understanding the link between key gene expression and sexual determination and maturation in decapod crustaceans.
format Artículo científico
id pubmed_42061340
institution PubMed
language en
publishDate 2026
publisher Animal reproduction science
record_format pubmed
spellingShingle Sexual plasticity of Hippolyte inermis Leach (Crustacea, Decapoda): Gene expression of vitellogenin and insulin-like androgenic gland hormone.
Pinto, Bruno
Lusito, Marialuisa
Amato, Amalia
Italiano, Anna
Esposito, Roberta
Sagi, Amir
Aflalo, Eliahu D
Hoeger, Ulrich
Gojobori, Takashi
Hoehndorf, Robert
Brunelli, Elvira
Macirella, Rachele
Zupo, Valerio
Costantini, Maria
Animals
Vitellogenins
Female
Male
Gene Expression Regulation
Decapoda
Gonadal Hormones
Insulin-Like Peptides
Sexual plasticity of Hippolyte inermis Leach (Crustacea, Decapoda): Gene expression of vitellogenin and insulin-like androgenic gland hormone. Pinto, Bruno Lusito, Marialuisa Amato, Amalia Italiano, Anna Esposito, Roberta Sagi, Amir Aflalo, Eliahu D Hoeger, Ulrich Gojobori, Takashi Hoehndorf, Robert Brunelli, Elvira Macirella, Rachele Zupo, Valerio Costantini, Maria Animals Vitellogenins Female Male Gene Expression Regulation Decapoda Gonadal Hormones Insulin-Like Peptides Hippolyte inermis is a protandric hermaphroditic shrimp widespread in most Mediterranean seagrass meadows. It has a complex life cycle, because an unknown compound present in benthic diatoms (Cocconeis spp.) induces an early sex reversal in its post-larvae upon ingestion. This change occurs due to the disruption of the androgenic gland (AG) germ cells. To elucidate the molecular mechanisms behind this unique example of sexual plasticity, we isolated sex-specific genes from the transcriptomes of shrimp collected at various stages of their life cycle. Using Real-Time qPCR, we measured, in wild adults, the expression levels of the Insulin-like Androgenic Gland hormone (Hi-IAG), Vitellogenin-1 (Hi-VG1), two uncharacterized male and female genes (Hi-UCM and Hi-UCF), and two uncharacterized male and female eyestalk genes (Hi-UCMe and Hi-UCFe). Further, the expression of these genes was evaluated in shrimp cultured in the laboratory, after the ingestion of bioactive diatoms, to identify potential molecular markers. Only Hi-VG1 and Hi-UCM showed a consistent relationship with the phenotype of adults, according to their sex. Subsequently, we investigated the physiological and developmental expression patterns of Hi-VG1 and Hi-UCM, along with several Vitellogenin variants, across a range of developmental stages, to reveal the mechanisms of sex regulation. While the results revealed complex response patterns, they lay the groundwork for understanding the link between key gene expression and sexual determination and maturation in decapod crustaceans.
title Sexual plasticity of Hippolyte inermis Leach (Crustacea, Decapoda): Gene expression of vitellogenin and insulin-like androgenic gland hormone.
topic Animals
Vitellogenins
Female
Male
Gene Expression Regulation
Decapoda
Gonadal Hormones
Insulin-Like Peptides
url https://pubmed.ncbi.nlm.nih.gov/42061340/