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Main Authors: Turner, Lucy M, Madeira, Diana, Ricevuto, Elena, Gallucci, Alexia Massa, Sommer, Ulf, Viant, Mark R, Dineshram, Ramadoss, Gambi, Maria-Cristina, Calosi, Piero
Format: Artículo científico
Language:en
Published: Scientific reports 2025
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/41023277/
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author Turner, Lucy M
Madeira, Diana
Ricevuto, Elena
Gallucci, Alexia Massa
Sommer, Ulf
Viant, Mark R
Dineshram, Ramadoss
Gambi, Maria-Cristina
Calosi, Piero
author_facet Turner, Lucy M
Madeira, Diana
Ricevuto, Elena
Gallucci, Alexia Massa
Sommer, Ulf
Viant, Mark R
Dineshram, Ramadoss
Gambi, Maria-Cristina
Calosi, Piero
Turner, Lucy M
Madeira, Diana
Ricevuto, Elena
Gallucci, Alexia Massa
Sommer, Ulf
Viant, Mark R
Dineshram, Ramadoss
Gambi, Maria-Cristina
Calosi, Piero
collection PubMed - marine biology
contents Sibling species differently distributed around a CO vent show transplantation proteomic remodelling, while displaying metabolomic signatures associated with their origin. Turner, Lucy M Madeira, Diana Ricevuto, Elena Gallucci, Alexia Massa Sommer, Ulf Viant, Mark R Dineshram, Ramadoss Gambi, Maria-Cristina Calosi, Piero Carbon Dioxide Animals Metabolome Proteomics Proteome Metabolomics Annelida The cellular homeostatic response (CHR) and cellular stress response (CSR) work together to maintain homeostasis. Studying phylogenetically closely-related species inhabiting different environments can help investigate the interplay between the CHR and CSR. We conducted reciprocal in situ transplant experiments in a natural CO vent (Ischia, Italy), using the sibling annelid species Platynereis cf.. dumerilii and Platynereis cf.. massiliensis which have been shown to have different preferential distributions around the CO vent. Following transplantations, we characterised the response of each individual's proteome, metabolome, and lipidome, to short or long-term exposure to different pCO regimes (i.e., high and low), and confirmed its genetic identity. Here we show that different components of the CHR and CSR are utilised at different rates when Platynereis spp. are exposed to different pCO regimes, with cellular responses shown to be conserved across species. Metabolome and lipidome responses were dependent on regime of origin, and changed relatively slowly, whereas proteome responses were dependent on transplant type and changed more rapidly. Our results provide new insights to improve our understanding of the interplay between different cellular physiological responses involved in defining the functional phenotype of marine species, and their ability to acclimatise to future projected high pCO conditions.
format Artículo científico
id pubmed_41023277
institution PubMed
language en
publishDate 2025
publisher Scientific reports
record_format pubmed
spellingShingle Sibling species differently distributed around a CO vent show transplantation proteomic remodelling, while displaying metabolomic signatures associated with their origin.
Turner, Lucy M
Madeira, Diana
Ricevuto, Elena
Gallucci, Alexia Massa
Sommer, Ulf
Viant, Mark R
Dineshram, Ramadoss
Gambi, Maria-Cristina
Calosi, Piero
Carbon Dioxide
Animals
Metabolome
Proteomics
Proteome
Metabolomics
Annelida
Sibling species differently distributed around a CO vent show transplantation proteomic remodelling, while displaying metabolomic signatures associated with their origin. Turner, Lucy M Madeira, Diana Ricevuto, Elena Gallucci, Alexia Massa Sommer, Ulf Viant, Mark R Dineshram, Ramadoss Gambi, Maria-Cristina Calosi, Piero Carbon Dioxide Animals Metabolome Proteomics Proteome Metabolomics Annelida The cellular homeostatic response (CHR) and cellular stress response (CSR) work together to maintain homeostasis. Studying phylogenetically closely-related species inhabiting different environments can help investigate the interplay between the CHR and CSR. We conducted reciprocal in situ transplant experiments in a natural CO vent (Ischia, Italy), using the sibling annelid species Platynereis cf.. dumerilii and Platynereis cf.. massiliensis which have been shown to have different preferential distributions around the CO vent. Following transplantations, we characterised the response of each individual's proteome, metabolome, and lipidome, to short or long-term exposure to different pCO regimes (i.e., high and low), and confirmed its genetic identity. Here we show that different components of the CHR and CSR are utilised at different rates when Platynereis spp. are exposed to different pCO regimes, with cellular responses shown to be conserved across species. Metabolome and lipidome responses were dependent on regime of origin, and changed relatively slowly, whereas proteome responses were dependent on transplant type and changed more rapidly. Our results provide new insights to improve our understanding of the interplay between different cellular physiological responses involved in defining the functional phenotype of marine species, and their ability to acclimatise to future projected high pCO conditions.
title Sibling species differently distributed around a CO vent show transplantation proteomic remodelling, while displaying metabolomic signatures associated with their origin.
topic Carbon Dioxide
Animals
Metabolome
Proteomics
Proteome
Metabolomics
Annelida
url https://pubmed.ncbi.nlm.nih.gov/41023277/