Chill-coma recovery time, age and sex determine lipid profiles in Ceratitis capitata tissues

The remodeling of membrane composition by changes in phospholipid head groups and fatty acids (FA) degree of unsaturation has been associated with the maintenance of membrane homeostasis under stress conditions. Overall lipid levels and the composition of cuticle lipids also influence insect stress...

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Autores principales: Pujol-Lereis, L.M., Fagali, N.S., Rabossi, A., Catalá, Á., Quesada-Allué, L.A.
Formato: JOUR
Materias:
Chill-coma recovery
Chilling-injury
Fatty acid composition
Lipid profiles
Medfly
Sterol esters
age
chemical composition
ester
fatty acid
fly
gene expression
homeostasis
injury
lipid
oxide
phospholipid
sex determination
sterol
Ceratitis capitata
Hexapoda
animal
cold
female
lipid metabolism
male
Mediterranean fruit fly
metabolism
time factor
Animals
Cold Temperature
Female
Lipid Metabolism
Male
Time Factors
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_00221910_v87_n_p53_PujolLereis
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
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spelling todo:paper_00221910_v87_n_p53_PujolLereis2023-10-03T14:28:23Z Chill-coma recovery time, age and sex determine lipid profiles in Ceratitis capitata tissues Pujol-Lereis, L.M. Fagali, N.S. Rabossi, A. Catalá, Á. Quesada-Allué, L.A. Chill-coma recovery Chilling-injury Fatty acid composition Lipid profiles Medfly Sterol esters age chemical composition ester fatty acid fly gene expression homeostasis injury lipid oxide phospholipid sex determination sterol Ceratitis capitata Hexapoda animal cold female lipid metabolism male Mediterranean fruit fly metabolism time factor Animals Ceratitis capitata Cold Temperature Female Lipid Metabolism Male Time Factors The remodeling of membrane composition by changes in phospholipid head groups and fatty acids (FA) degree of unsaturation has been associated with the maintenance of membrane homeostasis under stress conditions. Overall lipid levels and the composition of cuticle lipids also influence insect stress resistance and tissue protection. In a previous study, we demonstrated differences in survival, behavior and Cu/Zn superoxide dismutase gene expression between subgroups of Ceratitis capitata flies that had a reversible recovery from chill-coma and those that developed chilling-injury. Here, we analyzed lipid profiles from comparable subgroups of 15 and 30-day-old flies separated according to their recovery time after a chill-coma treatment. Neutral and polar lipid classes of chill-coma subgroups were separated by thin layer chromatography and quantified by densitometry. FA composition of polar lipids of chill-coma subgroups and non-stressed flies was evaluated using gas chromatography coupled to mass spectrometry. Higher amounts of neutral lipids such as triglycerides, diacylglycerol, wax esters, sterol esters and free esters were found in male flies that recovered faster from chill-coma compared to slower flies. A multivariate analysis revealed changes in patterns of storage and cuticle lipids among subgroups both in males and females. FA unsaturation increased after cold exposure, and was higher in thorax of slower subgroups compared to faster subgroups. The changes in neutral lipid patterns and FA composition depended on recovery time, sex, age and body-part, and were not specifically associated with the development of chilling-injury. An analysis of phospholipid classes showed that the phosphatidylcholine to lysophosphatidylcholine ratio (PC/LPC) was significantly higher, or showed a tendency, in subgroups that may have developed chilling-injury compared to those with a reversible recovery from coma. © 2016. Fil:Pujol-Lereis, L.M. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Rabossi, A. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. Fil:Quesada-Allué, L.A. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_00221910_v87_n_p53_PujolLereis
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Chill-coma recovery
Chilling-injury
Fatty acid composition
Lipid profiles
Medfly
Sterol esters
age
chemical composition
ester
fatty acid
fly
gene expression
homeostasis
injury
lipid
oxide
phospholipid
sex determination
sterol
Ceratitis capitata
Hexapoda
animal
cold
female
lipid metabolism
male
Mediterranean fruit fly
metabolism
time factor
Animals
Ceratitis capitata
Cold Temperature
Female
Lipid Metabolism
Male
Time Factors
spellingShingle Chill-coma recovery
Chilling-injury
Fatty acid composition
Lipid profiles
Medfly
Sterol esters
age
chemical composition
ester
fatty acid
fly
gene expression
homeostasis
injury
lipid
oxide
phospholipid
sex determination
sterol
Ceratitis capitata
Hexapoda
animal
cold
female
lipid metabolism
male
Mediterranean fruit fly
metabolism
time factor
Animals
Ceratitis capitata
Cold Temperature
Female
Lipid Metabolism
Male
Time Factors
Pujol-Lereis, L.M.
Fagali, N.S.
Rabossi, A.
Catalá, Á.
Quesada-Allué, L.A.
Chill-coma recovery time, age and sex determine lipid profiles in Ceratitis capitata tissues
topic_facet Chill-coma recovery
Chilling-injury
Fatty acid composition
Lipid profiles
Medfly
Sterol esters
age
chemical composition
ester
fatty acid
fly
gene expression
homeostasis
injury
lipid
oxide
phospholipid
sex determination
sterol
Ceratitis capitata
Hexapoda
animal
cold
female
lipid metabolism
male
Mediterranean fruit fly
metabolism
time factor
Animals
Ceratitis capitata
Cold Temperature
Female
Lipid Metabolism
Male
Time Factors
description The remodeling of membrane composition by changes in phospholipid head groups and fatty acids (FA) degree of unsaturation has been associated with the maintenance of membrane homeostasis under stress conditions. Overall lipid levels and the composition of cuticle lipids also influence insect stress resistance and tissue protection. In a previous study, we demonstrated differences in survival, behavior and Cu/Zn superoxide dismutase gene expression between subgroups of Ceratitis capitata flies that had a reversible recovery from chill-coma and those that developed chilling-injury. Here, we analyzed lipid profiles from comparable subgroups of 15 and 30-day-old flies separated according to their recovery time after a chill-coma treatment. Neutral and polar lipid classes of chill-coma subgroups were separated by thin layer chromatography and quantified by densitometry. FA composition of polar lipids of chill-coma subgroups and non-stressed flies was evaluated using gas chromatography coupled to mass spectrometry. Higher amounts of neutral lipids such as triglycerides, diacylglycerol, wax esters, sterol esters and free esters were found in male flies that recovered faster from chill-coma compared to slower flies. A multivariate analysis revealed changes in patterns of storage and cuticle lipids among subgroups both in males and females. FA unsaturation increased after cold exposure, and was higher in thorax of slower subgroups compared to faster subgroups. The changes in neutral lipid patterns and FA composition depended on recovery time, sex, age and body-part, and were not specifically associated with the development of chilling-injury. An analysis of phospholipid classes showed that the phosphatidylcholine to lysophosphatidylcholine ratio (PC/LPC) was significantly higher, or showed a tendency, in subgroups that may have developed chilling-injury compared to those with a reversible recovery from coma. © 2016.
format JOUR
author Pujol-Lereis, L.M.
Fagali, N.S.
Rabossi, A.
Catalá, Á.
Quesada-Allué, L.A.
author_facet Pujol-Lereis, L.M.
Fagali, N.S.
Rabossi, A.
Catalá, Á.
Quesada-Allué, L.A.
author_sort Pujol-Lereis, L.M.
title Chill-coma recovery time, age and sex determine lipid profiles in Ceratitis capitata tissues
title_short Chill-coma recovery time, age and sex determine lipid profiles in Ceratitis capitata tissues
title_full Chill-coma recovery time, age and sex determine lipid profiles in Ceratitis capitata tissues
title_fullStr Chill-coma recovery time, age and sex determine lipid profiles in Ceratitis capitata tissues
title_full_unstemmed Chill-coma recovery time, age and sex determine lipid profiles in Ceratitis capitata tissues
title_sort chill-coma recovery time, age and sex determine lipid profiles in ceratitis capitata tissues
url http://hdl.handle.net/20.500.12110/paper_00221910_v87_n_p53_PujolLereis
work_keys_str_mv AT pujollereislm chillcomarecoverytimeageandsexdeterminelipidprofilesinceratitiscapitatatissues
AT fagalins chillcomarecoverytimeageandsexdeterminelipidprofilesinceratitiscapitatatissues
AT rabossia chillcomarecoverytimeageandsexdeterminelipidprofilesinceratitiscapitatatissues
AT catalaa chillcomarecoverytimeageandsexdeterminelipidprofilesinceratitiscapitatatissues
AT quesadaalluela chillcomarecoverytimeageandsexdeterminelipidprofilesinceratitiscapitatatissues
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