Lipid profiling by electrospray ionization tandem mass spectrometry and the identification of lipid phosphorylation by kinases in potato stolons

Lipid profiling by electrospray ionization tandem mass spectrometry and the identification of lipid phosphorylation by kinases in potato stolons

There is limited information about the involvement of lipids and esterified fatty acids in signaling pathways during plant development. The purpose of this study was to evaluate the lipid composition and molecular species of potato [Solanum tuberosum L., cv. Spunta] stolons and to identify phosphorylated lipids in the first two developmental stages of tuber formation. Lipid profiling was determined using ESI-MS/MS, a useful method for the determination of the biosynthesis and catabolism of lipids based on their fatty acid composition. The most prevalent compound identified in this study was phosphatidic acid [PA]; digalactosyldiacylglycerol [DGDG] was the second most abundant compound. A 34:2 species was identified in PA, phosphatidylcholine [PC], phosphatidylinositol [PI], and phosphatidylethanolamine [PE]. The identification of lipid phosphorylation by kinases was revealed by the presence of the phosphorylated lipids. PA was metabolized to diacylglycerol pyrophosphate [DGPP] by phosphatidic acid kinase [PAK]. This work establishes a correlation between lipid fatty acid composition and lipid metabolism enzymes at the beginning of tuber formation and is the first report of PAK activity in the early events of potato tuber formation.

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Main Authors: Cenzano, Ana Madrid, Cantoro, Renata, Hernández Sotomayor, S. M. Teresa, Abdala, Guillermina I., Racagni, Graciela E.
Format: Texto biblioteca
Language:eng
Subjects:ELECTROSPRAY IONIZATION TANDEM MASS SPECTROMETRY, GALACTOLIPID, KINASE, PHOSPHOLIPID, POTATO, SOLANUM TUBEROSUM, BIOCHEMISTRY, ENZYMES, FATTY ACIDS, GLYCEROL, IONIZATION, MASS SPECTROMETRY, METABOLISM, PHOSPHOLIPIDS, PHOSPHORYLATION, ELECTROSPRAY IONIZATION, PHOSPHOTRANSFERASE, VEGETABLE PROTEIN, CHEMISTRY, ELECTROSPRAY MASS SPECTROMETRY, ENZYMOLOGY, EVALUATION, GROWTH, DEVELOPMENT AND AGING, LIPID METABOLISM, METHODOLOGY, PLANT TUBER, PHOSPHOTRANSFERASES, PLANT PROTEINS, PLANT TUBERS, SPECTROMETRY, MASS, ELECTROSPRAY IONIZATION,
Online Access:http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=46640
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spelling KOHA-OAI-AGRO:466402022-04-08T13:56:36Zhttp://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=46640AAGLipid profiling by electrospray ionization tandem mass spectrometry and the identification of lipid phosphorylation by kinases in potato stolonsCenzano, Ana Madrid Cantoro, RenataHernández Sotomayor, S. M. TeresaAbdala, Guillermina I.Racagni, Graciela E.textengapplication/pdfThere is limited information about the involvement of lipids and esterified fatty acids in signaling pathways during plant development. The purpose of this study was to evaluate the lipid composition and molecular species of potato [Solanum tuberosum L., cv. Spunta] stolons and to identify phosphorylated lipids in the first two developmental stages of tuber formation. Lipid profiling was determined using ESI-MS/MS, a useful method for the determination of the biosynthesis and catabolism of lipids based on their fatty acid composition. The most prevalent compound identified in this study was phosphatidic acid [PA]; digalactosyldiacylglycerol [DGDG] was the second most abundant compound. A 34:2 species was identified in PA, phosphatidylcholine [PC], phosphatidylinositol [PI], and phosphatidylethanolamine [PE]. The identification of lipid phosphorylation by kinases was revealed by the presence of the phosphorylated lipids. PA was metabolized to diacylglycerol pyrophosphate [DGPP] by phosphatidic acid kinase [PAK]. This work establishes a correlation between lipid fatty acid composition and lipid metabolism enzymes at the beginning of tuber formation and is the first report of PAK activity in the early events of potato tuber formation.There is limited information about the involvement of lipids and esterified fatty acids in signaling pathways during plant development. The purpose of this study was to evaluate the lipid composition and molecular species of potato [Solanum tuberosum L., cv. Spunta] stolons and to identify phosphorylated lipids in the first two developmental stages of tuber formation. Lipid profiling was determined using ESI-MS/MS, a useful method for the determination of the biosynthesis and catabolism of lipids based on their fatty acid composition. The most prevalent compound identified in this study was phosphatidic acid [PA]; digalactosyldiacylglycerol [DGDG] was the second most abundant compound. A 34:2 species was identified in PA, phosphatidylcholine [PC], phosphatidylinositol [PI], and phosphatidylethanolamine [PE]. The identification of lipid phosphorylation by kinases was revealed by the presence of the phosphorylated lipids. PA was metabolized to diacylglycerol pyrophosphate [DGPP] by phosphatidic acid kinase [PAK]. This work establishes a correlation between lipid fatty acid composition and lipid metabolism enzymes at the beginning of tuber formation and is the first report of PAK activity in the early events of potato tuber formation.ELECTROSPRAY IONIZATION TANDEM MASS SPECTROMETRYGALACTOLIPIDKINASEPHOSPHOLIPIDPOTATOSOLANUM TUBEROSUMBIOCHEMISTRYENZYMESFATTY ACIDSGLYCEROLIONIZATIONMASS SPECTROMETRYMETABOLISMPHOSPHOLIPIDSPHOSPHORYLATIONELECTROSPRAY IONIZATIONPHOSPHOTRANSFERASEVEGETABLE PROTEINCHEMISTRYELECTROSPRAY MASS SPECTROMETRYENZYMOLOGYEVALUATIONGROWTH, DEVELOPMENT AND AGINGLIPID METABOLISMMETABOLISMMETHODOLOGYPLANT TUBERPHOSPHOTRANSFERASESPLANT PROTEINSPLANT TUBERSSOLANUM TUBEROSUMSPECTROMETRY, MASS, ELECTROSPRAY IONIZATIONJournal of Agricultural and Food Chemistry
institution UBA FA
collection Koha
country Argentina
countrycode AR
component Bibliográfico
access En linea
En linea
databasecode cat-ceiba
tag biblioteca
region America del Sur
libraryname Biblioteca Central FAUBA
language eng
topic ELECTROSPRAY IONIZATION TANDEM MASS SPECTROMETRY
GALACTOLIPID
KINASE
PHOSPHOLIPID
POTATO
SOLANUM TUBEROSUM
BIOCHEMISTRY
ENZYMES
FATTY ACIDS
GLYCEROL
IONIZATION
MASS SPECTROMETRY
METABOLISM
PHOSPHOLIPIDS
PHOSPHORYLATION
ELECTROSPRAY IONIZATION
PHOSPHOTRANSFERASE
VEGETABLE PROTEIN
CHEMISTRY
ELECTROSPRAY MASS SPECTROMETRY
ENZYMOLOGY
EVALUATION
GROWTH, DEVELOPMENT AND AGING
LIPID METABOLISM
METABOLISM
METHODOLOGY
PLANT TUBER
PHOSPHOTRANSFERASES
PLANT PROTEINS
PLANT TUBERS
SOLANUM TUBEROSUM
SPECTROMETRY, MASS, ELECTROSPRAY IONIZATION
ELECTROSPRAY IONIZATION TANDEM MASS SPECTROMETRY
GALACTOLIPID
KINASE
PHOSPHOLIPID
POTATO
SOLANUM TUBEROSUM
BIOCHEMISTRY
ENZYMES
FATTY ACIDS
GLYCEROL
IONIZATION
MASS SPECTROMETRY
METABOLISM
PHOSPHOLIPIDS
PHOSPHORYLATION
ELECTROSPRAY IONIZATION
PHOSPHOTRANSFERASE
VEGETABLE PROTEIN
CHEMISTRY
ELECTROSPRAY MASS SPECTROMETRY
ENZYMOLOGY
EVALUATION
GROWTH, DEVELOPMENT AND AGING
LIPID METABOLISM
METABOLISM
METHODOLOGY
PLANT TUBER
PHOSPHOTRANSFERASES
PLANT PROTEINS
PLANT TUBERS
SOLANUM TUBEROSUM
SPECTROMETRY, MASS, ELECTROSPRAY IONIZATION
spellingShingle ELECTROSPRAY IONIZATION TANDEM MASS SPECTROMETRY
GALACTOLIPID
KINASE
PHOSPHOLIPID
POTATO
SOLANUM TUBEROSUM
BIOCHEMISTRY
ENZYMES
FATTY ACIDS
GLYCEROL
IONIZATION
MASS SPECTROMETRY
METABOLISM
PHOSPHOLIPIDS
PHOSPHORYLATION
ELECTROSPRAY IONIZATION
PHOSPHOTRANSFERASE
VEGETABLE PROTEIN
CHEMISTRY
ELECTROSPRAY MASS SPECTROMETRY
ENZYMOLOGY
EVALUATION
GROWTH, DEVELOPMENT AND AGING
LIPID METABOLISM
METABOLISM
METHODOLOGY
PLANT TUBER
PHOSPHOTRANSFERASES
PLANT PROTEINS
PLANT TUBERS
SOLANUM TUBEROSUM
SPECTROMETRY, MASS, ELECTROSPRAY IONIZATION
ELECTROSPRAY IONIZATION TANDEM MASS SPECTROMETRY
GALACTOLIPID
KINASE
PHOSPHOLIPID
POTATO
SOLANUM TUBEROSUM
BIOCHEMISTRY
ENZYMES
FATTY ACIDS
GLYCEROL
IONIZATION
MASS SPECTROMETRY
METABOLISM
PHOSPHOLIPIDS
PHOSPHORYLATION
ELECTROSPRAY IONIZATION
PHOSPHOTRANSFERASE
VEGETABLE PROTEIN
CHEMISTRY
ELECTROSPRAY MASS SPECTROMETRY
ENZYMOLOGY
EVALUATION
GROWTH, DEVELOPMENT AND AGING
LIPID METABOLISM
METABOLISM
METHODOLOGY
PLANT TUBER
PHOSPHOTRANSFERASES
PLANT PROTEINS
PLANT TUBERS
SOLANUM TUBEROSUM
SPECTROMETRY, MASS, ELECTROSPRAY IONIZATION
Cenzano, Ana Madrid
Cantoro, Renata
Hernández Sotomayor, S. M. Teresa
Abdala, Guillermina I.
Racagni, Graciela E.
Lipid profiling by electrospray ionization tandem mass spectrometry and the identification of lipid phosphorylation by kinases in potato stolons
description There is limited information about the involvement of lipids and esterified fatty acids in signaling pathways during plant development. The purpose of this study was to evaluate the lipid composition and molecular species of potato [Solanum tuberosum L., cv. Spunta] stolons and to identify phosphorylated lipids in the first two developmental stages of tuber formation. Lipid profiling was determined using ESI-MS/MS, a useful method for the determination of the biosynthesis and catabolism of lipids based on their fatty acid composition. The most prevalent compound identified in this study was phosphatidic acid [PA]; digalactosyldiacylglycerol [DGDG] was the second most abundant compound. A 34:2 species was identified in PA, phosphatidylcholine [PC], phosphatidylinositol [PI], and phosphatidylethanolamine [PE]. The identification of lipid phosphorylation by kinases was revealed by the presence of the phosphorylated lipids. PA was metabolized to diacylglycerol pyrophosphate [DGPP] by phosphatidic acid kinase [PAK]. This work establishes a correlation between lipid fatty acid composition and lipid metabolism enzymes at the beginning of tuber formation and is the first report of PAK activity in the early events of potato tuber formation.
format Texto
topic_facet ELECTROSPRAY IONIZATION TANDEM MASS SPECTROMETRY
GALACTOLIPID
KINASE
PHOSPHOLIPID
POTATO
SOLANUM TUBEROSUM
BIOCHEMISTRY
ENZYMES
FATTY ACIDS
GLYCEROL
IONIZATION
MASS SPECTROMETRY
METABOLISM
PHOSPHOLIPIDS
PHOSPHORYLATION
ELECTROSPRAY IONIZATION
PHOSPHOTRANSFERASE
VEGETABLE PROTEIN
CHEMISTRY
ELECTROSPRAY MASS SPECTROMETRY
ENZYMOLOGY
EVALUATION
GROWTH, DEVELOPMENT AND AGING
LIPID METABOLISM
METABOLISM
METHODOLOGY
PLANT TUBER
PHOSPHOTRANSFERASES
PLANT PROTEINS
PLANT TUBERS
SOLANUM TUBEROSUM
SPECTROMETRY, MASS, ELECTROSPRAY IONIZATION
author Cenzano, Ana Madrid
Cantoro, Renata
Hernández Sotomayor, S. M. Teresa
Abdala, Guillermina I.
Racagni, Graciela E.
author_facet Cenzano, Ana Madrid
Cantoro, Renata
Hernández Sotomayor, S. M. Teresa
Abdala, Guillermina I.
Racagni, Graciela E.
author_sort Cenzano, Ana Madrid
title Lipid profiling by electrospray ionization tandem mass spectrometry and the identification of lipid phosphorylation by kinases in potato stolons
title_short Lipid profiling by electrospray ionization tandem mass spectrometry and the identification of lipid phosphorylation by kinases in potato stolons
title_full Lipid profiling by electrospray ionization tandem mass spectrometry and the identification of lipid phosphorylation by kinases in potato stolons
title_fullStr Lipid profiling by electrospray ionization tandem mass spectrometry and the identification of lipid phosphorylation by kinases in potato stolons
title_full_unstemmed Lipid profiling by electrospray ionization tandem mass spectrometry and the identification of lipid phosphorylation by kinases in potato stolons
title_sort lipid profiling by electrospray ionization tandem mass spectrometry and the identification of lipid phosphorylation by kinases in potato stolons
url http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=46640
work_keys_str_mv AT cenzanoanamadrid lipidprofilingbyelectrosprayionizationtandemmassspectrometryandtheidentificationoflipidphosphorylationbykinasesinpotatostolons
AT cantororenata lipidprofilingbyelectrosprayionizationtandemmassspectrometryandtheidentificationoflipidphosphorylationbykinasesinpotatostolons
AT hernandezsotomayorsmteresa lipidprofilingbyelectrosprayionizationtandemmassspectrometryandtheidentificationoflipidphosphorylationbykinasesinpotatostolons
AT abdalaguillerminai lipidprofilingbyelectrosprayionizationtandemmassspectrometryandtheidentificationoflipidphosphorylationbykinasesinpotatostolons
AT racagnigracielae lipidprofilingbyelectrosprayionizationtandemmassspectrometryandtheidentificationoflipidphosphorylationbykinasesinpotatostolons
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