Metabolomics

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Jasmonate-mediated stomatal closure under elevated CO2 revealed by time-resolved metabolomics


ABSTRACT: Foliar stomatal movements are critical for regulating plant water loss and gas exchange. Elevated carbon dioxide (CO2) levels are known to induce stomatal closure. However, the current knowledge on CO2 signal transduction in stomatal guard cells is limited. Here we report metabolomic responses of Brassica napus guard cells to elevated CO2 using three hyphenated metabolomics platforms: gas chromatography-mass spectrometry (MS); liquid chromatography (LC)-multiple reaction monitoring-MS; and ultra-high-performance LC-quadrupole time-of-flight-MS. A total of 358 metabolites from guard cells were quantified in a time-course response to elevated CO2 level. Most metabolites increased under elevated CO2, showing the most significant differences at 10 min. In addition, reactive oxygen species production increased and stomatal aperture decreased with time. Major alterations in flavonoid, organic acid, sugar, fatty acid, phenylpropanoid and amino acid metabolic pathways indicated changes in both primary and specialized metabolic pathways in guard cells. Most interestingly, the jasmonic acid (JA) biosynthesis pathway was significantly altered in the course of elevated CO2 treatment. Together with results obtained from JA biosynthesis and signaling mutants as well as CO2 signaling mutants, we discovered that CO2-induced stomatal closure is mediated by JA signaling.

INSTRUMENT(S): Quattro micro API (Waters), Agilent 5975E GC/MSD (Agilent), API 4000 QTRAP (AB Sciex)

SUBMITTER: Biswapriya Misra 

PROVIDER: MTBLS312 | MetaboLights | 2017-04-25

REPOSITORIES: MetaboLights

Dataset's files

Source:
Action DRS
MTBLS312 Other
FILES Other
a_MTBLS312_GC_MS.txt Txt
a_MTBLS312_HPLC_MS_MS.txt Txt
a_MTBLS312_UPLC_MS.txt Txt
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Publications

Jasmonate-mediated stomatal closure under elevated CO<sub>2</sub> revealed by time-resolved metabolomics.

Geng Sisi S   Misra Biswapriya B BB   de Armas Evaldo E   Huhman David V DV   Alborn Hans T HT   Sumner Lloyd W LW   Chen Sixue S  

The Plant journal : for cell and molecular biology 20161005 6


Foliar stomatal movements are critical for regulating plant water loss and gas exchange. Elevated carbon dioxide (CO<sub>2</sub> ) levels are known to induce stomatal closure. However, the current knowledge on CO<sub>2</sub> signal transduction in stomatal guard cells is limited. Here we report metabolomic responses of Brassica napus guard cells to elevated CO<sub>2</sub> using three hyphenated metabolomics platforms: gas chromatography-mass spectrometry (MS); liquid chromatography (LC)-multiple  ...[more]

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