Abstract
The plant plasma membrane (PM) plays a key role in nutrition, cell homeostasis, perception of environmental signals, and set-up of appropriate adaptive responses. An exhaustive and quantitative description of the whole set of lipids and proteins constituting the PM is thus necessary to understand how the way these components, are organized and interact together, allow to fulfill such essential physiological functions. Here we provide by state-of-the-art approaches the first combined reference of the plant PM lipidome and proteome from Arabidopsis thaliana suspension cell culture. We identified a reproducible core set of 2,165 proteins (406 of which had not been shown associated to PM previously), which is by far the largest set of available data concerning the plant PM proteome. Using the same samples, we combined lipidomic approaches, allowing the identification and quantification of an unprecedented repertoire of 405 molecular species of lipids. We showed that the different classes of lipids (sterols, phospholipids, and sphingolipids) are present in similar proportions in the plant PM. Within each lipid class, the precise amount of each lipid family and the relative proportion of each molecular species were further determined, allowing us to establish the complete lipidome of Arabidopsis PM, and highlighting specific characteristics of the different molecular species of lipids (for instance fatty acyl chain length and saturation according to the polar head). Results obtained are consistent with the plant PM being an ordered mosaic of domains and point to a finely tuned adjustment of the molecular characteristics of lipids and proteins. More than a hundred proteins related to lipid metabolism, transport or signaling have been identified and put in perspective of the lipids with which they are associated. All these results provide an overall view of both the organization and the functioning of the PM.
Competing Interest Statement
The authors have declared no competing interest.
Footnotes
Conflicts of interest: none
Credit Author Statement
Delphine Bahammou, methodology, investigation, visualization, writing -review and editing
Ghislaine Recorbet, data curation, formal analysis, investigation, methodology, visualization, writing-original draft
Thierry Balliau, Adiilah Mamode Cassim, Franck Robert, Pierre Van Delft, Youcef Haddad: investigation, methodology, writing-review and editing
Laetitia Fouillen, Sébastien Mongrand: conceptualization, methodology, investigation, validation, visualization, writing-original draft
Françoise Simon-Plas, conceptualization, funding acquisition, project administration, validation, writing-original draft
Results and figures on protein profiling updated to clarify; Discussion on protein and lipid profiling updated to clarify; Author list updated
Abbreviations
- ACN
- (acetonitrile)
- ARALIP
- (Arabidopsis acyl-lipid metabolism database)
- ASG
- (acylated steryl glycoside)
- Atµ
- (Arabidopsis microsomes)
- AtPM
- (Aradidopsis plasma membrane)
- BSTFA
- (N, O-bis(trimethylsilyl)trifluoroacetamide))
- Cer
- (ceramide)
- Col-0
- (columbia-0)
- DAG
- (diacylglycerol)
- DGDG
- (digalactosyldiacylglycerol)
- ER
- (endoplasmic reticulum)
- FA
- (fatty acid)
- FDR
- (false discovery rate),
- G protein
- (guanine nucleotide-binding protein)
- GIPC
- (glycosyl inositol phosphoryl ceramide)
- GlcCer
- (glucosylceramide)
- GO
- (gene ontology)
- GPI
- (glycosylphosphatidylinositol)
- GRAVY
- (grand average of hydropathicity index)
- HDA
- (high throughput direct assay)
- HP-TLC
- (high-performance thin layer chromatography)
- hVLCFA
- (2-hydroxylated very long chain fatty acid)
- ID
- (internal diameter)
- IDA
- (inferred from direct assay)
- LBD
- (lipid-binding domain)
- LCB
- (long-chain base)
- LCB-P
- (long-chain base-phosphate)
- LC-MS/MS
- (liquid chromatography-tandem mass spectrometry)
- LTP
- (lipid-transfer protein)
- MCS
- (membrane contact site)
- MGDG
- (monogalactosyldiacylglycerol)
- MLP
- (multi-localizing protein)
- MS
- (Murashige and Skoog)
- MRM
- (multiple reaction monitoring)
- NSAF
- (normalized spectral abundance factor)
- PA
- (phosphatidic acid)
- PASEF
- (parallel accumulation serial fragmentation)
- PC
- (phosphatidylcholine
- PE
- (phosphatidylethanolamine)
- PG
- (phosphatidylglycerol)
- PI
- (phosphatidylinositol)
- PIP
- (phosphatidylinositol monophosphate)
- PI4P
- (phosphatidylinositol 4-phosphate)
- PIPT
- (phosphatidylinositol transfer protein)
- PIP2
- (phosphatidylinositol bisphosphate)
- PM
- (plasma membrane),
- PS
- (phosphatidylserine)
- PSI
- (pound-force per square inch)
- SG
- (sterylglycosides)
- SP
- (N-terminal signal peptide)
- SUBA
- (subcellular localization database for Arabidopsis proteins)
- TIMS
- (trapped ion mobility spectrometry)
- TM
- (trans-membrane)
- VLCFA
- (very long chain fatty acid)