Turning Over a New Leaf in Lipid Droplet Biology

Pyc, Michal; Cai, Yingqi; Greer, Michael S.; Yurchenko, O. P.; Chapman, Kent D.; Dyer, John M.; Mullen, Robert T.

doi:10.1016/j.tplants.2017.03.012

Cited by 122 publications

(109 citation statements)

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“…The changes observed in genes related to TG metabolism highlight the dynamic regulation of the neutral lipid content in EBC under salt treatment conditions (Figures c,d). This is supported by the responsiveness of an oleosin gene, whose protein product is a plant LD‐specific component important for their stabilization, formation, and turnover (Pyc et al, ). Comparison of upregulated and downregulated TG‐related genes indicates a preference for TG degradation rather than for TG biosynthesis in EBC from salt‐treated plants (Figure b and Table S3).…”

Section: Resultsmentioning

confidence: 99%

Single cell‐type analysis of cellular lipid remodelling in response to salinity in the epidermal bladder cells of the model halophyte Mesembryanthemum crystallinum

Barkla

Garibay-Hernández

Melzer

et al. 2018

Plant Cell & Environment

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Salt stress causes dramatic changes in the organization and dynamic properties of membranes, however, little is known about the underlying mechanisms involved. Modified trichomes, known as epidermal bladder cells (EBC), on the leaves and stems of the halophyte Mesembryanthemum crystallinum can be successfully exploited as a single-cell-type system to investigate salt-induced changes to cellular lipid composition. In this study, alterations in key molecular species from different lipid classes highlighted an increase in phospholipid species, particularly those from phosphatidylcholine and phosphatidic acid (PA), where the latter is central to the synthesis of membrane lipids. Triacylglycerol (TG) species decreased during salinity, while there was little change in plastidic galactolipids. EBC transcriptomic and proteomic data mining revealed changes in genes and proteins involved in lipid metabolism and the upregulation of transcripts for PIPKIB, PI5PII, PIPKIII, and phospholipase D delta suggested the induction of signalling processes mediated by phosphoinositides and PA. TEM and flow cytometry showed the dynamic nature of lipid droplets in these cells under salt stress. Altogether, this work indicates that the metabolism of TG might play an important role in EBC response to salinity as either an energy reserve for sodium accumulation and/or driving membrane biosynthesis for EBC expansion.

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Section: Resultsmentioning

confidence: 99%

Single cell‐type analysis of cellular lipid remodelling in response to salinity in the epidermal bladder cells of the model halophyte Mesembryanthemum crystallinum

Barkla

Garibay-Hernández

Melzer

et al. 2018

Plant Cell & Environment

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“…Reducing the proportions of oleosin to TAGs in vitro via chemical reconstitution (Tzen 404 and Huang, 1992) or in vivo via breeding (Ting et al, 1996; Fig. 1C)), T-DNA insertion 405 mutation (Siloto et al, 2006;Shimada et al, 2008) (Chen and Goodman, 2017;Walther et al, 2017) and recently 414 explored in plants (Cai et al, 2015b;Cai et al, 2017). For the oleosin molecule per se, the C-and 415 N-terminal peptides are not required for oleosin targeting ER-LDs (Abell et al, 2002(Abell et al, , 2004416 Beaudoin and Napier, 2002).…”

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confidence: 99%

“…However, the whole hairpin including the N-portion residues, the 417 full length of the hairpin arms, as well as the 3 proline and 1 serine residues at the hairpin turn, peroxisomes is negatively correlated with the presence of sucrose, reflecting a mechanism of end 435 product feedback inhibition of TAG gluconeogenesis (Cui et al, 2016). CGI-58 protein, a lipase 436 activity modulator on mammalian LDs, is present on peroxisomes in seed (Pyc et al, 2017 Tzen, 2011;Deruyffelaere et al, 2015). This proteolysis could facilitate lipolysis of LDs or 467 represent a general mobilization of all proteins including oleosins for seedling growth.…”

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confidence: 99%

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Plant Lipid Droplets and Their Associated Proteins: Potential for Rapid Advances

2017

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“…Oil bodies, also known as lipid droplets, compartmentalize neutral lipids and allow storage of large quantities of triacylglycerol in oilseeds (for review, see Pyc et al, 2017). During germination and early seedling growth, peroxisomes associate with oil bodies (Chapman and Trelease, 1991;Hayashi et al, 2001) to utilize seed energy reserves (for review, see Graham, 2008).…”

mentioning

confidence: 99%