Vacuoles release sucrose <i>via</i> tonoplast‐localised SUC4‐type transporters

Schneider, Sabine; Hulpke, S.; Schulz, Alexander; Yaron, Imry; Höll, Janine; Imlau, Astrid; Schmitt, Bianca M; Batz, S.; Wolf, Sebastián; Hedrich, Rainer; Sauer, Norbert

doi:10.1111/j.1438-8677.2011.00506.x

Cited by 130 publications

(156 citation statements)

References 57 publications

(100 reference statements)

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“…Unlike Suc storage organs, which have efficient sugar transporters and sugar-metabolizing enzymes that compartmentalize Suc into vacuoles, elevated levels of Suc accumulate in the cytosol of adg1suc2. This is consistent with the observation that adg1suc2 and the wild type have similar expression levels of TMT1/2, which encodes the protoncoupled antiporter capable of high-capacity vacuolar Glc and Suc loading (Schulz et al, 2011), and similar levels of SUC4, a proton-coupled symporter that exports Suc from the vacuole (Schneider et al, 2012).…”

Section: Sugar Accumulation In Adg1suc2 Leavessupporting

confidence: 76%

Sugar Potentiation of Fatty Acid and Triacylglycerol Accumulation

Zhai

Liu

et al. 2017

Plant Physiol.

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Photosynthetically derived sugar provides carbon skeletons for lipid biosynthesis. We used mutants of Arabidopsis (Arabidopsis thaliana) and the expression of oleogenic factors to investigate relationships among sugar availability, lipid synthesis, and the accumulation of triacylglycerol (TAG) in leaf tissue. The adg1 mutation disables the small subunit of ADP-glucose pyrophosphorylase, the first step in starch synthesis, and the suc2 mutation disables a sucrose/proton symporter that facilitates sucrose loading from leaves into phloem. The adg1suc2 double mutant increases glucose plus sucrose content in leaves 80-fold relative to the wild type, total fatty acid (FA) content 1.8-fold to 8.3% dry weight, and TAG more than 10-fold to 1.2% dry weight. The WRINKLED1 transcription factor also accumulates to higher levels in these leaves, and the rate of FA synthesis increases by 58%. Adding tt4, which disables chalcone synthase, had little effect, but adding the tgd1 mutation, which disables an importer of lipids into plastids to create adg1suc2tt4tgd1, increased total leaf FA to 13.5% dry weight and TAG to 3.8% dry weight, demonstrating a synergistic effect upon combining these mutations. Combining adg1suc2 with the sdp1 mutation, deficient in the predominant TAG lipase, had little effect on total FA content but increased the TAG accumulation by 66% to 2% dry weight. Expression of the WRINKLED1 transcription factor, along with DIACYLGLYCEROL ACYLTRANSFERASE1 and the OLEOSIN1 oil body-associated protein, in the adg1suc2 mutant doubled leaf FA content and increased TAG content to 2.3% dry weight, a level 4.6-fold higher than that resulting from expression of the same factors in the wild type.

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Section: Sugar Accumulation In Adg1suc2 Leavessupporting

confidence: 76%

Sugar Potentiation of Fatty Acid and Triacylglycerol Accumulation

Zhai

Liu

et al. 2017

Plant Physiol.

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“…By contrast, another tonoplast-localized transporter, the Suc transporter SUC4 (Endler et al, 2006;Schneider et al, 2011;Schulz et al, 2011), is transported via a second, AP-3-dependent route. (Bonifacino and Traub, 2003).…”

Section: Discussionmentioning

confidence: 99%

“…As controls, we compared the localization of GFP fusions to the Arabidopsis Suc transporter SUC4 (GFP-SUC4) and to the Arabidopsis Glc transporter ESL1 (ESL1-GFP), which were previously shown to localize to the tonoplast (Endler et al, 2006;Yamada et al, 2010;Schneider et al, 2011). Whereas ESL1 has an N-terminal [D/E]XXXL[L/I]-type motif involved in the sorting to the tonoplast (Yamada et al, 2010), SUC4 does not contain any of the putative sorting signals known from animals.…”

Section: Ap-3 Is Involved In the Sorting Of Suc4 To The Tonoplast Butmentioning

confidence: 99%

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Routes to the Tonoplast: The Sorting of Tonoplast Transporters in Arabidopsis Mesophyll Protoplasts

et al. 2012

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Vacuoles perform a multitude of functions in plant cells, including the storage of amino acids and sugars. Tonoplastlocalized transporters catalyze the import and release of these molecules. The mechanisms determining the targeting of these transporters to the tonoplast are largely unknown. Using the paralogous Arabidopsis thaliana inositol transporters INT1 (tonoplast) and INT4 (plasma membrane), we performed domain swapping and mutational analyses and identified a C-terminal di-leucine motif responsible for the sorting of higher plant INT1-type transporters to the tonoplast in Arabidopsis mesophyll protoplasts. We demonstrate that this motif can reroute other proteins, such as INT4, SUCROSE TRANS-PORTER2 (SUC2), or SWEET1, to the tonoplast and that the position of the motif relative to the transmembrane helix is critical. Rerouted INT4 is functionally active in the tonoplast and complements the growth phenotype of an int1 mutant. In Arabidopsis plants defective in the b-subunit of the AP-3 adaptor complex, INT1 is correctly localized to the tonoplast, while sorting of the vacuolar sucrose transporter SUC4 is blocked in cis-Golgi stacks. Moreover, we demonstrate that both INT1 and SUC4 trafficking to the tonoplast is sensitive to brefeldin A. Our data show that plants possess at least two different Golgi-dependent targeting mechanisms for newly synthesized transporters to the tonoplast.

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“…Loss of function of this type of carrier in Arabidopsis, poplar (Populus spp. ), or rice (Oryza sativa) leads to an accumulation of Suc in leaves (Eom et al, 2011;Payyavula et al, 2011;Schneider et al, 2012), elegantly proving that this type of carrier fulfills an export function under in vivo conditions.…”

mentioning

confidence: 93%

Overexpression of the Vacuolar Sugar CarrierAtSWEET16Modifies Germination, Growth, and Stress Tolerance in Arabidopsis

et al. 2013

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Here, we report that SUGARS WILL EVENTUALLY BE EXPORTED TRANSPORTER (SWEET16) from Arabidopsis (Arabidopsis thaliana) is a vacuole-located carrier, transporting glucose (Glc), fructose (Fru), and sucrose (Suc) after heterologous expression in Xenopus laevis oocytes. The SWEET16 gene, similar to the homologs gene SWEET17, is mainly expressed in vascular parenchyma cells. Application of Glc, Fru, or Suc, as well as cold, osmotic stress, or low nitrogen, provoke the down-regulation of SWEET16 messenger RNA accumulation. SWEET16 overexpressors (35S Pro :SWEET16) showed a number of peculiarities related to differences in sugar accumulation, such as less Glc, Fru, and Suc at the end of the night. Under cold stress, 35S Pro :SWEET16 plants are unable to accumulate Fru, while under nitrogen starvation, both Glc and Fru, but not Suc, were less abundant. These changes of individual sugars indicate that the consequences of an increased SWEET16 activity are dependent upon the type of external stimulus. Remarkably, 35S Pro :SWEET16 lines showed improved germination and increased freezing tolerance. The latter observation, in combination with the modified sugar levels, points to a superior function of Glc and Suc for frost tolerance. 35S Pro :SWEET16 plants exhibited increased growth efficiency when cultivated on soil and showed improved nitrogen use efficiency when nitrate was sufficiently available, while under conditions of limiting nitrogen, wild-type biomasses were higher than those of 35S Pro :SWEET16 plants. Our results identify SWEET16 as a vacuolar sugar facilitator, demonstrate the substantial impact of SWEET16 overexpression on various critical plant traits, and imply that SWEET16 activity must be tightly regulated to allow optimal Arabidopsis development under nonfavorable conditions.

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Vacuoles release sucrose via tonoplast‐localised SUC4‐type transporters

Cited by 130 publications

References 57 publications

Sugar Potentiation of Fatty Acid and Triacylglycerol Accumulation

Sugar Potentiation of Fatty Acid and Triacylglycerol Accumulation

Routes to the Tonoplast: The Sorting of Tonoplast Transporters in Arabidopsis Mesophyll Protoplasts

Overexpression of the Vacuolar Sugar CarrierAtSWEET16Modifies Germination, Growth, and Stress Tolerance in Arabidopsis

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