Temporal responses of transcripts, enzyme activities and metabolites after adding sucrose to carbon‐deprived Arabidopsis seedlings

Osuna, Daniel; Usadel, Björn; Morcuende, Rosa; Gibon, Yves; Bläsing, Oliver E.; Höhne, Melanie; Günter, Manuela; Kamlage, Beate; Trethewey, Richard N.; Scheible, Wolf‐Rüdiger; Stitt, Mark

doi:10.1111/j.1365-313x.2006.02979.x

Cited by 265 publications

(315 citation statements)

References 91 publications

(170 reference statements)

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“…Sugars may also exert an additional effect over substrate provision by enhancing biosynthetic capacity. Increased sugar concentration triggers wide-scale changes in gene expression and enzyme activities in Arabidopsis, many of which are associated with primary metabolism (Bläsing et al, 2005;Osuna et al, 2007). For example, there is evidence that both WRI1 and DGAT1 are induced by sugar (Lu et al, 2003;Masaki et al, 2005).…”

Section: Discussionmentioning

confidence: 99%

The SUGAR-DEPENDENT1 Lipase Limits Triacylglycerol Accumulation in Vegetative Tissues of Arabidopsis

et al. 2013

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There has been considerable interest recently in the prospect of engineering crops to produce triacylglycerol (TAG) in their vegetative tissues as a means to achieve a step change in oil yield. Here, we show that disruption of TAG hydrolysis in the Arabidopsis (Arabidopsis thaliana) lipase mutant sugar-dependent1 (sdp1) leads to a substantial accumulation of TAG in roots and stems but comparatively much lower TAG accumulation in leaves. TAG content in sdp1 roots increases with the age of the plant and can reach more than 1% of dry weight at maturity, a 50-fold increase over the wild type. TAG accumulation in sdp1 roots requires both ACYL-COENZYME A:DIACYLGLYCEROL ACYLTRANSFERASE1 (DGAT1) and PHOSPHATIDYLCHOLINE: DIACYLGLYCEROL ACYLTRANSFERASE1 and can also be strongly stimulated by the provision of exogenous sugar. In transgenic plants constitutively coexpressing WRINKLED1 and DGAT1, sdp1 also doubles the accumulation of TAG in roots, stems, and leaves, with levels ranging from 5% to 8% of dry weight. Finally, provision of 3% (w/v) exogenous Suc can further boost root TAG content in these transgenic plants to 17% of dry weight. This level of TAG is similar to seed tissues in many plant species and establishes the efficacy of an engineering strategy to produce oil in vegetative tissues that involves simultaneous manipulation of carbohydrate supply, fatty acid synthesis, TAG synthesis, and also TAG breakdown.

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Section: Discussionmentioning

confidence: 99%

The SUGAR-DEPENDENT1 Lipase Limits Triacylglycerol Accumulation in Vegetative Tissues of Arabidopsis

et al. 2013

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“…This "starvation response" is seen, for example, when the night is extended beyond the normal dawn and in mutants defective in the storage or utilization of starch reserves during the night (Smith and Stitt, 2007). The starvation response can be monitored by measuring transcript levels of genes for which expression is known to be specifically responsive to carbohydrate levels (Gibon et al, 2004;Bläsing et al, 2005;Osuna et al, 2007;Usadel et al, 2008;Graf et al, 2010). We investigated whether the reduced carbohydrate levels in the terminal cluster of flowers and buds of gsl7 inflorescences triggered a starvation response by determining the expression of four starvation-induced genes (At1g76410, At3g59940, At1g08630, and At1g10070) and one sugar-induced gene (At3g13470; Supplemental Table S4).…”

Section: Phloem Transport Rates and Carbohydrate Availability Are Redmentioning

confidence: 99%

Callose Synthase GSL7 Is Necessary for Normal Phloem Transport and Inflorescence Growth in Arabidopsis

et al. 2010

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One isoform of callose synthase, Glucan Synthase-Like7 (GSL7), is tightly coexpressed with two isoforms of sucrose synthase (SUS5 and SUS6) known to be confined to phloem sieve elements in Arabidopsis (Arabidopsis thaliana). Investigation of the phenotype of gsl7 mutants of Arabidopsis revealed that the sieve plate pores of stems and roots lack the callose lining seen in wild-type plants. Callose synthesis in other tissues of the plant appears to be unaffected. Although gsl7 plants show only minor phenotypic alterations during vegetative growth, flowering stems are reduced in height and all floral parts are smaller than those of wild-type plants. Several lines of evidence suggest that the reduced growth of the inflorescence is a result of carbohydrate starvation. Levels of sucrose, hexoses, and starch are lower in the terminal bud clusters of gsl7 than in those of wild-type plants. Transcript levels of "starvation" genes expressed in response to low sugars are elevated in the terminal bud clusters of gsl7 plants, at the end of the night, and during an extended night. Pulse-chase experiments with 14 CO 2 show that transport of assimilate in the flowering stem is much slower in gsl7 mutants than in wild-type plants. We suggest that the callose lining of sieve plate pores is essential for normal phloem transport because it confers favorable flow characteristics on the pores.

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“…Hence, a significant fraction of those genes might act downstream of, or participate in, a sugar-dependent signaling cascade. In Arabidopsis seedlings, more than 4,000 diurnally fluctuating genes are affected by changing Suc levels and many of the rapidly Suc-induced or -repressed genes correlate either positively or negatively to diurnal Suc levels (Blasing et al, 2005;Osuna et al, 2007).…”

Section: Sugar Signaling Network May Cause Diurnal Regulation Of a Lmentioning

confidence: 99%

Significance of Light, Sugar, and Amino Acid Supply for Diurnal Gene Regulation in Developing Barley Caryopses

et al. 2010

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The caryopses of barley (Hordeum vulgare), as of all cereals, are complex sink organs optimized for starch accumulation and embryo development. While their early to late development has been studied in great detail, processes underlying the caryopses' diurnal adaptation to changes in light, temperature, and the fluctuations in phloem-supplied carbon and nitrogen have remained unknown. In an attempt to identify diurnally affected processes in developing caryopses at the early maturation phase, we monitored global changes of both gene expression and metabolite levels. We applied the 22 K Barley1 GeneChip microarray and identified 2,091 differentially expressed (DE) genes that were assigned to six major diurnal expression clusters. Principal component analysis and other global analyses demonstrated that the variability within the data set relates to genes involved in circadian regulation, storage compound accumulation, embryo development, response to abiotic stress, and photosynthesis. The correlation of amino acid and sugar profiles with expression trajectories led to the identification of several hundred potentially metabolite-regulated DE genes. A comparative analysis of our data set and publicly available microarray data disclosed suborgan-specific expression of almost all diurnal DE genes, with more than 350 genes specifically expressed in the pericarp, endosperm, or embryo tissues. Our data reveal a tight linkage between day/night cycles, changes in light, and the supply of carbon and nitrogen. We present a model that suggests several phases of diurnal gene expression in developing barley caryopses, summarized as starvation and priming, energy collection and carbon fixation, light protection and chaperone activity, storage and growth, and embryo development.

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Temporal responses of transcripts, enzyme activities and metabolites after adding sucrose to carbon‐deprived Arabidopsis seedlings

Cited by 265 publications

References 91 publications

The SUGAR-DEPENDENT1 Lipase Limits Triacylglycerol Accumulation in Vegetative Tissues of Arabidopsis

The SUGAR-DEPENDENT1 Lipase Limits Triacylglycerol Accumulation in Vegetative Tissues of Arabidopsis

Callose Synthase GSL7 Is Necessary for Normal Phloem Transport and Inflorescence Growth in Arabidopsis

Significance of Light, Sugar, and Amino Acid Supply for Diurnal Gene Regulation in Developing Barley Caryopses

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