Control of carbohydrate metabolism in a starchless mutant of Arabidopsis thaliana

Abstract Primary carbohydrate metabolism in plants includes several sugar and sugar-derivative transport processes. Over recent years, evidences have shown that in starch-related transport processes, in addition to glucose 6-phosphate, maltose, glucose and triose-phosphates, glucose 1-phosphate also plays a role and thereby increases the possible fluxes of sugar metabolites in planta. In this study, we report the characterization of two highly similar transporters, At1g34020 and At4g09810, in Arabidopsis thaliana, which allow the import of glucose 1-phosphate through the plasma membrane. Both transporters were expressed in yeast and were biochemically analyzed to reveal an antiport of glucose 1-phosphate/phosphate. Furthermore, we showed that the apoplast of Arabidopsis leaves contained glucose 1-phosphate and that the corresponding mutant of these transporters had higher glucose 1-phosphate amounts in the apoplast and alterations in starch and starch-related metabolism.

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The phosphatase laforin crosses evolutionary boundaries and links carbohydrate metabolism to neuronal disease

The Journal of Cell Biology ◽

10.1083/jcb.200704094 ◽

2007 ◽

Vol 178 (3) ◽

pp. 477-488 ◽

Cited By ~ 96

Author(s):

Matthew S. Gentry ◽

Robert H. Dowen ◽

Carolyn A. Worby ◽

Seema Mattoo ◽

Joseph R. Ecker ◽

...

Keyword(s):

Arabidopsis Thaliana ◽

Carbohydrate Metabolism ◽

Homo Sapiens ◽

Red Alga ◽

Lafora Disease ◽

Complex Carbohydrate ◽

Gene Encoding ◽

Lafora Bodies ◽

Neuronal Disease ◽

Progressive Myoclonic Epilepsy

Lafora disease (LD) is a progressive myoclonic epilepsy resulting in severe neurodegeneration followed by death. A hallmark of LD is the accumulation of insoluble polyglucosans called Lafora bodies (LBs). LD is caused by mutations in the gene encoding the phosphatase laforin, which reportedly exists solely in vertebrates. We utilized a bioinformatics screen to identify laforin orthologues in five protists. These protists evolved from a progenitor red alga and synthesize an insoluble carbohydrate whose composition closely resembles LBs. Furthermore, we show that the kingdom Plantae, which lacks laforin, possesses a protein with laforin-like properties called starch excess 4 (SEX4). Mutations in the Arabidopsis thaliana SEX4 gene results in a starch excess phenotype reminiscent of LD. We demonstrate that Homo sapiens laforin complements the sex4 phenotype and propose that laforin and SEX4 are functional equivalents. Finally, we show that laforins and SEX4 dephosphorylate a complex carbohydrate and form the only family of phosphatases with this activity. These results provide a molecular explanation for the etiology of LD.

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Control of carbohydrate metabolism in a starchless mutant of Arbidopsis thaliana

Physiologia Plantarum ◽

10.1111/j.1399-3054.1992.tb05810.x ◽

1992 ◽

Vol 85 (3) ◽

pp. 446-452 ◽

Cited By ~ 7

Author(s):

Richard C. Sicher ◽

Diane F. Kremer

Keyword(s):

Carbohydrate Metabolism ◽

Starchless Mutant

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Isolation and Characterization of a Starchless Mutant of Arabidopsis thaliana (L.) Heynh Lacking ADPglucose Pyrophosphorylase Activity

PLANT PHYSIOLOGY ◽

10.1104/pp.86.4.1131 ◽

1988 ◽

Vol 86 (4) ◽

pp. 1131-1135 ◽

Cited By ~ 181

Author(s):

Tsan-Piao Lin ◽

Timothy Caspar ◽

Chris Somerville ◽

Jack Preiss

Keyword(s):

Arabidopsis Thaliana ◽

Adpglucose Pyrophosphorylase ◽

Isolation And Characterization ◽

Starchless Mutant

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The role of carbohydrates in the induction of flowering in Arabidopsis thaliana : comparison between the wild type and a starchless mutant

Planta ◽

10.1007/s004250050383 ◽

1998 ◽

Vol 206 (1) ◽

pp. 131-137 ◽

Cited By ~ 131

Author(s):

Laurent Corbesier ◽

Pierre Lejeune ◽

Georges Bernier

Keyword(s):

Arabidopsis Thaliana ◽

Wild Type ◽

Starchless Mutant

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Alterations in Growth, Photosynthesis, and Respiration in a Starchless Mutant of Arabidopsis thaliana (L.) Deficient in Chloroplast Phosphoglucomutase Activity

PLANT PHYSIOLOGY ◽

10.1104/pp.79.1.11 ◽

1985 ◽

Vol 79 (1) ◽

pp. 11-17 ◽

Cited By ~ 278

Author(s):

Timothy Caspar ◽

Steven C. Huber ◽

Chris Somerville

Keyword(s):

Arabidopsis Thaliana ◽

Photosynthesis And Respiration ◽

Starchless Mutant

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Primary carbohydrate metabolism genes participate in heat stress memory at the shoot apical meristem of Arabidopsis thaliana

10.1101/2020.08.20.258939 ◽

2020 ◽

Author(s):

Justyna Jadwiga Olas ◽

Federico Apelt ◽

Maria Grazia Annunziata ◽

Sarah Isabel Richard ◽

Saurabh Gupta ◽

...

Keyword(s):

Arabidopsis Thaliana ◽

Heat Stress ◽

Carbohydrate Metabolism ◽

Higher Plants ◽

Fructose Bisphosphate ◽

Protection Mechanism ◽

Stress Memory ◽

Heat Shock Transcription Factors ◽

Fructose Bisphosphate Aldolase ◽

Carbohydrate Metabolism Genes

AbstractAlthough we have a good understanding of the development of shoot apical meristems (SAM) in higher plants, and the function of the stem cells (SCs) embedded in the SAM, there is surprisingly little known of its molecular responses to abiotic stresses. Here, we show that the SAM of Arabidopsis thaliana senses heat stress (HS) and retains an autonomous molecular memory of a previous non-lethal HS, allowing the SAM to regain growth after exposure to an otherwise lethal HS several days later. Using RNA-seq, we identified genes participating in establishing a SAM-specific HS memory. The genes include HEAT SHOCK TRANSCRIPTION FACTORs (HSFs), of which HSFA2 is essential, but not sufficient, for full HS memory in the SAM, the SC regulators CLAVATA1 (CLV1) and CLV3, and several primary carbohydrate metabolism genes, including FRUCTOSE-BISPHOSPHATE ALDOLASE 6 (FBA6). We found that expression of FBA6 during HS at the SAM complements that of FBA8 in the same organ. Furthermore, we show that sugar availability at the SAM is essential for survival at high-temperature HS. Collectively, plants have evolved a sophisticated protection mechanism to maintain SCs and, hence, their capacity to re-initiate shoot growth after stress release.

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