α-Amylase Is Not Required for Breakdown of Transitory Starch in Arabidopsis Leaves

Yu, Tien‐Shin; Zeeman, Samuel C.; Thorneycroft, David; Fulton, Daniel C.; Dunstan, Hannah; Lue, Wei-Ling; Hegemann, Björn; Tung, Shu-Yun; Umemoto, Takayuki; Chapple, Andrew G.; Tsai, Der-Long; Wang, Shue-Mei; Smith, Alison M.; Chen, Jychian; Smith, Steven M.

doi:10.1074/jbc.m413638200

Cited by 162 publications

(174 citation statements)

References 35 publications

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“…The activity band attributable to AMY3 was, as expected, weak in intensity on gels of extracts of sex4 leaves ( Fig. 4A; Zeeman et al, 1998;Yu et al, 2005). However, the activity band in extracts of lsf1 leaves was comparable with or more intense than the band for wild-type plants.…”

Section: Phenotypic Characterization Of the Lsf1 Mutantsupporting

confidence: 76%

“…This reduction in AMY3 activity is not responsible for the accumulation of starch in the sex4 mutant: amy3 mutants that lack AMY3 have completely normal rates of starch degradation (Yu et al, 2005). In fact, despite the reduction in its activity, AMY3 plays an important role in determining the sex4 phenotype: together with ISA3 it catalyzes the release from the granule surface of phosphorylated oligosaccharides that accumulate in the stroma of sex4 chloroplasts (Kö tting et al, 2009).…”

Section: Phenotypic Characterization Of the Lsf1 Mutantmentioning

confidence: 99%

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A Putative Phosphatase, LSF1, Is Required for Normal Starch Turnover in Arabidopsis Leaves

et al. 2009

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A putative phosphatase, LSF1 (for LIKE SEX4; previously PTPKIS2), is closely related in sequence and structure to STARCH-EXCESS4 (SEX4), an enzyme necessary for the removal of phosphate groups from starch polymers during starch degradation in Arabidopsis (Arabidopsis thaliana) leaves at night. We show that LSF1 is also required for starch degradation: lsf1 mutants, like sex4 mutants, have substantially more starch in their leaves than wild-type plants throughout the diurnal cycle. LSF1 is chloroplastic and is located on the surface of starch granules. lsf1 and sex4 mutants show similar, extensive changes relative to wild-type plants in the expression of sugar-sensitive genes. However, although LSF1 and SEX4 are probably both involved in the early stages of starch degradation, we show that LSF1 neither catalyzes the same reaction as SEX4 nor mediates a sequential step in the pathway. Evidence includes the contents and metabolism of phosphorylated glucans in the single mutants. The sex4 mutant accumulates soluble phospho-oligosaccharides undetectable in wild-type plants and is deficient in a starch granuledephosphorylating activity present in wild-type plants. The lsf1 mutant displays neither of these phenotypes. The phenotype of the lsf1/sex4 double mutant also differs from that of both single mutants in several respects. We discuss the possible role of the LSF1 protein in starch degradation.

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Section: Phenotypic Characterization Of the Lsf1 Mutantsupporting

confidence: 76%

Section: Phenotypic Characterization Of the Lsf1 Mutantmentioning

confidence: 99%

A Putative Phosphatase, LSF1, Is Required for Normal Starch Turnover in Arabidopsis Leaves

et al. 2009

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“…It is relatively unlikely that such an increase would be brought about at the level of gene expression. Although transcript levels for many enzymes of starch degradation rise with time after dawn, there is evidence for enzymes including glucan, water dikinase, a-amylase 3 (AMY3), and the glucanotransferase DPE2 that the amount of protein varies very little over the day-night cycle Lu et al, 2005;Yu et al, 2005;Skeffington et al, 2014). In general terms, marked diel fluctuations in amounts of enzymes of primary metabolism are unlikely because of their high abundance and long half-lives (Gibon et al, 2004;Piques et al, 2009;Baerenfaller et al, 2012;Nelson et al, 2014).…”

Section: Starch Turnover In Long Days and In Twilight May Reflect An mentioning

confidence: 99%

“…However neither enzyme is required for diel starch metabolism in mesophyll cells in square wave light regimes in the absence of abiotic stress (Yu et al, 2005;Fulton et al, 2008;Horrer et al, 2016).…”

Section: Starch Turnover In Long Days and In Twilight May Reflect An mentioning

confidence: 99%

Leaf Starch Turnover Occurs in Long Days and in Falling Light at the End of the Day

et al. 2017

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“…A prerequisite for transient starch mobilization is the phosphorylation of a portion of the glucosyl residues by glucan, water dikinase (GWD; Ritte et al, 2002) and phosphoglucan, water dikinase (PWD; Kö tting et al, 2005). AMY, PUL, PHO, and a-glucosidase are established to play minor roles (if any) in transient starch breakdown (Lloyd et al, 2005;Yu et al, 2005), while BAM is a major enzyme (Fulton et al, 2008). Four BAM isoforms of Arabidopsis are plastid localized, and three of them are involved in degradation of transient starch to maltose (Fulton et al, 2008).…”

mentioning

confidence: 99%

Spatiotemporal Profiling of Starch Biosynthesis and Degradation in the Developing Barley Grain

Borisjuk²,

et al. 2009

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Barley (Hordeum vulgare) grains synthesize starch as the main storage compound. However, some starch is degraded already during caryopsis development. We studied temporal and spatial expression patterns of genes coding for enzymes of starch synthesis and degradation. These profiles coupled with measurements of selected enzyme activities and metabolites have allowed us to propose a role for starch degradation in maternal and filial tissues of developing grains. Early maternal pericarp functions as a major short-term starch storage tissue, possibly ensuring sink strength of the young caryopsis. Gene expression patterns and enzyme activities suggest two different pathways for starch degradation in maternal tissues. One pathway possibly occurs via a-amylases 1 and 4 and b-amylase 1 in pericarp, nucellus, and nucellar projection, tissues that undergo programmed cell death. Another pathway is deducted for living pericarp and chlorenchyma cells, where transient starch breakdown correlates with expression of chloroplast-localized b-amylases 5, 6, and 7, glucan, water dikinase 1, phosphoglucan, water dikinase, isoamylase 3, and disproportionating enzyme. The suite of genes involved in starch synthesis in filial starchy endosperm is much more complex than in pericarp and involves several endosperm-specific genes. Transient starch turnover occurs in transfer cells, ensuring the maintenance of sink strength in filial tissues and the reallocation of sugars into more proximal regions of the starchy endosperm. Starch is temporally accumulated also in aleurone cells, where it is degraded during the seed filling period, to be replaced by storage proteins and lipids.

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α-Amylase Is Not Required for Breakdown of Transitory Starch in Arabidopsis Leaves

Cited by 162 publications

References 35 publications

A Putative Phosphatase, LSF1, Is Required for Normal Starch Turnover in Arabidopsis Leaves

A Putative Phosphatase, LSF1, Is Required for Normal Starch Turnover in Arabidopsis Leaves

Leaf Starch Turnover Occurs in Long Days and in Falling Light at the End of the Day

Spatiotemporal Profiling of Starch Biosynthesis and Degradation in the Developing Barley Grain

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