Jack Preiss scite author profile

far the major compound. It is of very high molecular Unite ´Mixte de Recherche NЊ111 du Centre National weight (10 7 -10 9 Da) and harbors 5% of ␣-1,6 branches de la Recherche Scientifique (reviewed by Manners, 1989). Amylose is often referred Universite ´des Sciences et Technologies de Lille to as a smaller linear molecule (molecular weight of 10 5 -59655 Villeneuve D'Ascq Cedex 10 6 Da) with very few ␣-1,6 branches (less than 1%). Its France association with amylopectin inside the granule remains † Exseed Genetics to be determined. Amylopectin is sufficient to generate 1568 Food Science Building full size granules both in wild-type starch from photosyn-Iowa State University thesizing cells and in mutant starches devoid of amy-Ames, Iowa 50011-1061 lose. No mutants lacking selectively amylopectin have ‡ Department of Biochemistry and Biophysics ever been described in plants suggesting that an under-Iowa State University standing of amylopectin biosynthesis will be sufficient to Ames, Iowa 50011 explain the major features of starch granule biogenesis.

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ADP-Glucose Pyrophosphorylase, a Regulatory Enzyme for Bacterial Glycogen Synthesis

Ballícora

Iglesias

Preiss

2003

Microbiol Mol Biol Rev

230

352

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The accumulation of α-1,4-polyglucans is an important strategy to cope with transient starvation conditions in the environment. In bacteria and plants, the synthesis of glycogen and starch occurs by utilizing ADP-glucose as the glucosyl donor for elongation of the α-1,4-glucosidic chain. The main regulatory step takes place at the level of ADP-glucose synthesis, a reaction catalyzed by ADP-Glc pyrophosphorylase (PPase). Most of the ADP-Glc PPases are allosterically regulated by intermediates of the major carbon assimilatory pathway in the organism. Based on specificity for activator and inhibitor, classification of ADP-Glc PPases has been expanded into nine distinctive classes. According to predictions of the secondary structure of the ADP-Glc PPases, they seem to have a folding pattern common to other sugar nucleotide pyrophosphorylases. All the ADP-Glc PPases as well as other sugar nucleotide pyrophosphorylases appear to have evolved from a common ancestor, and later, ADP-Glc PPases developed specific regulatory properties, probably by addition of extra domains. Studies of different domains by construction of chimeric ADP-Glc PPases support this hypothesis. In addition to previous chemical modification experiments, the latest random and site-directed mutagenesis experiments with conserved amino acids revealed residues important for catalysis and regulation

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Structure and Function of Plant Cell Walls

Bacic¹,

Harris²,

Stone³

et al. 1988

420

297

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Regulation of the Amount of Starch in Plant Tissues by ADP Glucose Pyrophosphorylase

Stark

Timmerman

Barry

et al. 1992

Science

596

299

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Starch, a major storage metabolite in plants, positively affects the agricultural yield of a number of crops. Its biosynthetic reactions use adenosine diphosphate glucose (ADPGlc) as a substrate; ADPGlc pyrophosphorylase, the enzyme involved in ADPGlc formation, is regulated by allosteric effectors. Evidence that this plastidial enzyme catalyzes a rate-limiting reaction in starch biosynthesis was derived by expression in plants of a gene that encodes a regulatory variant of this enzyme. Allosteric regulation was demonstrated to be the major physiological mechanism that controls starch biosynthesis. Thus, plant and bacterial systems for starch and glycogen biosynthesis are similar and distinct from yeast and mammalian systems, wherein glycogen synthase has been demonstrated to be the rate-limiting regulatory step.

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ADP-Glucose Pyrophosphorylase: A Regulatory Enzyme for Plant Starch Synthesis

Ballícora

Iglesias²,

Preiss

2004

Photosynthesis Research

271

292

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In plants, the synthesis of starch occurs by utilizing ADP-glucose as the glucosyl donor for the elongation of alpha-1,4-glucosidic chains. In photosynthetic bacteria the synthesis of glycogen follows a similar pathway. The first committed step in these pathways is the synthesis of ADP-glucose in a reaction catalyzed by ADP-glucose pyrophosphorylase (ADPGlc PPase). Generally, this enzyme is allosterically regulated by intermediates of the major carbon assimilatory pathway in the respective organism. In oxygenic photosynthesizers, ADPGlc PPase is mainly regulated by 3-phosphoglycerate (activator) and inorganic orthophosphate (inhibitor), interacting in four different patterns. Recent reports have shown that in higher plants, some of the enzymes could also be redox regulated. In eukaryotes, the enzyme is a heterotetramer comprised of two distinct subunits, a catalytic and a modulatory subunit. The latter has been proposed as related to variations in regulation of the enzyme in different plant tissues. Random and site-directed mutagenesis experiments of conserved amino acids revealed important residues for catalysis and regulation. Prediction of the ADPGlc PPase secondary structure suggests that it shares a common folding pattern to other sugar-nucleotide pyrophosphorylases, and they evolved from a common ancestor.

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

Tian

Caspar²,

Somerville³

et al. 1988

Plant Physiol.

312

268

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A mutant of Arabidopsis thaliana lacking ADPglucose pyrophosphorylase activity (EC 2.7.7.27) was isolated (from a mutagenized population of plants) by screening for the absence of leaf starch. The mutant grows as vigorously as the wild type in continuous light but more slowly than the wild type in a 12 hours light/12 hours dark photoperiod. Genetic analysis showed that the deficiency of both starch and ADPglucose pyrophosphorylase activity were attributable to a single, nuclear, recessive mutation at a locus designated adgl. The absence of starch in the mutant demonstrates that starch synthesis in the chloroplast is entirely dependent on a pathway involving ADPglucose pyrophosphorylase. Analysis of leaf extracts by two-dimensional polyacrylamide gel electrophoresis followed by Western blotting experiments using antibodies specific for spinach ADPglucose pyrophosphorylase showed that two proteins, present in the wild type, were absent from the mutant. The heterozygous F, progeny of a cross between the mutant and wild type had a specific activity of ADPglucose pyrophosphorylase indistinguishable from the wild type. These observations suggest that the mutation in the adgi gene in TL25 might affect a regulatory locus.The unique pathway for starch synthesis is believed to involve three steps catalyzed by ADPglucose pyrophosphorylase, starch synthase, and branching enzyme. ADPglucose pyrophosphorylase (ATP: a-glucose-i-P adenyl transferase, EC 2.7.7.27) catalyzes the reversible synthesis of ADPglucose and PPi from ATP and glucose-i-phosphate. Regulation of the activity of this enzyme is believed to play a vital role in controlling the biosynthesis of a-1,4-glucans in plants and bacteria (18

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Crystal structure of potato tuber ADP-glucose pyrophosphorylase

Jin

Ballícora

Preiss

et al. 2005

EMBO J

137

264

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ADP-glucose pyrophosphorylase catalyzes the first committed and rate-limiting step in starch biosynthesis in plants and glycogen biosynthesis in bacteria. It is the enzymatic site for regulation of storage polysaccharide accumulation in plants and bacteria, being allosterically activated or inhibited by metabolites of energy flux. We report the first atomic resolution structure of ADP-glucose pyrophosphorylase. Crystals of potato tuber ADP-glucose pyrophosphorylase alpha subunit were grown in high concentrations of sulfate, resulting in the sulfate-bound, allosterically inhibited form of the enzyme. The N-terminal catalytic domain resembles a dinucleotide-binding Rossmann fold and the C-terminal domain adopts a left-handed parallel beta helix that is involved in cooperative allosteric regulation and a unique oligomerization. We also report structures of the enzyme in complex with ATP and ADP-glucose. Communication between the regulator-binding sites and the active site is both subtle and complex and involves several distinct regions of the enzyme including the N-terminus, the glucose-1-phosphate-binding site, and the ATP-binding site. These structures provide insights into the mechanism for catalysis and allosteric regulation of the enzyme.

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Regulation of the Biosynthesis and Degradation of Starch

Preiss¹

1982

Annu. Rev. Plant. Physiol.

377

245

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Jack Preiss

From Glycogen to Amylopectin: A Model for the Biogenesis of the Plant Starch Granule

ADP-Glucose Pyrophosphorylase, a Regulatory Enzyme for Bacterial Glycogen Synthesis

Structure and Function of Plant Cell Walls

Regulation of the Amount of Starch in Plant Tissues by ADP Glucose Pyrophosphorylase

ADP-Glucose Pyrophosphorylase: A Regulatory Enzyme for Plant Starch Synthesis

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

Crystal structure of potato tuber ADP-glucose pyrophosphorylase

Regulation of the Biosynthesis and Degradation of Starch

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