Protein Phosphorylation in Amyloplasts Regulates Starch Branching Enzyme Activity and Protein–Protein Interactions
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Caroline G. Bowsher | Sergio Esposito | Michael J. Emes | I. Tetlow | M. Emes | M. Morell | R. Wait | S. Esposito | C. Bowsher | Robin Wait | Matthew K. Morell | Ian J. Tetlow | Zhenxiao Lu | Rut Akkasaeng | Behjat Kosar-Hashemi | B. Kosar-Hashemi | R. Akkasaeng | Zhenxiao Lu
[1] Yves Gibon,et al. Starch synthesis in potato tubers is regulated by post-translational redox modification of ADP-glucose pyrophosphorylase: a novel regulatory mechanism linking starch synthesis to the sucrose supply. , 2002, The Plant cell.
[2] M. Stitt,et al. ADP-Glucose Pyrophosphorylase Is Activated by Posttranslational Redox-Modification in Response to Light and to Sugars in Leaves of Arabidopsis and Other Plant Species1[w] , 2003, Plant Physiology.
[3] J. Preiss,et al. The Major Proteins of Wheat Endosperm Starch Granules , 1995 .
[4] J.-H. Sheen,et al. Ca2+-Dependent Protein Kinases and Stress Signal Transduction in Plants , 1996, Science.
[5] B. Snaar-Jagalska,et al. Abscisic Acid Induces Mitogen-Activated Protein Kinase Activation in Barley Aleurone Protoplasts. , 1996, The Plant cell.
[6] I. Tetlow,et al. The Synthesis and Transport of ADPglucose in Cereal Endosperms , 2003 .
[7] H. Taussky,et al. A microcolorimetric method for the determination of inorganic phosphorus. , 1953, The Journal of biological chemistry.
[8] J. Shannon,et al. Evolutionary conservation and expression patterns of maize starch branching enzyme I and IIb genes suggests isoform specialization , 1996, Plant Molecular Biology.
[9] J. Preiss,et al. Mechanism of Reductive Activation of Potato Tuber ADP-glucose Pyrophosphorylase* , 1998, The Journal of Biological Chemistry.
[10] P. Jenö,et al. Internal sequences from proteins digested in polyacrylamide gels. , 1995, Analytical biochemistry.
[11] G. Scoles,et al. Isolation of a cDNA encoding a granule-bound 152-kilodalton starch-branching enzyme in wheat. , 2000, Plant physiology.
[12] J. Shannon,et al. Independent Genetic Control of Maize Starch-Branching Enzymes IIa and IIb (Isolation and Characterization of a Sbe2a cDNA) , 1997, Plant physiology.
[13] M. Scott,et al. Functional Interactions between Heterologously Expressed Starch-Branching Enzymes of Maize and the Glycogen Synthases of Brewer's Yeast1 , 2002, Plant Physiology.
[14] F Gharahdaghi,et al. Mass spectrometric identification of proteins from silver‐stained polyacrylamide gel: A method for the removal of silver ions to enhance sensitivity , 1999, Electrophoresis.
[15] E. J. Bourne,et al. Thymol and cyclohexanol as fractionating agents for starch. , 1948, Journal of the Chemical Society.
[16] M. Bhattacharyya,et al. Starch branching enzymes belonging to distinct enzyme families are differentially expressed during pea embryo development. , 1995, The Plant journal : for cell and molecular biology.
[17] A. Buléon,et al. Barley sex6 mutants lack starch synthase IIa activity and contain a starch with novel properties. , 2003, The Plant journal : for cell and molecular biology.
[18] Alison M. Smith. Major differences in isoforms of starch-branching enzyme between developing embryos of round- and wrinkled-seeded peas (Pisum sativum L.) , 1988, Planta.
[19] M. Yamamori,et al. Genetic elimination of a starch granule protein, SGP-1, of wheat generates an altered starch with apparent high amylose , 2000, Theoretical and Applied Genetics.
[20] R. Ferl,et al. Interaction of a plant 14-3-3 protein with the signal peptide of a thylakoid-targeted chloroplast precursor protein and the presence of 14-3-3 isoforms in the chloroplast stroma. , 2000, Plant physiology.
[21] A. Myers,et al. Characterization of the maize gene sugary1, a determinant of starch composition in kernels. , 1995, The Plant cell.
[22] A. Myers,et al. Molecular structure of three mutations at the maize sugary1 locus and their allele-specific phenotypic effects. , 2001, Plant physiology.
[23] I. Tetlow,et al. Reconstitution of the hexose phosphate translocator from the envelope membranes of wheat endosperm amyloplasts. , 1996, The Biochemical journal.
[24] J. Froehlich,et al. In vitro import of proteins into chloroplasts , 1994 .
[25] M. Gidley,et al. A minor form of starch branching enzyme in potato (Solanum tuberosum L.) tubers has a major effect on starch structure: cloning and characterisation of multiple forms of SBE A. , 1999, The Plant journal : for cell and molecular biology.
[26] J. Tjaden,et al. Altered plastidic ATP/ADP-transporter activity influences potato ( Solanum tuberosum L.) tuber morphology, yield and composition of tuber starch , 1998 .
[27] A. Myers,et al. Purification and molecular genetic characterization of ZPU1, a pullulanase-type starch-debranching enzyme from maize. , 1999, Plant physiology.
[28] A. Shevchenko,et al. Femtomole sequencing of proteins from polyacrylamide gels by nano-electrospray mass spectrometry , 1996, Nature.
[29] M. Morell,et al. Differential Expression and Properties of Starch Branching Enzyme Isoforms in Developing Wheat Endosperm , 1997, Plant physiology.
[30] Alison M. Smith,et al. Mutations in the Gene Encoding Starch Synthase II Profoundly Alter Amylopectin Structure in Pea Embryos , 1998, Plant Cell.
[31] J. Shannon,et al. Identification of Mutator insertional mutants of starch-branching enzyme 1 (sbe1) in Zea mays L. , 2002, Plant Molecular Biology.
[32] S. Ball,et al. From bacterial glycogen to starch: understanding the biogenesis of the plant starch granule. , 2003, Annual review of plant biology.
[33] F. Schmid,et al. Activation of spinach pullulanase by reduction results in a decrease in the number of isomeric forms. , 2001, Biochimica et biophysica acta.
[34] W. Jiang,et al. Overexpression of thioredoxin h leads to enhanced activity of starch debranching enzyme (pullulanase) in barley grain. , 1999, Proceedings of the National Academy of Sciences of the United States of America.
[35] R. Ferl,et al. Regulation of starch accumulation by granule-associated plant 14-3-3 proteins. , 2001, Proceedings of the National Academy of Sciences of the United States of America.
[36] A. Myers,et al. One- and Two-dimensional Native PAGE Activity Gel Analyses of Maize Endosperm Proteins Reveal Functional Interactions between Specific Starch Metabolizing Enzymes , 2003 .
[37] A. Shevchenko,et al. Mass spectrometric sequencing of proteins silver-stained polyacrylamide gels. , 1996, Analytical chemistry.
[38] P. Colonna,et al. From Glycogen to Amylopectin: A Model for the Biogenesis of the Plant Starch Granule , 1996, Cell.
[39] H. Jespersen,et al. Starch- and glycogen-debranching and branching enzymes: Prediction of structural features of the catalytic (β/α)8-barrel domain and evolutionary relationship to other amylolytic enzymes , 1993, Journal of protein chemistry.
[40] Kay Denyer,et al. Starch synthesis in the cereal endosperm. , 2003, Current opinion in plant biology.
[41] P. Shewry,et al. The localization and expression of the class II starch synthases of wheat. , 1999, Plant physiology.
[42] A. Shaw,et al. The 14-3-3 proteins , 2000, Current Biology.
[43] J. Preiss,et al. Properties of Citrate-stimulated Starch Synthesis Catalyzed by Starch Synthase I of Developing Maize Kernels. , 1979, Plant physiology.
[44] Y. Nakamura,et al. Mapping of a gene responsible for the difference in amylopectin structure between japonica-type and indica-type rice varieties , 2002, Theoretical and Applied Genetics.
[45] R. Wait,et al. Proteins of rat serum, urine, and cerebrospinal fluid: VI. Further protein identifications and interstrain comparison , 2001, Electrophoresis.
[46] A. Myers,et al. Mutational Analysis of the Pullulanase-Type Debranching Enzyme of Maize Indicates Multiple Functions in Starch Metabolism Article, publication date, and citation information can be found at www.plantcell.org/cgi/doi/10.1105/tpc.007575. , 2003, The Plant Cell Online.
[47] Chung,et al. The 14-3-3 proteins: cellular regulators of plant metabolism. , 1999, Trends in plant science.
[48] S. Umeda,et al. [A MICROCOLORIMETRIC METHOD FOR THE DETERMINATION OF INORGANIC PHOSPHORUS]. , 1965, Igaku to seibutsugaku. Medicine and biology.
[49] I. Tetlow,et al. Starch synthesis and carbohydrate oxidation in amyloplasts from developing wheat endosperm , 1994, Planta.
[50] M. Yamamoto,et al. Comparison of starch-branching enzyme genes reveals evolutionary relationships among isoforms. Characterization of a gene for starch-branching enzyme IIa from the wheat genome donor Aegilops tauschii. , 2001, Plant physiology.
[51] C. Jenner,et al. Identification of multiple isoforms of soluble and granule-bound starch synthase in developing wheat endosperm , 1995, Planta.
[52] I. Tetlow,et al. A rapid method for the isolation of purified amyloplasts from wheat endosperm , 1993, Planta.
[53] Y. Nakamura,et al. Biochemical and genetic analysis of the effects of amylose-extender mutation in rice endosperm. , 2001, Plant physiology.
[54] P. Keeling,et al. Physical Association of Starch Biosynthetic Enzymes with Starch Granules of Maize Endosperm (Granule-Associated Forms of Starch Synthase I and Starch Branching Enzyme II) , 1996, Plant physiology.
[55] D. Klessig,et al. Activation of the Tobacco SIP Kinase by Both a Cell Wall–Derived Carbohydrate Elicitor and Purified Proteinaceous Elicitins from Phytophthora spp , 1998, Plant Cell.
[56] M. Burrell,et al. Subcellular localization of ADPglucose pyrophosphorylase in developing wheat endosperm and analysis of the properties of a plastidial isoform. , 2003, Journal of experimental botany.
[57] Yasunori Nakamura,et al. Starch-Branching Enzyme I-Deficient Mutation Specifically Affects the Structure and Properties of Starch in Rice Endosperm1 , 2003, Plant Physiology.
[58] M. Giroux,et al. Coordinated Transcriptional Regulation of Storage Product Genes in the Maize Endosperm , 1994, Plant physiology.
[59] R. Wait,et al. Strategies for proteomics with incompletely characterized genomes: The proteome of Bos taurus serum , 2002, Electrophoresis.