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Journal Abstract Search

214 related items for PubMed ID: 26231210

  • 1. Mechanistic Insights into Glucan Phosphatase Activity against Polyglucan Substrates.
    Meekins DA, Raththagala M, Auger KD, Turner BD, Santelia D, Kötting O, Gentry MS, Vander Kooi CW.
    J Biol Chem; 2015 Sep 18; 290(38):23361-70. PubMed ID: 26231210
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  • 4. Structural basis for the glucan phosphatase activity of Starch Excess4.
    Vander Kooi CW, Taylor AO, Pace RM, Meekins DA, Guo HF, Kim Y, Gentry MS.
    Proc Natl Acad Sci U S A; 2010 Aug 31; 107(35):15379-84. PubMed ID: 20679247
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  • 6. Cooperative Kinetics of the Glucan Phosphatase Starch Excess4.
    Mak CA, Weis K, Henao T, Kuchtova A, Chen T, Sharma S, Meekins DA, Thalmann M, Vander Kooi CW, Raththagala M.
    Biochemistry; 2021 Aug 10; 60(31):2425-2435. PubMed ID: 34319705
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  • 7. Unique carbohydrate binding platforms employed by the glucan phosphatases.
    Emanuelle S, Brewer MK, Meekins DA, Gentry MS.
    Cell Mol Life Sci; 2016 Jul 10; 73(14):2765-2778. PubMed ID: 27147465
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  • 9. The phosphoglucan phosphatase like sex Four2 dephosphorylates starch at the C3-position in Arabidopsis.
    Santelia D, Kötting O, Seung D, Schubert M, Thalmann M, Bischof S, Meekins DA, Lutz A, Patron N, Gentry MS, Allain FH, Zeeman SC.
    Plant Cell; 2011 Nov 10; 23(11):4096-111. PubMed ID: 22100529
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  • 11. STARCH-EXCESS4 is a laforin-like Phosphoglucan phosphatase required for starch degradation in Arabidopsis thaliana.
    Kötting O, Santelia D, Edner C, Eicke S, Marthaler T, Gentry MS, Comparot-Moss S, Chen J, Smith AM, Steup M, Ritte G, Zeeman SC.
    Plant Cell; 2009 Jan 10; 21(1):334-46. PubMed ID: 19141707
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  • 12. Assessing the Biological Activity of the Glucan Phosphatase Laforin.
    Romá-Mateo C, Raththagala M, Gentry MS, Sanz P.
    Methods Mol Biol; 2016 Jan 10; 1447():107-19. PubMed ID: 27514803
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  • 13. Structural insights into glucan phosphatase dynamics using amide hydrogen-deuterium exchange mass spectrometry.
    Hsu S, Kim Y, Li S, Durrant ES, Pace RM, Woods VL, Gentry MS.
    Biochemistry; 2009 Oct 20; 48(41):9891-902. PubMed ID: 19754155
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  • 14. Similar protein phosphatases control starch metabolism in plants and glycogen metabolism in mammals.
    Niittylä T, Comparot-Moss S, Lue WL, Messerli G, Trevisan M, Seymour MD, Gatehouse JA, Villadsen D, Smith SM, Chen J, Zeeman SC, Smith AM.
    J Biol Chem; 2006 Apr 28; 281(17):11815-8. PubMed ID: 16513634
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  • 15. Plant α-glucan phosphatases SEX4 and LSF2 display different affinity for amylopectin and amylose.
    Wilkens C, Auger KD, Anderson NT, Meekins DA, Raththagala M, Abou Hachem M, Payne CM, Gentry MS, Svensson B.
    FEBS Lett; 2016 Jan 28; 590(1):118-28. PubMed ID: 26763114
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  • 17. The phosphatase laforin crosses evolutionary boundaries and links carbohydrate metabolism to neuronal disease.
    Gentry MS, Dowen RH, Worby CA, Mattoo S, Ecker JR, Dixon JE.
    J Cell Biol; 2007 Jul 30; 178(3):477-88. PubMed ID: 17646401
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  • 19. Laforin, the dual-phosphatase responsible for Lafora disease, interacts with R5 (PTG), a regulatory subunit of protein phosphatase-1 that enhances glycogen accumulation.
    Fernández-Sánchez ME, Criado-García O, Heath KE, García-Fojeda B, Medraño-Fernández I, Gomez-Garre P, Sanz P, Serratosa JM, Rodríguez de Córdoba S.
    Hum Mol Genet; 2003 Dec 01; 12(23):3161-71. PubMed ID: 14532330
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  • 20. A chloroplast-localized dual-specificity protein phosphatase in Arabidopsis contains a phylogenetically dispersed and ancient carbohydrate-binding domain, which binds the polysaccharide starch.
    Kerk D, Conley TR, Rodriguez FA, Tran HT, Nimick M, Muench DG, Moorhead GB.
    Plant J; 2006 May 01; 46(3):400-13. PubMed ID: 16623901
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