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Journal Abstract Search

131 related items for PubMed ID: 16711770

  • 21. Site-directed mutagenesis of the calcium-binding site of alpha-amylase of Bacillus licheniformis.
    Priyadharshini R, Gunasekaran P.
    Biotechnol Lett; 2007 Oct; 29(10):1493-9. PubMed ID: 17598074
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  • 22. Relative tolerance of an enzymatic molten globule and its thermostable counterpart to point mutation.
    Woycechowsky KJ, Choutko A, Vamvaca K, Hilvert D.
    Biochemistry; 2008 Dec 23; 47(51):13489-96. PubMed ID: 19053245
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  • 24. Stepwise adaptations to low temperature as revealed by multiple mutants of psychrophilic α-amylase from Antarctic Bacterium.
    Cipolla A, D'Amico S, Barumandzadeh R, Matagne A, Feller G.
    J Biol Chem; 2011 Nov 04; 286(44):38348-38355. PubMed ID: 21900238
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  • 27. Structure-based stability engineering of the mouse IgG1 Fab fragment by modifying constant domains.
    Teerinen T, Valjakka J, Rouvinen J, Takkinen K.
    J Mol Biol; 2006 Aug 25; 361(4):687-97. PubMed ID: 16876195
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  • 28. Two secondary carbohydrate binding sites on the surface of barley alpha-amylase 1 have distinct functions and display synergy in hydrolysis of starch granules.
    Nielsen MM, Bozonnet S, Seo ES, Mótyán JA, Andersen JM, Dilokpimol A, Abou Hachem M, Gyémánt G, Naested H, Kandra L, Sigurskjold BW, Svensson B.
    Biochemistry; 2009 Aug 18; 48(32):7686-97. PubMed ID: 19606835
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  • 30. Molecular cold-adaptation: comparative analysis of two homologous families of psychrophilic and mesophilic signal proteins of the protozoan ciliate, Euplotes.
    Alimenti C, Vallesi A, Pedrini B, Wüthrich K, Luporini P.
    IUBMB Life; 2009 Aug 18; 61(8):838-45. PubMed ID: 19621350
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  • 31. Prediction of the mutation-induced change in thermodynamic stabilities of membrane proteins from free energy simulations.
    Park H, Lee S.
    Biophys Chem; 2005 Apr 22; 114(2-3):191-7. PubMed ID: 15829352
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  • 32. Structural adaptation to low temperatures--analysis of the subunit interface of oligomeric psychrophilic enzymes.
    Tronelli D, Maugini E, Bossa F, Pascarella S.
    FEBS J; 2007 Sep 22; 274(17):4595-608. PubMed ID: 17697122
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  • 35. Comparison of starch hydrolysis activity and thermal stability of two Bacillus licheniformis alpha-amylases and insights into engineering alpha-amylase variants active under acidic conditions.
    Lee S, Oneda H, Minoda M, Tanaka A, Inouye K.
    J Biochem; 2006 Jun 22; 139(6):997-1005. PubMed ID: 16788050
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  • 36. Turning a mesophilic protein into a thermophilic one: a computational approach based on 3D structural features.
    Basu S, Sen S.
    J Chem Inf Model; 2009 Jul 22; 49(7):1741-50. PubMed ID: 19586011
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  • 37. Structures of the psychrophilic Alteromonas haloplanctis alpha-amylase give insights into cold adaptation at a molecular level.
    Aghajari N, Feller G, Gerday C, Haser R.
    Structure; 1998 Dec 15; 6(12):1503-16. PubMed ID: 9862804
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  • 38. Stability and structural analysis of alpha-amylase from the antarctic psychrophile Alteromonas haloplanctis A23.
    Feller G, Payan F, Theys F, Qian M, Haser R, Gerday C.
    Eur J Biochem; 1994 Jun 01; 222(2):441-7. PubMed ID: 8020481
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  • 39. The importance of an extra loop in the B-domain of an alpha-amylase from B. stearothermophilus US100.
    Khemakhem B, Ben Ali M, Aghajari N, Juy M, Haser R, Bejar S.
    Biochem Biophys Res Commun; 2009 Jul 17; 385(1):78-83. PubMed ID: 19422796
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  • 40. Cooperative propagation of local stability changes from low-stability and high-stability regions in a SH3 domain.
    Casares S, López-Mayorga O, Vega MC, Cámara-Artigas A, Conejero-Lara F.
    Proteins; 2007 May 15; 67(3):531-47. PubMed ID: 17330285
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