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    Results: 1 to 20 of 90

    1.

    The nitrilase superfamily: classification, structure and function.

    Pace HC, Brenner C.

    Genome Biol. 2001;2(1):REVIEWS0001. Epub 2001 Jan 15. Review.

    PMID:
    11380987
    [PubMed - indexed for MEDLINE]
    Free PMC Article

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    2.

    Nitrilase catalyzes amide hydrolysis as well as nitrile hydrolysis.

    Kobayashi M, Goda M, Shimizu S.

    Biochem Biophys Res Commun. 1998 Dec 30;253(3):662-6. Erratum in: Biochem Biophys Res Commun 1999 Feb 16;255(2):549.

    PMID:
    9918784
    [PubMed - indexed for MEDLINE]

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    3.

    Evolution of heteromeric nitrilase complexes in Poaceae with new functions in nitrile metabolism.

    Jenrich R, Trompetter I, Bak S, Olsen CE, Møller BL, Piotrowski M.

    Proc Natl Acad Sci U S A. 2007 Nov 20;104(47):18848-53. Epub 2007 Nov 14.

    PMID:
    18003897
    [PubMed - indexed for MEDLINE]
    Free PMC Article

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    4.

    Catalysis in the nitrilase superfamily.

    Brenner C.

    Curr Opin Struct Biol. 2002 Dec;12(6):775-82. Review.

    PMID:
    12504683
    [PubMed - indexed for MEDLINE]

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    5.

    Structural and biochemical characterization of a nitrilase from the thermophilic bacterium, Geobacillus pallidus RAPc8.

    Williamson DS, Dent KC, Weber BW, Varsani A, Frederick J, Thuku RN, Cameron RA, van Heerden JH, Cowan DA, Sewell BT.

    Appl Microbiol Biotechnol. 2010 Sep;88(1):143-53. Epub 2010 Jul 4.

    PMID:
    20607233
    [PubMed - indexed for MEDLINE]

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    6.

    Biochemistry and biotechnology of mesophilic and thermophilic nitrile metabolizing enzymes.

    Cowan D, Cramp R, Pereira R, Graham D, Almatawah Q.

    Extremophiles. 1998 Aug;2(3):207-16. Review.

    PMID:
    9783167
    [PubMed - indexed for MEDLINE]

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    7.

    Influence of different carboxy-terminal mutations on the substrate-, reaction- and enantiospecificity of the arylacetonitrilase from Pseudomonas fluorescens EBC191.

    Kiziak C, Klein J, Stolz A.

    Protein Eng Des Sel. 2007 Aug;20(8):385-96. Epub 2007 Aug 10.

    PMID:
    17693456
    [PubMed - indexed for MEDLINE]
    Free Article

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    8.

    Evolution of nitrilases in glucosinolate-containing plants.

    Janowitz T, Trompetter I, Piotrowski M.

    Phytochemistry. 2009 Oct-Nov;70(15-16):1680-6. Epub 2009 Aug 19. Review.

    PMID:
    19698961
    [PubMed - indexed for MEDLINE]

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    9.

    Primary structure of an aliphatic nitrile-degrading enzyme, aliphatic nitrilase, from Rhodococcus rhodochrous K22 and expression of its gene and identification of its active site residue.

    Kobayashi M, Yanaka N, Nagasawa T, Yamada H.

    Biochemistry. 1992 Sep 22;31(37):9000-7.

    PMID:
    1390687
    [PubMed - indexed for MEDLINE]

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    10.

    Sinapis phylogeny and evolution of glucosinolates and specific nitrile degrading enzymes.

    Agerbirk N, Warwick SI, Hansen PR, Olsen CE.

    Phytochemistry. 2008 Dec;69(17):2937-49. Epub 2008 Nov 6.

    PMID:
    18995873
    [PubMed - indexed for MEDLINE]

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    11.

    A nitrilase from a metagenomic library acts regioselectively on aliphatic dinitriles.

    Bayer S, Birkemeyer C, Ballschmiter M.

    Appl Microbiol Biotechnol. 2011 Jan;89(1):91-8. Epub 2010 Aug 20.

    PMID:
    20725724
    [PubMed - indexed for MEDLINE]

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    12.

    Exploring nitrilase sequence space for enantioselective catalysis.

    Robertson DE, Chaplin JA, DeSantis G, Podar M, Madden M, Chi E, Richardson T, Milan A, Miller M, Weiner DP, Wong K, McQuaid J, Farwell B, Preston LA, Tan X, Snead MA, Keller M, Mathur E, Kretz PL, Burk MJ, Short JM.

    Appl Environ Microbiol. 2004 Apr;70(4):2429-36.

    PMID:
    15066841
    [PubMed - indexed for MEDLINE]
    Free PMC Article

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    13.

    Nitrilase from Rhodococcus rhodochrous J1. Sequencing and overexpression of the gene and identification of an essential cysteine residue.

    Kobayashi M, Komeda H, Yanaka N, Nagasawa T, Yamada H.

    J Biol Chem. 1992 Oct 15;267(29):20746-51.

    PMID:
    1400390
    [PubMed - indexed for MEDLINE]

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    14.

    Post-translational cleavage of recombinantly expressed nitrilase from Rhodococcus rhodochrous J1 yields a stable, active helical form.

    Thuku RN, Weber BW, Varsani A, Sewell BT.

    FEBS J. 2007 Apr;274(8):2099-108. Epub 2007 Mar 20.

    PMID:
    17371547
    [PubMed - indexed for MEDLINE]

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    15.

    Characterisation of nitrilase and nitrile hydratase biocatalytic systems.

    Brady D, Beeton A, Zeevaart J, Kgaje C, van Rantwijk F, Sheldon RA.

    Appl Microbiol Biotechnol. 2004 Mar;64(1):76-85. Epub 2003 Dec 10.

    PMID:
    14666389
    [PubMed - indexed for MEDLINE]

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    16.

    An amino acid at position 142 in nitrilase from Rhodococcus rhodochrous ATCC 33278 determines the substrate specificity for aliphatic and aromatic nitriles.

    Yeom SJ, Kim HJ, Lee JK, Kim DE, Oh DK.

    Biochem J. 2008 Nov 1;415(3):401-7.

    PMID:
    18412544
    [PubMed - indexed for MEDLINE]
    Free PMC Article

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    17.

    Structural evidence for evolution of the beta/alpha barrel scaffold by gene duplication and fusion.

    Lang D, Thoma R, Henn-Sax M, Sterner R, Wilmanns M.

    Science. 2000 Sep 1;289(5484):1546-50.

    PMID:
    10968789
    [PubMed - indexed for MEDLINE]

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    18.

    Functional dissection of the plant-specific SBP-domain: overlap of the DNA-binding and nuclear localization domains.

    Birkenbihl RP, Jach G, Saedler H, Huijser P.

    J Mol Biol. 2005 Sep 23;352(3):585-96.

    PMID:
    16095614
    [PubMed - indexed for MEDLINE]

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    19.

    Identification of the ligand-binding domains of CD22, a member of the immunoglobulin superfamily that uniquely binds a sialic acid-dependent ligand.

    Engel P, Wagner N, Miller AS, Tedder TF.

    J Exp Med. 1995 Apr 1;181(4):1581-6.

    PMID:
    7535343
    [PubMed - indexed for MEDLINE]
    Free PMC Article

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    20.

    Amino acid recognition by Venus flytrap domains is encoded in an 8-residue motif.

    Acher FC, Bertrand HO.

    Biopolymers. 2005;80(2-3):357-66.

    PMID:
    15810013
    [PubMed - indexed for MEDLINE]

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