Browsing by Author "Gutierrez, R"

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    Acetyl xylan esterase II from Penicillium purpurogenum is similar to an esterase from Trichoderma ressei but lacks a cellulose binding domain
    (1998) Gutierrez, R; Cederlund, E; Hjelmqvist, L; Peirano, A; Herrera, F; Ghosh, D; Duax, W; Jornvall, H; Eyzaguirre, J
    Penicillium purpurogenum produces at least two acetyl xylan esterases (AXE I and LI). The AXE II cDNA, genomic DNA and mature protein sequences were determined and show that the axe 2 gene contains two introns, that the primary translation product has a signal peptide of 27 residues, and that the mature protein has 207 residues, The sequence is similar to the catalytic domain of AXE I from Trichoderma reesei (67% residue identity) and putative active site residues are conserved, but the Penicillium enzyme lacks the linker and cellulose binding domain, thus explaining why it does not bind cellulose in contrast to the Tricoderma enzyme. These results point to a possible common ancestor gene for the active site domain, while the linker and the binding domain may have been added to the Trichoderma esterase by gene fusion. (C) 1998 Federation of European Biochemical Societies.
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    Determination of a protein structure by iodination
    (1999) Ghosh, D; Erman, M; Sawicki, M; Lala, P; Weeks, DR; Li, NY; Pangborn, W; Thiel, DJ; Jörnvall, H; Gutierrez, R; Eyzaguirre, J
    Enzymatic and non-enzymatic iodination of the amino acid tyrosine is a well known phenomenon. The iodination technique has been widely used for labeling proteins, Using high-resolution X-ray crystallographic techniques, the chemical and three-dimensional structures of iodotyrosines formed by non-enzymatic incorporation of I atoms into tyrosine residues of a crystalline protein are described. Acetylxylan esterase (AXE II; 207 amino-acid residues) from Penicillium purpurogenum has substrate specificities towards acetate esters of D-xylopyranose residues in xylan and belongs to a new class of alpha/beta hydrolases. The crystals of the enzyme are highly ordered, tightly packed and diffract to better than sub-angstrom resolution at 85 K. The iodination technique has been utilized to prepare an isomorphous derivative of the AXE II crystal. The structure of the enzyme determined at 1.10 Angstrom resolution exclusively by normal and anomalous scattering from I atoms, along with the structure of the iodinated complex at 1.80 Angstrom resolution, demonstrate the formation of covalent bonds between I atoms and C atoms at ortho positions to the hydroxyl groups of two tyrosyl moieties, yielding iodotyrosines.