C Gosse scite author profile

Previous analyses established the structures of unligated L-fuculose 1-phosphate aldolase and of the enzyme ligated with an inhibitor mimicking the substrate dihydroxyacetone phosphate. These data allowed us to suggest a catalytic mechanism. On the basis of this proposal, numerous mutations were now introduced at the active center and tested with respect to their catalytic rates and their product distributions. For several mutants, the structures were determined. The results demonstrate the catalytic importance of some particular residues in defined conformations and in the mobile C-terminal chain end. Moreover, they led to a modification of the proposed mechanism. The effect of some mutations on enantioselectivity and on the ratio of diastereomer formation indicates clearly the binding site of the aldehyde moiety in relation to the other substrate dihydroxyacetone phosphate.

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Short Enzymatic Synthesis ofL-Fucose Analogs

Fessner¹,

Gosse²,

Jaeschke³

et al. 2000

Eur. J. Org. Chem.

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Intra-Arterial Hepatic Chemotherapy with Pirarubicin

Rougier¹,

Munck²,

Élias³

et al. 1990

American Journal of Clinical Oncology

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ChemInform Abstract: Enzymes in Organic Synthesis. Part 15. Short Enzymatic Synthesis of L‐Fucose Analogues.

et al. 2000

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C Gosse

Catalytic Action of Fuculose 1-Phosphate Aldolase (Class II) As Derived from Structure-Directed Mutagenesis^,

Short Enzymatic Synthesis ofL-Fucose Analogs

Intra-Arterial Hepatic Chemotherapy with Pirarubicin

ChemInform Abstract: Enzymes in Organic Synthesis. Part 15. Short Enzymatic Synthesis of L‐Fucose Analogues.

Contact Info

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About

C Gosse

Catalytic Action of Fuculose 1-Phosphate Aldolase (Class II) As Derived from Structure-Directed Mutagenesis,

Short Enzymatic Synthesis ofL-Fucose Analogs

Intra-Arterial Hepatic Chemotherapy with Pirarubicin

ChemInform Abstract: Enzymes in Organic Synthesis. Part 15. Short Enzymatic Synthesis of L‐Fucose Analogues.

Contact Info

Product

Resources

About

Catalytic Action of Fuculose 1-Phosphate Aldolase (Class II) As Derived from Structure-Directed Mutagenesis^,