Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.4.1.18 (branching enzyme)
 628 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Branching enzyme is involved in determining the structure of starch and glycogen. It catalyzes the formation of branch points by cleavage and transfer of alpha-1,4-glucan chains to alpha-1,6 branch points. Branching enzyme belongs to the amylolytic family of enzymes containing four conserved regions in a central (alpha/beta)8-barrel. Limited proteolysis of the branching enzyme from Escherichia coli (84 kDa) by proteinase K produced a truncated protein of 70-kDa, which still retained 40-60% of branching activity, depending on the type of assay used. Amino acid sequencing showed that the 70-kDa protein lacked 111 or 113 residues at the amino terminal, whereas the carboxy terminal was still intact. We purified this truncated enzyme to homogeneity and analyzed its properties. The enzyme had a three- to fourfold lower catalytic efficiency than the native enzyme, whereas the substrate specificity was unaltered. Furthermore, a branching enzyme with 112 residues deleted at the amino terminal was constructed by recombinant technology and found to have properties identical to those of the proteolyzed enzyme.
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PMID:Limited proteolysis of branching enzyme from Escherichia coli. 1084 15

Fuc-TIV and Fuc-TVII are the two alpha(1, 3)-fucosyltransferases in myeloid cells responsible for the biosynthesis of sialyl Lewis X (sLe(x)), the minimal ligand structure for the selectins. We have compared the ability of Fuc-TIV and Fuc-TVII to generate sLe(x)-like epitopes in transfected Chinese hamster ovary (CHO)-Pro(-)5 cells expressing the P-selectin glycoprotein ligand-1 and the core-2 branching enzyme C2GnT. We found that mouse Fuc-TIV and Fuc-TVII can generate similar levels of cell surface sLe(x). Surprisingly however, Fuc-TIV-generated sLe(x) was resistant to proteinase K and trypsin treatment and could be removed from cells by delipidation with chloroform/methanol, whereas 80-90% of Fuc-TVII-generated sLe(x) was protease-sensitive, and most of it resistant to delipidation. Despite similar levels of sLe(x) on the cell surface, Fuc-TVII transfectants adhered to immobilized E-selectin-IgG under static and flow conditions better than Fuc-TIV transfectants. Binding was mainly protease sensitive, indicating that glycoproteins were more efficient ligands than glycolipids. In summary, we conclude that the two fucosyltransferases differ in their in vivo specificity for acceptor substrates with Fuc-TVII generating sLe(x) preferentially on glycoproteins, whereas most of the Fuc-TIV-generated sLe(x) is found on glycolipids. Interestingly, the non-catalytic portion of Fuc-TIV in a Fuc-TIV/VII chimeric enzyme mediated the specificity for glycolipid substrates.
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PMID:The alpha (1,3)-fucosyltransferase Fuc-TIV, but not Fuc-TVII, generates sialyl Lewis X-like epitopes preferentially on glycolipids. 1235 18