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Results: 1-5 |
Results: 5
Heparanases: endoglycosidases that degrade heparan sulfate proteoglycans
Authors: Bame, KJ
Citation: Kj. Bame, Heparanases: endoglycosidases that degrade heparan sulfate proteoglycans, GLYCOBIOLOG, 11(6), 2001, pp. 91R-98R
The spacing of S-domains on HS glycosaminoglycans determines whether the chain is a substrate for intracellular heparanases
Authors: Bame, KJ Venkatesan, I Stelling, HD Tumova, S
Citation: Kj. Bame et al., The spacing of S-domains on HS glycosaminoglycans determines whether the chain is a substrate for intracellular heparanases, GLYCOBIOLOG, 10(7), 2000, pp. 715-726
Location of the glucuronosyltransferase domain in the heparan sulfate copolymerase EXT1 by analysis of Chinese hamster ovary cell mutants
Authors: Wei, G Bai, XM Gabb, MMG Bame, KJ Koshy, TI Spear, PG Esko, JD
Citation: G. Wei et al., Location of the glucuronosyltransferase domain in the heparan sulfate copolymerase EXT1 by analysis of Chinese hamster ovary cell mutants, J BIOL CHEM, 275(36), 2000, pp. 27733-27740
Basic fibroblast growth factor does not prevent heparan sulphate proteoglycan catabolism in intact cells, but it alters the distribution of the glycosaminoglycan degradation products
Authors: Tumova, S Hatch, BA Law, DJ Bame, KJ
Citation: S. Tumova et al., Basic fibroblast growth factor does not prevent heparan sulphate proteoglycan catabolism in intact cells, but it alters the distribution of the glycosaminoglycan degradation products, BIOCHEM J, 337, 1999, pp. 471-481
Partial purification of heparanase activities in Chinese hamster ovary cells: evidence for multiple intracellular heparanases
Authors: Bame, KJ Hassall, A Sanderson, C Venkatesan, I Sun, C
Citation: Kj. Bame et al., Partial purification of heparanase activities in Chinese hamster ovary cells: evidence for multiple intracellular heparanases, BIOCHEM J, 336, 1998, pp. 191-200
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