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Andrew G. McDonald, Jerrard M. Hayes, Tania Bezak, Sonia A. Głuchowska, Eoin F. J. Cosgrave, Weston B. Struwe, Corné J. M. Stroop, Han Kok, Teun van de Laar, Pauline M. Rudd, Keith F. Tipton, Gavin P. Davey
J Cell Sci (2014) 127 (23): 5014–5026.
Published: 01 December 2014
... mathematical models of N-linked glycosylation that predicted new control points for glycan branching. Galactosyltransferase, which acts on N -acetylglucosamine residues, was unexpectedly found to control metabolic flux through the glycosylation pathway and the level of final antennarity of nascent protein...
Includes: Supplementary data
Helen J. Hathaway, Susan C. Evans, Daniel H. Dubois, Cynthia I. Foote, Brooke H. Elder, Barry D. Shur
J Cell Sci (2003) 116 (21): 4319–4330.
Published: 01 November 2003
...Helen J. Hathaway; Susan C. Evans; Daniel H. Dubois; Cynthia I. Foote; Brooke H. Elder; Barry D. Shur β1,4-Galactosyltransferase I (GalT I) exists in two subcellular compartments where it performs two distinct functions. The majority of GalT I is localized in the Golgi complex where it participates...
J Cell Sci (2001) 114 (12): 2291–2300.
Published: 15 June 2001
...Michael J. Wassler; Cynthia I. Foote; Irwin H. Gelman; Barry D. Shur The β1,4-galactosyltransferase family contains at least seven unique gene products, of which β1,4-galactosyltransferase I (GalT) is the most exhaustively studied. GalT exists in the Golgi complex, similar to many other...