Edward N. Baker
Edward N. Baker
Distinguished Professor of Structural Biology, School of Biological Sciences, University of Auckland
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Cited by
Cited by
Hydrogen bonding in globular proteins
EN Baker, RE Hubbard
Progress in biophysics and molecular biology 44 (2), 97-179, 1984
The Structure of 2Zn Pig Insulin Crystals at 1.5 A Resolution
EN Baker, TL Blundell, JF Cutfield, SM Cutfield, EJ Dodson, GG Dodson, ...
Philosophical Transactions of the Royal Society of London B: Biological …, 1988
Structure of human lactoferrin: Crystallographic structure analysis and refinement at 2· 8 Å resolution
BF Anderson, HM Baker, GE Norris, DW Rice, EN Baker
Journal of molecular biology 209 (4), 711-734, 1989
Structure of rhombohedral 2 zinc insulin crystals
MJ Adams, TL Blundell, EJ Dodson, GG Dodson, M Vijayan, EN Baker, ...
Nature 224 (5218), 491-495, 1969
Pili in Gram-negative and Gram-positive bacteria—structure, assembly and their role in disease
T Proft, EN Baker
Cellular and molecular life sciences 66, 613-635, 2009
Structural Basis of the Tanford Transition of Bovine β-Lactoglobulin,
BY Qin, MC Bewley, LK Creamer, HM Baker, EN Baker, GB Jameson
Biochemistry 37 (40), 14014-14023, 1998
Structure of human lactoferrin at 3.2-A resolution.
BF Anderson, HM Baker, EJ Dodson, GE Norris, SV Rumball, JM Waters, ...
Proceedings of the National Academy of Sciences 84 (7), 1769-1773, 1987
Apolactoferrin structure demonstrates ligand-induced conformational change in transferrins
BF Andersen, HM Baker, GE Morris, SV Rumball, EN Baker
Nature 344 (6268), 784-787, 1990
Molecular structure, binding properties and dynamics of lactoferrin
EN Baker, HM Baker
Cellular and Molecular Life Sciences 62 (22), 2531-2539, 2005
Three-dimensional structure of diferric bovine lactoferrin at 2.8 Å resolution
SA Moore, BF Anderson, CR Groom, M Haridas, EN Baker
Journal of molecular biology 274 (2), 222-236, 1997
Structure of azurin from Alcaligenes denitrificans refinement at 1· 8 Å resolution and comparison of the two crystallographically independent molecules
EN Baker
Journal of molecular biology 203 (4), 1071-1095, 1988
Stabilizing isopeptide bonds revealed in gram-positive bacterial pilus structure
HJ Kang, F Coulibaly, F Clow, T Proft, EN Baker
science 318 (5856), 1625-1628, 2007
Lactoferrin Is a Potent Regulator of Bone Cell Activity and Increases Bone Formation in Vivo
J Cornish, KE Callon, D Naot, KP Palmano, T Banovic, U Bava, M Watson, ...
Endocrinology 145 (9), 4366-4374, 2004
Thiol proteases: comparative studies based on the high-resolution structures of papain and actinidin, and on amino acid sequence information for cathepsins B and H, and stem …
IG Kamphuis, J Drenth, EN Baker
Journal of Molecular Biology 182 (2), 317-329, 1985
Structure of actinidin, after refinement at 1.7 Å resolution
EN Baker
Journal of Molecular Biology 141 (4), 441-484, 1980
A structural framework for understanding the multifunctional character of lactoferrin
EN Baker, HM Baker
Biochimie 91 (1), 3-10, 2009
Structure and reactivity of transferrins
EN Baker
Advances in inorganic chemistry 41, 389-463, 1994
Dealing with iron: common structural principles in proteins that transport iron and heme
HM Baker, BF Anderson, EN Baker
Proceedings of the National Academy of Sciences 100 (7), 3579-3583, 2003
Crystal structure of the protein disulfide bond isomerase, DsbC, from Escherichia coli
AA McCarthy, PW Haebel, A Törrönen, V Rybin, EN Baker, P Metcalf
nature structural biology 7 (3), 196-199, 2000
Two High-Resolution Crystal Structures of the Recombinant N-Lobe of Human Transferrin Reveal a Structural Change Implicated in Iron Release,
RTA MacGillivray, SA Moore, J Chen, BF Anderson, H Baker, Y Luo, ...
Biochemistry 37 (22), 7919-7928, 1998
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