TY - JOUR
T1 - Homology modeling and characterization of IgE binding epitopes of mountain cedar allergen Jun a 3
AU - Soman, Kizhake V.
AU - Midoro-Horiuti, Terumi
AU - Ferreon, Josephine C.
AU - Goldblum, Randall M.
AU - Brooks, Edward G.
AU - Kurosky, Alexander
AU - Braun, Werner
AU - Schein, Catherine H.
N1 - Funding Information:
This work was supported by the Sealy Center for Structural Biology, a UTMB President's Cabinet Award (to RMG, TM-H, and EGB), the James W. McLaughlin Fellowship Fund (to TM-H), the Child Health Research Center (RMG and TM-H), and grants to WB from the National Science Foundation (DBI-9632326 and DBI-9714937), the U.S. Department of Energy (DE-FG03-96ER62267), and the Texas Advanced Research Program (4952-0084-1999).
PY - 2000
Y1 - 2000
N2 - The Jun a 3 protein from mountain cedar (Juniperus ashei) pollen, a member of group 5 of the family of plant pathogenesis-related proteins (PR-proteins), reacts with serum IgE from patients with cedar hypersensitivity. We used the crystal structures of two other proteins of this group, thaumatin and an antifungal protein from tobacco, both ~50% identical in sequence to Jun a 3, as templates to build homology models for the allergen. The in-house programs EXDIS and FANTOM were used to extract distance and dihedral angle constraints from the Protein Data Bank files and determine energy-minimized structures. The mean backbone deviations for the energy-refined model structures from either of the templates is <1 Å, their conformational energies are low, and their stereochemical properties (determined with PROCHECK) are acceptable. The circular dichroism spectrum of Jun a 3 is consistent with the postulated β-sheet core. Tryptic fragments of Jun a 3 that reacted with IgE from allergic patients all mapped to one helical/loop surface of the models. The Jun a 3 models have features common to aerosol allergens from completely different protein families, suggesting that tertiary structural elements may mediate the triggering of an allergic response.
AB - The Jun a 3 protein from mountain cedar (Juniperus ashei) pollen, a member of group 5 of the family of plant pathogenesis-related proteins (PR-proteins), reacts with serum IgE from patients with cedar hypersensitivity. We used the crystal structures of two other proteins of this group, thaumatin and an antifungal protein from tobacco, both ~50% identical in sequence to Jun a 3, as templates to build homology models for the allergen. The in-house programs EXDIS and FANTOM were used to extract distance and dihedral angle constraints from the Protein Data Bank files and determine energy-minimized structures. The mean backbone deviations for the energy-refined model structures from either of the templates is <1 Å, their conformational energies are low, and their stereochemical properties (determined with PROCHECK) are acceptable. The circular dichroism spectrum of Jun a 3 is consistent with the postulated β-sheet core. Tryptic fragments of Jun a 3 that reacted with IgE from allergic patients all mapped to one helical/loop surface of the models. The Jun a 3 models have features common to aerosol allergens from completely different protein families, suggesting that tertiary structural elements may mediate the triggering of an allergic response.
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U2 - 10.1016/S0006-3495(00)76410-1
DO - 10.1016/S0006-3495(00)76410-1
M3 - Article
C2 - 10969020
AN - SCOPUS:0033857258
SN - 0006-3495
VL - 79
SP - 1601
EP - 1609
JO - Biophysical journal
JF - Biophysical journal
IS - 3
ER -