Backbone dynamics of a biologically active human FGF-1 monomer, complexed to a hexasaccharide heparin-analogue, by N NMR relaxation methods

A. Abraham; A. Favier; A. Morton; A. Pineda-Lucena; A. Pineda-Lucena; A. Rapraeger; A. Yayon; A.D. DiGabriele; A.D. McLachlan; A.G. Palmer; A.I. Arunkumar; A.I. Arunkumar; Angeles Canales-Mayordomo; B.A. Springer; C. Slichter; C.J. Powers; D. Ornitz; D.J. Stauber; D.M. Epstein; D.M. Korzhnev; D.M. Ornitz; F. Moy; G. Giménez-Gallego; G. Giménez-Gallego; G. Lipari; G. Venkataraman; G. Waksman; Guillermo Giménez-Gallego; H.E. Conrad; H.J. Dyson; I. Capila; J. Angulo; J. Cavanagh; J. Cavanagh; J. Peränen; J. Schlessinger; J.-F. Lefèvre; J.C. Cobas; J.D. Forman-Kay; J.T. Stivers; J.W. Peng; J.W. Peng; Jesús Angulo; Jesús Jiménez-Barbero; K. Ogura; K.E. White; L. Guignard; L. Pellegrini; L. Pellegrini; L.K. Nicholson; M. Akke; M. Akke; M. Mohammadi; M. Mohammadi; M.J. Osborne; M.J. Stone; Manuel Martín-Lomas; Manuel Martín-Pastor; N. Itoh; N.A. Farrow; N.A. Farrow; N.J. Harmer; N.J. Harmer; P. Dosset; P. Zhang; Pedro M. Nieto; R. Fayos; Rafael Ojeda; Rosa Fayos; Rosa Lozano; S. Atwell; S. Faham; S. Faham; T. Clackson; T. Nishimura; T. Spivak-Kroizman; V.A. Feher; V.V. Krishnan; X. Zhu; Y. Chi; Y. Hiyama; Y.-H. Chi; Z.L. Wu

Backbone dynamics of a biologically active human FGF-1 monomer, complexed to a hexasaccharide heparin-analogue, by N NMR relaxation methods

Authors: A. Abraham
A. Favier
A. Morton
A. Pineda-Lucena
A. Pineda-Lucena
A. Rapraeger
A. Yayon
A.D. DiGabriele
A.D. McLachlan
A.G. Palmer
A.I. Arunkumar
A.I. Arunkumar
Angeles Canales-Mayordomo
B.A. Springer
C. Slichter
C.J. Powers
D. Ornitz
D.J. Stauber
D.M. Epstein
D.M. Korzhnev
D.M. Ornitz
F. Moy
G. Giménez-Gallego
G. Giménez-Gallego
G. Lipari
G. Venkataraman
G. Waksman
Guillermo Giménez-Gallego
H.E. Conrad
H.J. Dyson
I. Capila
J. Angulo
J. Cavanagh
J. Cavanagh
J. Peränen
J. Schlessinger
J.-F. Lefèvre
J.C. Cobas
J.D. Forman-Kay
J.T. Stivers
J.W. Peng
J.W. Peng
Jesús Angulo
Jesús Jiménez-Barbero
K. Ogura
K.E. White
L. Guignard
L. Pellegrini
L. Pellegrini
L.K. Nicholson
M. Akke
M. Akke
M. Mohammadi
M. Mohammadi
M.J. Osborne
M.J. Stone
Manuel Martín-Lomas
Manuel Martín-Pastor
N. Itoh
N.A. Farrow
N.A. Farrow
N.J. Harmer
N.J. Harmer
P. Dosset
P. Zhang
Pedro M. Nieto
R. Fayos
Rafael Ojeda
Rosa Fayos
Rosa Lozano
S. Atwell
S. Faham
S. Faham
T. Clackson
T. Nishimura
T. Spivak-Kroizman
V.A. Feher
V.V. Krishnan
X. Zhu
Y. Chi
Y. Hiyama
Y.-H. Chi
Z.L. Wu
Publication date: 1 August 2006
Publisher: 'Springer Science and Business Media LLC'
Doi

Abstract

The binding site and backbone dynamics of a bioactive complex formed by the acidic fibroblast growth factor (FGF-1) and a specifically designed heparin hexasaccharide has been investigated by HSQC and relaxation NMR methods. The comparison of the relaxation data for the free and bound states has allowed showing that the complex is monomeric, and still induces mutagenesis, and that the protein backbone presents reduced motion in different timescale in its bound state, except in certain points that are involved in the interaction with the fibroblast growth factor receptor (FGFR)

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