(15)N NMR relaxation parameters and amide (1)H/(2)H-exchange rates have been used to characterize the structural flexibility of human growth hormone (rhGH) at neutral and acidic pH. Our results show that the rigidity of the molecule is strongly affected by the solution conditions. At pH 7.0 the backbone dynamics parameters of rhGH are uniform along the polypeptide chain and their values are similar to those of other folded proteins. In contrast, at pH 2.7 the overall backbone flexibility increases substantially compared to neutral pH and the average order parameter approaches the lower limit expected for a folded protein. However, a significant variation of the backbone dynamics through the molecule indicates that under acidic conditions the mobility of the residues becomes more dependent on their location within the secondary structure units. In particular, the order parameters of certain loop regions decrease dramatically and become comparable to those found in unfolded proteins. Furthermore, the HN-exchange rates at low pH reveal that the residues most protected from exchange are clustered at one end of the helical bundle, forming a stable nucleus. We suggest that this nucleus maintains the overall fold of the protein under destabilizing conditions. We therefore conclude that the acid state of rhGH consists of a structurally conserved, but dynamically more flexible helical core surrounded by an aura of highly mobile, unstructured loops. However, in spite of its prominent flexibility the acid state of rhGH cannot be considered a "molten globule" state because of its high stability. It appears from our work that under certain conditions, a protein can tolerate a considerable increase in flexibility of its backbone, along with an increased penetration of water into its core, while still maintaining a stable folded conformation.
[NMR paper] NMR structure and backbone dynamics of a concatemer of epidermal growth factor homolo
NMR structure and backbone dynamics of a concatemer of epidermal growth factor homology modules of the human low-density lipoprotein receptor.
Related Articles NMR structure and backbone dynamics of a concatemer of epidermal growth factor homology modules of the human low-density lipoprotein receptor.
J Mol Biol. 2001 Aug 10;311(2):341-56
Authors: Kurniawan ND, Aliabadizadeh K, Brereton IM, Kroon PA, Smith R
The ligand-binding region of the low-density lipoprotein (LDL) receptor is formed by seven N-terminal, imperfect, cysteine-rich (LB)...
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[NMR paper] 15N NMR relaxation studies of free and ligand-bound human acidic fibroblast growth fa
15N NMR relaxation studies of free and ligand-bound human acidic fibroblast growth factor.
Related Articles 15N NMR relaxation studies of free and ligand-bound human acidic fibroblast growth factor.
J Biol Chem. 2000 Dec 15;275(50):39444-50
Authors: Chi Y, Kumar TK, Chiu IM, Yu C
15N NMR relaxation data have been used to characterize the backbone dynamics of the human acidic fibroblast growth factor (hFGF-1) in its free and sucrose octasulfate (SOS)-bound states. (15)N longitudinal (R(1)), transverse (R(2)) relaxation rates and (1H)-(15)N...
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[NMR paper] Structure of recombinant human parathyroid hormone in solution using multidimensional
Structure of recombinant human parathyroid hormone in solution using multidimensional NMR spectroscopy.
Related Articles Structure of recombinant human parathyroid hormone in solution using multidimensional NMR spectroscopy.
Biol Chem Hoppe Seyler. 1996 Mar;377(3):175-86
Authors: Gronwald W, Schomburg D, Harder MP, Mayer H, Paulsen J, Wingender E, Wray V
The solution structure of human parathyroid hormone, in the form of recombinant prolyl-hPTH(1-84), has been investigated by multidimensional NMR spectroscopy under conditions (aqueous...
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[NMR paper] NMR characterization of side chain flexibility and backbone structure in the type I a
NMR characterization of side chain flexibility and backbone structure in the type I antifreeze protein at near freezing temperatures.
http://www.ncbi.nlm.nih.gov/corehtml/query/egifs/http:--pubs.acs.org-images-acspubs.jpg Related Articles NMR characterization of side chain flexibility and backbone structure in the type I antifreeze protein at near freezing temperatures.
Biochemistry. 1996 Dec 24;35(51):16698-704
Authors: Gronwald W, Chao H, Reddy DV, Davies PL, Sykes BD, Sönnichsen FD
The flexibility of the polar side chains in the...
[NMR paper] Stabilized NMR structure of human parathyroid hormone(1-34).
Stabilized NMR structure of human parathyroid hormone(1-34).
http://www.ncbi.nlm.nih.gov/corehtml/query/egifs/http:--www3.interscience.wiley.com-aboutus-images-wiley_interscience_pubmed_logo_FREE_120x27.gif Related Articles Stabilized NMR structure of human parathyroid hormone(1-34).
Eur J Biochem. 1993 Jul 15;215(2):315-21
Authors: Barden JA, Cuthbertson RM
The structure of the biologically-active N-terminal region of human parathyroid hormone, PTH(1-34), was investigated in the presence of 10% trifluoroethanol using two-dimensional proton...
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[NMR paper] 1H-NMR assignment and secondary structure of human insulin-like growth factor-I (IGF-
1H-NMR assignment and secondary structure of human insulin-like growth factor-I (IGF-I) in solution.
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J Biochem. 1992 Apr;111(4):529-36
Authors: Sato A, Nishimura S, Ohkubo T, Kyogoku Y, Koyama S, Kobayashi M, Yasuda T, Kobayashi Y
Human insulin-like growth factor-I (IGF-I) was studied by two-dimensional 1H-NMR spectroscopy. Resonance assignments were obtained for all the backbone protons and almost all of the sidechain protons...
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[NMR paper] Structure-function relationships in human epidermal growth factor studied by site-dir
Structure-function relationships in human epidermal growth factor studied by site-directed mutagenesis and 1H NMR.
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Biochemistry. 1991 Sep 10;30(36):8891-8
Authors: Hommel U, Dudgeon TJ, Fallon A, Edwards RM, Campbell ID
In order to elucidate the mechanism of interaction between human epidermal growth factor (EGF) and its receptor, selected variants of EGF, differing by single amino acid substitutions, have been...
NMR studies of the backbone flexibility and structure of human growth hormone: a comp
Linear Mode
