Related ArticlesNMR evidence for progressive stabilization of native-like structure upon aggregation of acid-denatured LysN.
J Mol Biol. 2000 Jan 14;295(2):239-55
Authors: Alexandrescu AT, Lamour FP, Jaravine VA
The acid-denatured form of the protein LysN aggregates reversibly at pH 2.0. The strength of self-association increases with increasing Cl(-) anion concentration. At low concentrations of protein or Cl(-) anion, resonances of denatured LysN are in slow exchange with a minor form of the protein, which shows native-like NMR chemical shifts. The minor native-like resonances increase in intensity with increasing protein concentration, demonstrating that a native-like monomer fold is stabilized on aggregation of the acid-denatured protein. At high concentrations of protein or Cl(-) anion, interconversion between the major and minor resonances appears to shift from slow to intermediate exchange on the NMR timescale. NMR line-broadening is more pronounced for the major resonances of the denatured protein, which show sigmoidal decay curves with increasing Cl(-) concentration. The mid-points of the decay curves for residues in different parts of the molecule are non-coincident. We propose that differences in the NMR line-broadening transitions of individual residues reflect a stepwise stabilization of native-like structure on aggregation, starting with the segments of the protein that form the initial association interface. The resonances of the denatured protein with the greatest sensitivity to self-association correspond roughly to those that are most perturbed in the native protein on binding of the natural substrate tRNA(Lys). This suggests that the hydrophobic surfaces that promote intermolecular misfolding of acid-denatured LysN, may resemble those used for substrate binding by the native protein.
[Question from NMRWiki Q&A forum] Can correct TAUc be a sufficient evidence of the absence of aggregation?
Can correct TAUc be a sufficient evidence of the absence of aggregation?
Hello!
I am studying the protein backbone dynamics using the standard set of NMR relaxation parameters (R1, R2, NOE). I would like to be sure that there is no aggregation in the sample, and I have doubts about it so far. The best evidence I have is that overall rotational correlation time TAUc, predicted by HYDRONMR, matches exactly the one calculated from averaged R2/R1 values. Can anyone tell me for sure it is enough and I can be sure that protein doesn't form dimers/oligomers?
Thanks!
nmrlearner
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http://www.researchblogging.org/public/citation_icons/rb2_large_gray.pngA protein has several different levels of structure. The primary structure is the arrangements of atoms and bonds, and it is formed in the ribosome by the assembly of amino acids as directed by an RNA template. The secondary structure is the local topology, the helices and strands, and this forms mostly because of the release of energy through the formation of hydrogen bonds. The tertiary structure is the actual fold of the protein, the way helices, strands, and loops are...
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An important step in NMR protein structure determination is the assignment of resonances and NOEs to corresponding nuclei. Structure-based assignment (SBA) uses a model structure (“template”) for the target protein to expedite this process. Nuclear vector replacement (NVR) is an SBA framework that combines multiple sources of NMR data (chemical shifts, RDCs, sparse NOEs, amide exchange...
NMR evidence for progressive stabilization of native-like structure upon aggregation
Linear Mode
