Rica Patzschke scite author profile

Slow protein folding processes during which kinetic folding intermediates occur for an extended time can lead to aggregation and dysfunction in living cells. Therefore, protein folding helpers have evolved, which prevent proteins from aggregation and/or speed up folding processes. In this study, we present the structural characterization of a long-living transient folding intermediate of RNase T1 (S54G/P55N) by time-resolved NMR spectroscopy. NMR resonances of this kinetic folding intermediate could be assigned mainly by a real-time 3D BEST-HNCA. These assignments were the basis to investigate the interaction sites between the protein folding helper enzyme SlyD(1-165) (SlyD*) from Escherichia coli (E. coli) and this kinetic intermediate at a residue resolution. Thus, we investigated the Michaelis-Menten complex of this enzyme reaction, because the NMR data acquisition was performed during the actual catalysis. The interaction surface of the transient folding intermediate is restricted to a region around the peptidyl-prolyl bond (Y38-P39), whose isomerization is catalyzed by SlyD*. The interaction surface regarding SlyD* extends from specific amino acids of the FKBP domain forming the peptidyl-prolyl cis/trans-isomerase active site to almost the entire IF domain. This illustrates an effective interplay between the two functional domains of SlyD* to facilitate protein folding catalysis.

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Contribution of the two domains of E. coli 5′‐nucleotidase to substrate specificity and catalysis

Krug

Patzschke

Zebisch

et al. 2013

FEBS Letters

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a b s t r a c tEscherichia coli 5 0 -nucleotidase, a two-domain enzyme, dephosphorylates various nucleotides with comparable efficiency. We have expressed the two domains individually in E. coli and show by liquid state NMR that they are properly folded. Kinetic characterization reveals that the C-terminal domain, which contains the substrate-binding pocket, is completely inactive while the N-terminal domain with the two-metal-ion-center and the core catalytic residues exhibits significant activity, especially towards substrates with activated phosphate bonds (ATP, ADP, p-nitrophenyl phosphate). In contrast, residues of the C-terminal domain are required for efficient hydrolysis of AMP.

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Biophysical and structural characterization of a folded core domain within the proregion of growth and differentiation factor‐5

et al. 2014

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The structure and function(s) of the very large proregions of the transforming growth factor-b structure family are known in only a few cases. The proregion of growth and differentiation factor (GDF)5 comprises 354 residues. GDF5 therefore belongs to the group of those growth factors with the largest proregions. Here, we report a biophysical analysis of the proform (proGDF5) and the separate proregion. In the absence of the mature part, the proregion folds reversibly to form a monomeric polypeptide that is stabilized by an intramolecular disulfide bond. In the context of the mature part, i.e. in proGDF5, the proregion shows increased thermodynamic stability and contains a higher proportion of secondary structural elements than in its isolated form. A subdomain within the proregion represents a well-folded structure as monitored via biophysical analysis and NMR spectroscopy. Furthermore, two point mutations that are associated with skeletal malformations lead to reduced thermodynamic stability, which is interpreted on the basis of a homology model with the structure of the related latency-associated peptide, representing the proregion of transforming growth factor-b1.

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Rica Patzschke

Transient Enzyme–Substrate Recognition Monitored by Real-Time NMR

Contribution of the two domains of E. coli 5′‐nucleotidase to substrate specificity and catalysis

Biophysical and structural characterization of a folded core domain within the proregion of growth and differentiation factor‐5

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