Monomeric human soluble CD4 dimerizes at physiological temperature: VTSAXS data based modeling and screening of retardant molecules

Global shape of SvGT, a metal-dependent bacteriocin modifying S/O-HexNActransferase from actinobacteria: c -terminal dimerization modulates the function of this GT

Here, we describe hitherto unknown shape-function of S/O-HexNActransferase SvGT (ORF AQF52_3101) instrumental in glycosylation of bacteriocin SvC (ORF AQF52_3099) in Streptomyces venezuelae ATCC 15439. Data from gel filtration, mass spectrometry, analytical ultracentrifugation, and Small Angle X-ray Scattering (SAXS), experiments confirmed elongated dimeric shape in solution for SvGT protein. Enzyme assays confirmed the dependence of SvGT on the availability of Mg2+ ions to be functionally activated. SAXS data analysis provided that apo and Mg2+-activated protein adopt a shape characterized by a radius of gyration and maximum linear dimension of 5.2 and 17.0 nm, and 5.3 and 17.8 nm, respectively. Alphafold2 server was used to model the monomeric chain of this protein which was docked on self to obtain different poses of the dimeric entity. Experimental SAXS data was used to select and refine the structure of SvGT dimer. Results showed that Mg2+ ions induce reorientation of the GT domain of one chain leading to a dimer with C2 symmetry, and the C-terminal portion entangles with each other in all states. Mutation-rendered alteration in activity profiles confirmed the role of conserved residues around catalytic motif. Global structure analysis puts forth the need to understand the role of constitutionally diverse C-terminal portion in regulating substrate selectivity.Communicated by Ramaswamy H. Sarma.

Insights into dynamic changes in ADC-7 and P99 cephalosporinases using small angle x-ray scattering (SAXS)

To counter the emergence of β-lactamase (BL) mediated resistance, design of new β-lactamase inhibitors (BLIs) is critical. Many high-resolution crystallographic structures of BL complexed with BLIs are available. However, their impact on BLI design is struggling to keep pace with novel and emerging variants. Small angle x-ray scattering (SAXS) in combination with molecular modeling is a useful tool to determine dynamic structures of macromolecules in solution. An important application of SAXS is to determine the conformational changes that occur when BLI bind to BL. To probe if conformational dynamics occur in class C cephalosporinases, we studied SAXS profiles of two clinically relevant class C β-lactamases, Acinetobacter baumannii ADC-7 and Enterobacter cloacae P99 in apo format complexed with BLIs. Importantly, SAXS data analysis demonstrated that in solution, these representative class C enzymes remain monomeric and did not show the associated assemblies that were seen in various crystal structures. SAXS data acquired for ADC-7 and P99, in apo and inhibitor bound states, clearly showed that these enzymes undergo detectable conformational changes, and these class C β-lactamases also close upon binding inhibitors as does BlaC. Further analysis revealed that addition of inhibitor led to the compacting of a range of residues around the active site, indicating that the conformational changes that both P99 and ADC-7 undergo are central to inhibitor recognition and efficacy. Our findings support the importance of exploring conformational changes using SAXS analysis in the design of future BLIs.Communicated by Ramaswamy H. Sarma.

Heat induces end to end repetitive association in P. furiosus L-asparaginase which enables its thermophilic property

It remains undeciphered how thermophilic enzymes display enhanced stability at elevated temperatures. Taking l-asparaginase from P. furiosus (PfA) as an example, we combined scattering shapes deduced from small-angle X-ray scattering (SAXS) data at increased temperatures with symmetry mates from crystallographic structures to find that heating caused end-to-end association. The small contact point of self-binding appeared to be enabled by a terminal short β-strand in N-terminal domain, Leu¹⁷⁹-Val-Val-Asn¹⁸² (LVVN). Interestingly, deletion of this strand led to a defunct enzyme, whereas suplementation of the peptide LVVN to the defunct enzyme restored structural frameworkwith mesophile-type functionality. Crystal structure of the peptide-bound defunct enzyme showed that one peptide ispresent in the same coordinates as in original enzyme, explaining gain-of lost function. A second peptide was seen bound to the protein at a different location suggesting its possible role in substrate-free molecular-association. Overall, we show that the heating induced self-assembly of native shapes of PfA led to an apparent super-stable assembly.