Alexander Albers scite author profile

2-Heptyl-3-hydroxy-4(1H)-quinolone (PQS) is a quorum-sensing signal molecule used by Pseudomonas aeruginosa. The structural similarity between 3-hydroxy-2-methyl-4(1H)-quinolone, the natural substrate for the 2,4-dioxygenase, Hod, and PQS prompted us to investigate whether Hod quenched PQS signaling. Hod is capable of catalyzing the conversion of PQS to N-octanoylanthranilic acid and carbon monoxide. In P. aeruginosa PAO1 cultures, exogenously supplied Hod protein reduced expression of the PQS biosynthetic gene pqsA, expression of the PQS-regulated virulence determinants lectin A, pyocyanin, and rhamnolipids, and virulence in planta. However, the proteolytic cleavage of Hod by extracellular proteases, competitive inhibition by the PQS precursor 2-heptyl-4(1H)-quinolone, and PQS binding to rhamnolipids reduced the efficiency of Hod as a quorum-quenching agent. Nevertheless, these data indicate that enzyme-mediated PQS inactivation has potential as an antivirulence strategy against P. aeruginosa.

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Stability, Unfolding, and Structural Changes of Cofactor-Free 1H-3-Hydroxy-4-oxoquinaldine 2,4-Dioxygenase

Beermann

Guddorf

Boehm

et al. 2007

Biochemistry

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Stability, unfolding mechanism, spectroscopic, densimetric, and structural characteristics of the oxidatively stable C69S variant (HodC) of 1H-3-hydroxy-4-oxoquinaldine 2,4-dioxygenase (Hod) have been determined by classical and pressure modulation scanning calorimetry (DSC and PMDSC, respectively), circular dichroism (CD) spectroscopy, differential scanning densimetry (DSD), and dynamic light scattering measurements. At 25 degrees C, hexahistidine-tagged HodC has a hydrodynamic radius of 2.3 nm and is characterized by an unusually high degree of alpha-helical structure of approximately 60%, based on deconvolution of CD spectra. The percentage of beta-sheets and -turns is expected to be relatively low in view of its sequence similarity to proteins of the alpha/beta-hydrolase fold superfamily. His6HodC exhibits three-state unfolding (N <--> I <--> D) with an intermediate state I that exhibits at the transition temperature a volume larger than that of the native or denatured state. The intermediate state I is also associated with the highest isothermal expansion coefficient, alphaP, of the three states and exhibits a significantly lower percentage of alpha-helical structure than the native state. The stability difference between the native and intermediate state is rather small which makes I a potential candidate for reactions with various ligands, particularly those having a preference for the apparently preserved beta-type motifs.

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Thermodynamic Analysis of Denaturant-Induced Unfolding of HodC69S Protein Supports a Three-State Mechanism

et al. 2008

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Thermodynamic stability parameters and the equilibrium unfolding mechanism of His 6HodC69S, a mutant of 1 H-3-hydroxy-4-oxoquinaldine 2,4-dioxygenase (Hod) having a Cys to Ser exchange at position 69 and an N-terminal hexahistidine tag (His 6HodC69S), have been derived from isothermal unfolding studies using guanidine hydrochloride (GdnHCl) or urea as denaturants. The conformational changes were monitored by following changes in circular dichroism (CD), fluorescence, and dynamic light scattering (DLS), and the resulting transition curves were analyzed on the basis of a sequential three-state model N = I = D. The structural changes have been correlated to catalytic activity, and the contribution to stability of the disulfide bond between residues C37 and C184 in the native protein has been established. A prominent result of the present study is the finding that, independent of the method used for denaturing the protein, the unfolding mechanism always comprises three states which can be characterized by, within error limits, identical sets of thermodynamic parameters. Apparent deviations from three-state unfolding can be rationalized by the inability of a spectroscopic probe to discriminate clearly between native, intermediate, and unfolded ensembles. This was the case for the CD-monitored urea unfolding curve.

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BODIPY nanostructures as a contrast agent for Multispectral Optoacoustic Tomography (MSOT)

Kuberasivakumaran

Albers

Matern

et al. 2023

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