Justyna Czyrko scite author profile

S-adenosyl-l-homocysteine hydrolase from Pseudomonas aeruginosa (PaSAHase) coordinates one K+ ion and one Zn2+ ion in the substrate binding area. The cations affect the enzymatic activity and substrate binding but the molecular mechanisms of their action are unknown. Enzymatic and isothermal titration calorimetry studies demonstrated that the K+ ions stimulate the highest activity and strongest ligand binding in comparison to other alkali cations, while the Zn2+ ions inhibit the enzyme activity. PaSAHase was crystallized in the presence of adenine nucleosides and K+ or Rb+ ions. The crystal structures show that the alkali ion is coordinated in close proximity of the purine ring and a 23Na NMR study showed that the monovalent cation coordination site is formed upon ligand binding. The cation, bound in the area of a molecular hinge, orders and accurately positions the amide group of Q65 residue to allow its interaction with the ligand. Moreover, binding of potassium is required to enable unique dynamic properties of the enzyme that ensure its maximum catalytic activity. The Zn2+ ion is bound in the area of a molecular gate that regulates access to the active site. Zn2+ coordination switches the gate to a shut state and arrests the enzyme in its closed, inactive conformation.

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Carbon nano-onion composites: Physicochemical characteristics and biological activity

Bobrowska

Czyrko

Brzeziński

et al. 2017

Fullerenes, Nanotubes and Carbon Nanostructures

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S-adenosyl-L-homocysteine hydrolase from a hyperthermophile (Thermotoga maritima) is expressed in Escherichia coli in inactive form – Biochemical and structural studies

Brzeziński

Czyrko

Sliwiak

et al. 2017

International Journal of Biological Macromolecules

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Thermotoga maritima is a hyperthermophilic bacterium but its genome encodes a number of archaeal proteins including S-adenosyl-L-homocysteine hydrolase (SAHase), which regulates cellular methylation reactions. The question of proper folding and activity of proteins of extremophilic origin is an intriguing problem. When expressed in E.coli and purified (as a homotetramer) at room temperature, the hyperthermophilic SAHase from T.maritima was inactive. ITC study indicated that the protein undergoes heat-induced conformational changes, and enzymatic activity assays demonstrated that these changes are required to attain enzymatic activity. To explain the mechanism of thermal activation, two crystal structures of the inactive form of T. maritima SAHase (iTmSAHase) were determined for an incomplete binary complex with the reduced cofactor (NADH), and in a mixture of binary complexes with NADH and with adenosine. In contrast to active SAHases, in iTmSAHase only two of the four subunits contain a bound cofactor, predominantly in its non-reactive, reduced state. Moreover, the closed-like conformation of the cofactor-containing subunits precludes substrate delivery to the active site. The two other subunits cannot be involved in the enzymatic reaction either; although they have an open-like conformation, they do not contain the cofactor, whose binding site may be occupied by an adenosine molecule. The results suggest that this enzyme, when expressed in mesophilic cells, is arrested in the activity-incompatible conformation revealed by its crystal structures.

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Triple helical collagen-like peptide interactions with selected polyphenolic compounds

et al. 2015

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Justyna Czyrko

Metal-cation regulation of enzyme dynamics is a key factor influencing the activity of S-adenosyl-l-homocysteine hydrolase from Pseudomonas aeruginosa

Carbon nano-onion composites: Physicochemical characteristics and biological activity

S-adenosyl-L-homocysteine hydrolase from a hyperthermophile (Thermotoga maritima) is expressed in Escherichia coli in inactive form – Biochemical and structural studies

Triple helical collagen-like peptide interactions with selected polyphenolic compounds

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