Investigations of Accessibility of T2/T3 Copper Center of Two-Domain Laccase from Streptomyces griseoflavus Ac-993

Габдулхаков, А.Г.; Kolyadenko, Ilya; Kostareva, Olga; Mikhaylina, Alisa; Oliveira, Paulo; Tamagnini, Paula; Lisov, A. V.; Tishchenko, Svetlana

doi:10.3390/ijms20133184

Cited by 24 publications

(20 citation statements)

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“…This water channel has been proposed to be the source of protons in the formation of waters from dioxygen. [21,25] Gln291 also forms a strong hydrogen bond with the Nδ1 of His289 (Figure 2c), a ligand in the T3 site.…”

Section: Analysis Of Slac-t1d/q291ementioning

confidence: 99%

The Resting Oxidized State of Small Laccase Analyzed with Paramagnetic NMR Spectroscopy

et al. 2021

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The enzyme laccase catalyzes the reduction of dioxygen to water at the trinuclear copper center (TNC). The TNC comprises a type-3 (T3) and a type-2 (T2) copper site. The paramagnetic NMR spectrum of the small laccase from Streptomyces coelicolor (SLAC) without the substrate shows a mixture of two catalytic states, the resting oxidized (RO) state and the native intermediate (NI) state. An analysis of the resonances of the RO state is reported. In this state, hydrogen resonances only of the T3 copper ligands can be found, in the region of 12-22 ppm. Signals from all six histidine ligands are found and can be attributed to Hδ1, Hβ or backbone amide H N nuclei. Two sequence-specific assignments are proposed on the basis of a second-coordination shell variant that also lacks the copper ion at the T1 site, SLACÀ T1D/Q291E. This double mutant is found to be exclusively in the RO state, revealing a subtle balance between the RO and the NI states.

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Section: Analysis Of Slac-t1d/q291ementioning

confidence: 99%

The Resting Oxidized State of Small Laccase Analyzed with Paramagnetic NMR Spectroscopy

et al. 2021

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“…PDB entries corresponding to the term 'laccase' have been reviewed previously by [9]. [32] The molecular architecture of most laccases includes three cupredoxin domains with a β-barrel structure, although laccases with two such domains have been discovered, which are named two-domain or Small Laccases (SLACs, [20]). In a typical structure, a mononuclear copper-binding site T1 is situated in domain 3 close to the protein surface, and a trinuclear copper-binding site (TNC) consisting of one T2 and two T3 copper atoms is formed by the proximity of domains 1 and 3 (Figure 1).…”

Section: Structural Aspects Mode Of Action and Redox Properties Of mentioning

confidence: 99%

Applications of Microbial Laccases: Patent Review of the Past Decade (2009–2019)

et al. 2019

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There is a high number of well characterized, commercially available laccases with different redox potentials and low substrate specificity, which in turn makes them attractive for a vast array of biotechnological applications. Laccases operate as batteries, storing electrons from individual substrate oxidation reactions to reduce molecular oxygen, releasing water as the only by-product. Due to society’s increasing environmental awareness and the global intensification of bio-based economies, the biotechnological industry is also expanding. Enzymes such as laccases are seen as a better alternative for use in the wood, paper, textile, and food industries, and they are being applied as biocatalysts, biosensors, and biofuel cells. Almost 140 years from the first description of laccase, industrial implementations of these enzymes still remain scarce in comparison to their potential, which is mostly due to high production costs and the limited control of the enzymatic reaction side product(s). This review summarizes the laccase applications in the last decade, focusing on the published patents during this period.

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“…Two H-bond acceptors for His236. (a) Overlayed TNC from crystal structure 3cg8 in gold and 6s0o in blue highlighting the hydrogen bond of the Nd1 from the T3 histidine ligand His236/237 (Gabdulkhakov et al, 2019;Skálová et al, 2009). The c2 dihedral angle for histidine 236/237 is shown for both crystal structures.…”

Section: Supporting Figuresmentioning

confidence: 99%

“…The c2 dihedral angle for histidine 236/237 is shown for both crystal structures. Hydrogen bonds are shown as red lines; (b) Protons are modelled for the crystal structure 6s0o using the algorithm as implemented in UCSF Chimera (Gabdulkhakov et al, 2019;Pettersen et al, 2004). The values of the angles between [Asp114 Od1 -His237 Nd1 - (Dasgupta et al, 2020) while the 1 H resonance of 17 and 18 are broad (~ 1.1 ppm), which can affect the evolution period d2 in the 1 H-15 N HMQC ( Figure S2).…”

Section: Supporting Figuresmentioning

confidence: 99%

Supplementary material to "Towards resolving the complex paramagnetic NMR spectrum of small laccase: Assignments of resonances to residue specific nuclei"

Dasgupta¹,

Gupta²,

Groot³

et al. 2020

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Protein expression and purification SLAC-T1D and SLAC-T1D/Y108F were expressed and purified as described previously (Dasgupta et al., 2020; Machczynski et al., 2004). For 15 N histidine specific perdeuterated labelled sample, 50 mg/L of 15 N3-L-histidine hydrochloride monohydrate (Sigma Aldrich, USA) was added to the M9 medium consisting of ammonium chloride and D-glucose-1,2,3,4,5,6,6-d7 as nitrogen and carbon sources respectively. A volume of 200 µL of the M9 preculture was transferred to 25 mL of M9 medium prepared in 99.99% D2O for an overnight preculture, which was used to inoculate 500 mL D2O-M9 minimal medium. Gene expression and protein harvesting was done as for the uniform 15 N labelled sample. Purity was checked by SDS PAGE using a precast Bis-Tris gel (ThermoFischer scientific), as shown in Figure S1a. A band ~ 74 kDa is observed. Under native condition from size exclusion chromatography with multi-angle light scattering (SEC-MALS) the molecular weight of the proteins was ~ 105 kDa, in accord with the expected trimeric form. NMR spectroscopy Samples contained ~ 1 mM of protein in 10 mM sodium phosphate buffer pH 7.3 with 10% D2O. Experiments were done on a Bruker AV-III HD 600 MHz NMR spectrometer equipped with a TXI cryoprobe. 1D 1 H WEFT, Inversion recovery experiments to measure the spin-lattice relaxation rate and 2D 1 H-1 H EXSY/NOESY (Jeener et al., 1979) experiments were recorded as described previously (Dasgupta et al., 2020). The mixing time dependent integral volume profiles were fitted using equation described previously (Dasgupta et al., 2020; Farrow et al., 1994) with Igor Pro 6.3.7 to obtain the exchange rates. The fitting was done by constraining the Keq (Table S1) to the value of the ratio of the diagonal integral volume at 0 ms mixing time. The spin-lattice relaxation rates used in the fitting were obtained from inversion recovery experiments. 2D 1 H-15 N HMQC experiments were recorded using the pulse sequence shown in Figure S2. The transfer delay d2 was optimized to 0.5 ms to enhance the paramagnetically shifted signals > 20 ppm. Forty eight t1 increment points were acquired with 30720 number of scans corresponding to the total acquisition time of 54 h for each experiment.

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Investigations of Accessibility of T2/T3 Copper Center of Two-Domain Laccase from Streptomyces griseoflavus Ac-993

Cited by 24 publications

References 37 publications

The Resting Oxidized State of Small Laccase Analyzed with Paramagnetic NMR Spectroscopy

The Resting Oxidized State of Small Laccase Analyzed with Paramagnetic NMR Spectroscopy

Applications of Microbial Laccases: Patent Review of the Past Decade (2009–2019)

Supplementary material to "Towards resolving the complex paramagnetic NMR spectrum of small laccase: Assignments of resonances to residue specific nuclei"

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Investigations of Accessibility of T2/T3 Copper Center of Two-Domain Laccase from Streptomyces griseoflavus Ac-993

Cited by 24 publications

References 37 publications

The Resting Oxidized State of Small Laccase Analyzed with Paramagnetic NMR Spectroscopy

The Resting Oxidized State of Small Laccase Analyzed with Paramagnetic NMR Spectroscopy

Applications of Microbial Laccases: Patent Review of the Past Decade (2009–2019)

Supplementary material to &quot;Towards resolving the complex paramagnetic NMR spectrum of small laccase: Assignments of resonances to residue specific nuclei&quot;

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Supplementary material to "Towards resolving the complex paramagnetic NMR spectrum of small laccase: Assignments of resonances to residue specific nuclei"