Structure‐based thermodynamic analysis of the dissociation of protein phosphatase‐1 catalytic subunit and microcystin‐LR docked complexes

Lavigne, Pierre; Bagu, John R.; Boyko, Robert F.; Willard, Leigh; Holmes, Charles F.B.; Sykes, Brian D.

doi:10.1110/ps.9.2.252

Cited by 70 publications

(64 citation statements)

References 54 publications

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“…H. J. F. M., M. V., and G. M. are career members, and CQ fellow, of the Consejo Nacional de Investigaciones Científicas y Té cnicas (CONICET) of Argentina. were reranked using the program STC (21). The complexes that ranked best (i.e.…”

Section: Methodsmentioning

confidence: 99%

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Identification of a Site in Sar1 Involved in the Interaction with the Cytoplasmic Tail of Glycolipid Glycosyltransferases

Quintero¹,

Giraudo²,

Villarreal³

et al. 2010

Journal of Biological Chemistry

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Section: Methodsmentioning

confidence: 99%

“…1C). This site was further explored, and we found docked positions with free energy of binding between Ϫ8 and Ϫ10 kcal/mol using Autodock (20) and between Ϫ12 and Ϫ14 using STC (21). These binding energies suggest a high affinity constant, in the nanomolar order.…”

Section: Computational Docking Identified Potential Sites Of Interactmentioning

confidence: 95%

Identification of a Site in Sar1 Involved in the Interaction with the Cytoplasmic Tail of Glycolipid Glycosyltransferases

Quintero¹,

Giraudo²,

Villarreal³

et al. 2010

Journal of Biological Chemistry

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“…To find out the interactions between the SoxY and SoxZ proteins, as well as between thiosulfate ion and the SoxYZ complex structural thermodynamics calculator software package [27] and the Biopolymer module of Insight II were used.…”

Section: Calculation Of Protein-protein Interactionsmentioning

confidence: 99%

“…In order to find the mode of binding of the proteins and the binding of thiosulfate ion with the SoxYZ protein complex structural thermodynamics calculator (STC) [27] was used. The binding free energies of the SoxYZ complex and that of the soxYZ-thiosulfate complex were determined at temperatures ranging between 50˚C and 70˚C with an interval of 5˚C as SoxYZ complex of Htherm has an optimum temperature at 60˚C.…”

Section: Thermodynamic Analyses Of the Complexesmentioning

confidence: 99%

Structural analyses of the interactions of SoxY and SoxZ from thermo-neutrophilic <i>Hydrogenobacter thermophilus</i>

Bagchi¹,

Ghosh²

2011

JBPC

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Microbial redox reactions of inorganic sulfur compounds are one of the important reactions responsible for the recycling of this element to maintain the environmental sulfur balance. These reactions are carried out by phylogenetically diverse set of microorganisms. The sulfur oxidizing gene cluster (sox) of thermo-neutrophilic bacterium Hydrogenobacter thermophilus consists of soxYZAXB. The bacterium shows optimal thiosulfate oxidation activity at 60˚C. There are practically no reports regarding the structural biology of the sulfur oxidation process in this organism. In the present context, we employed homology modeling to construct the three dimensional structures of SoxY and SoxZ from Hydrogenobacter thermophilus. With the help of docking simulations we have identified the amino acid residues of these proteins involved in the interactions. The thermodynamics of the protein-protein interactions have also been analyzed. The probable biochemical mechanism of the binding of thiosulfate has been elucidated. Our study provides a rational framework to understand the molecular mechanism of the sulfur oxidation biochemistry.

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“…Several runs of flexidock were performed to obtain a series of model complexes. These complexes were analyzed and clustered in families based on the following: (i) score energy from flexidock results; (ii) agreement between the experimental data and the theoretical model (the interactions were examined with the LPC program (26)); and (iii) free energy of binding (⌬G bind ) calculated with Structural Thermodynamics Calculations version 4.3 (27). The representative conformer from each group was reoptimized.…”

mentioning

confidence: 99%

Elucidation of the Molecular Recognition of Bacterial Cell Wall by Modular Pneumococcal Phage Endolysin CPL-1

Pérez‐Dorado

Campillo

Monterroso

et al. 2007

Journal of Biological Chemistry

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Pneumococcal bacteriophage-encoded lysins are modular proteins that have been shown to act as enzymatic antimicrobial agents (enzybiotics) in treatment of streptococcal infections. The first x-ray crystal structures of the Cpl-1 lysin, encoded by the pneumococcal phage Cp-1, in complex with three bacterial cell wall peptidoglycan (PG) analogues are reported herein. The Cpl-1 structure is folded in two well defined modules, one responsible for anchoring to the pneumococcal cell wall and the other, a catalytic module, that hydrolyzes the PG. Conformational rearrangement of Tyr-127 is a critical event in molecular recognition of a stretch of five saccharide rings of the polymeric peptidoglycan (cell wall). The PG is bound at a stretch of the surface that is defined as the peptidoglycan-binding sites 1 and 2, the juncture of which catalysis takes place. The peptidoglycan-binding site 1 binds to a stretch of three saccharides of the peptidoglycan in a conformation essentially identical to that of the peptidoglycan in solution. In contrast, binding of two peptidoglycan saccharides at the peptidoglycan-binding site 2 introduces a kink into the solution structure of the peptidoglycan, en route to catalytic turnover. These findings provide the first structural evidence on recognition of the peptidoglycan and shed light on the discrete events of cell wall degradation by Cpl-1.Streptococcus pneumoniae is one of the most common and important human pathogens, which causes serious life-threatening diseases such as acute otitis media, pneumonia, sepsis, and meningitis. Pneumococcal infections are associated with high morbidity and mortality, especially among children, the elderly, and the immune-depressed patients. The widespread emergence of antibiotic resistance and the lack of highly effective pneumococcal vaccines against all serotypes of this organism give urgency to elucidation of the molecular processes involved in its pathogenicity (1, 2).The peptidoglycan (PG) 3 scaffold of the bacterial cell wall is a repeating GlcNAc-N-acetylmuramic (MurNAc) disaccharide (GlcNAc-(␤-1,4)-MurNAc) unit having a pentapeptide attached to the D-lactyl moiety of each MurNAc unit. All known pneumococcal bacteriophages encode an amidase or a lysozyme, which hydrolyzes the PG at the final stage of the phage reproductive cycle, leading to bacterial cell lysis. These enzymes, known collectively as endolysins, have been shown to be highly efficient in killing pneumococci in vitro and can eradicate this organism from the upper respiratory tract or from the bloodstream of mice (3, 4) acting as new antimicrobial agents (i.e. enzybiotics). In addition, Cpl-1 lysin and Pal amidase encoded by phage Dp-1 act in a synergistic manner in a sepsis mouse model (5); this synergy has also been confirmed in in vitro experiments with Cpl-1 and penicillin or gentamicin (6). Very recently, the creation of a new animal model of otitis media has been reported (7). Using this new mouse model, it has been demonstrated that Cpl-1 could eliminate colonization with S. p...

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Structure‐based thermodynamic analysis of the dissociation of protein phosphatase‐1 catalytic subunit and microcystin‐LR docked complexes

Cited by 70 publications

References 54 publications

Identification of a Site in Sar1 Involved in the Interaction with the Cytoplasmic Tail of Glycolipid Glycosyltransferases

Identification of a Site in Sar1 Involved in the Interaction with the Cytoplasmic Tail of Glycolipid Glycosyltransferases

Structural analyses of the interactions of SoxY and SoxZ from thermo-neutrophilic <i>Hydrogenobacter thermophilus</i>

Elucidation of the Molecular Recognition of Bacterial Cell Wall by Modular Pneumococcal Phage Endolysin CPL-1

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Structure‐based thermodynamic analysis of the dissociation of protein phosphatase‐1 catalytic subunit and microcystin‐LR docked complexes

Cited by 70 publications

References 54 publications

Identification of a Site in Sar1 Involved in the Interaction with the Cytoplasmic Tail of Glycolipid Glycosyltransferases

Identification of a Site in Sar1 Involved in the Interaction with the Cytoplasmic Tail of Glycolipid Glycosyltransferases

Structural analyses of the interactions of SoxY and SoxZ from thermo-neutrophilic &lt;i&gt;Hydrogenobacter thermophilus&lt;/i&gt;

Elucidation of the Molecular Recognition of Bacterial Cell Wall by Modular Pneumococcal Phage Endolysin CPL-1

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Structural analyses of the interactions of SoxY and SoxZ from thermo-neutrophilic <i>Hydrogenobacter thermophilus</i>