Brian N. Blanchette scite author profile

The aquatic environment is generally affected by the presence of environmental xenobiotic compounds. One of the major xenobiotic detoxifying enzymes is glutathione S-transferase (GST), which belongs to a family of multifunctional enzymes involved in catalyzing nucleophilic attack of the sulfur atom of glutathione (gamma-glutamyl-cysteinylglycine) to an electrophilic group on metabolic products or xenobiotic compounds. Because of the unique nature of the aquatic environment and the possible pollution therein, the biochemical evolution in terms of the nature of GSTs could by uniquely expressed. The full complement of GSTs has not been studied in marine organisms, as very few aquatic GSTs have been fully characterized. The focus of this article is to present an overview of the GST superfamily and their critical role in the survival of organisms in the marine environment, emphasizing the critical roles of GSTs in the detoxification of marine organisms and the unique characteristics of their GSTs compared to those from non-marine organisms.

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Purification and Characterization of the Glutathione-S-transferases from the Northern Quahog Mercinaria mercinaria

Blanchette

Singh

1999

Mar. Biotechnol.

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: Glutathione-S-transferase (GST) was isolated from the northern hardshell clam Mercinaria mercinaria (quahog) using a two-step procedure involving ammonium sulfate precipitation and affinity chromatography. Kinetic analysis of the purified enzyme using 1-chloro-2,4-dinitrobenzene as substrate revealed a specific activity of 38.0 µmol min-1 mg-1, while Vmax and Km values were estimated as 48.0 µmol min-1 mg-1 and 0.24 mM, respectively. Electrophoretic analysis of GST indicated multiple forms of the dimeric enzyme in quahogs with subunit molecular masses of 22, 24, 25, and 27 kDa. Isoelectric focusing analysis resulted in pI values for three isoenzymes of 5.1, 4.9, and 4.6. The acidic pI values obtained indicated that quahog GST belongs to the pi class. Inhibition of quahog GST by tetrapyrroles was similar to that of GST from oyster and rat liver. Quantitative comparison of tetrapyrrole inhibition patterns of quahog GST with those of oyster and rat liver GST indicated lower inhibition rates by three of the four tetrapyrroles tested (bilirubin, biliverdin, and chlorophillyin), suggesting that quahog GST could differ structurally or functionally from oyster and rat liver GSTs.

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An Enzyme Based Dechlorination of a Polychlorinated Biphenyl (PCB) Mixture, Aroclor 1248, Using Glutathione S-Transferases from the Northern Quahog Mercenaria mercenaria

Blanchette

Singh

2003

J Protein Chem

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The glutathione S-transferases from the northern quahog (Mercenaria mercenaria) from control and contaminated sites were subjected to incubation with polychlorinated biphenyls in an Aroclor 1248 mixture. Subsequent solvent-solvent extraction and gas chromatographic analysis revealed that 2 of the 28 congeners present in the Aroclor 1248 mixture were affected by the presence of the GST. The first of the aforementioned congeners with a retention time of 36.7 min by gas chromatographic analysis decreased in total content. The largest decrease in the 36.7 min peak was the result of incubation with GSTs purified from quahogs taken from the Superfund site in New Bedford Harbor, New Bedford, MA. The second of the affected congeners with a retention time of 59 min showed an increase, which could result from the glutathione conjugation to the PCB congener. The Aroclor 1248 mixture (a limited number of its constituent congeners) also acts as a competitive inhibitor of the GST activity, which is indicative of a substance interacting with the free GST in solution. The ultimate result of the conjugation of the PCB congener to GSH would be the formation of a hydrophillic conjugate of an otherwise insoluble PCB. The PCB-GSH conjugating activity of the quahog GSTs may ultimately serve as a tool for PCB remediation.

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A single protein research integrated advanced biochemistry laboratory course; spectroscopic determination of tyrosyl side chain pKa

Blanchette

Singh

2000

Biochemical Education

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The unique bio-analytical properties of the amino acid tyrosine (Tyr) are the focus of this experiment from the research oriented biochemistry laboratory course at our university. In the present study pK(a(1)), pK(a(2)), and pK(a(3)) values for free Tyr were estimated to be 2.30, 9.40, and 9.97, respectively, when free Tyr was titrated with 1mM NaOH and 1mM HCl using a pH meter. Spectrophotometric analysis of the phenolic side chain pK(a(3)) revealed a value of 10.14, which was consistent with the pK(a)s estimated from the pH meter. The results from this experiment will allow students to compare the free Tyr properties with those present in a protein.

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Isolation and Characterization of Glutathione-S-Transferase Isozyme Q3 from the Northern Quahog, Mercinaria mercinaria

Blanchette

Singh

2002

J Protein Chem

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Three glutathione-S-transferase (GST) isozymes (Q1, Q2, and Q3) from the northern quahog (Mercinaria mercinaria) were purified and separated with a combination of affinity and ion exchange chromatography. SDS-PAGE analysis of the separated quahog GSTs indicated there are four distinct subunits of the enzyme with molecular masses ranging between 23 and 27 kDa. The electrophoretic analysis in combination with GST information from literature indicates that among the quahog GST isozymes, there is a single homodimer and two heterodimers. Enzymatic kinetic analysis of the homodimeric quahog GST (Q3) using 1-chloro-2,4-dinitrobenzene and glutathione as reactants resulted in Vmax and Km values of 33.2 micromol min(-1) mg(-1) and 0.40 mM, respectively. A pH profile analysis of the Q3 GST indicates that the optimum catalytic pH is 7.6. The Q3 isozyme composes about 28% of the ion exchange purified GSTs but accounts for only 9% of the total GST enzymatic activity (25 micromol min(-1) mg(-1). An analysis investigating the dependence of the Q3 GST activity on temperature resulted in a retention of enzymatic activity (50-30% at temperature extremes from -13 degrees C to 100 degrees C), suggesting a unconventional role for the Q3 GST in quahog metabolism.

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