E. Lalor scite author profile

A labile GSH transferase homodimer termed 11-11 was purified from rat testis by GSH-agarose affinity chromatography followed by anion-exchange f.p.l.c. The enzyme is unstable in the absence of thiol(s) and has relatively low affinity for both 1-chloro-2,4-dinitrobenzene (Km 4.4 mM) and GSH (Km(app.) 4.4mM). Its mobility on SDS/polyacrylamide-gel electrophoresis is slightly less than that of subunits 3 and 4 and its pI is 5.2. Subunit 11 has a blocked N-terminal amino acid residue, but after CNBr cleavage fragments accounting for 113 amino acid residues were sequenced and showed 65% homology with corresponding sequences in subunit 4, indicating that it is a member of the Mu family. GSH transferase 11 is a major isoenzyme in testis, epididymis, prostate and brain and present at lower concentrations in other tissues.

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Single-step purification and h.p.l.c. analysis of glutathione transferase 8–8 in rat tissues

Meyer

Lalor

Coles

et al. 1989

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GSSG selectively elutes two GSH transferases from a mixture of rat GSH transferases bound to a GSH-agarose affinity matrix. One is a form of GSH transferase 1-1 and the other is shown to be GSH transferase 8-8. By using tissues that lack this form of GSH transferase 1-1 (e.g. lung), GSH transferase 8-8 may thus be purified from cytosol in a single step. Quantitative analysis of the tissue distribution of GSH transferase 8-8 was obtained by h.p.l.c.

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The Release of Yeast Proteolytic Enzymes Into Beer

Ormrod

Lalor²,

Sharpe³

1991

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Evaluation of three thermostable fungal endo-β-glucanases from Talaromyces emersonii for brewing and food applications

McCarthy

Hanniffy

Lalor³

et al. 2005

Process Biochemistry

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Comparison of wild-type and UV-mutant β-glucanase-producing strains of Talaromyces emersonii with potential in brewing applications

McCarthy

Lalor²,

Hanniffy

et al. 2005

J IND MICROBIOL BIOTECHNOL

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A screen of 46 UV-mutant strains of the moderately thermophilic fungus Talaromyces emersonii yielded two mutants (TC2, TC5) that displayed gross morphological differences to the parent strain and enhanced activity against mixed linkage cereal beta-glucans. Activity against beta-(1, 3)(1, 4)-D: -glucan from barley (BBGase) was measured during growth of the mutant and wild-type strains on a variety of carbon sources, ranging from solka floc to crude cereal fractions. In liquid culture, TC2 and TC5 secreted 1.2- to 8.6-fold more BBGase than the parent strain and markedly less beta-glucosidase (exo-activity); enzyme levels were dependent on the carbon source. Cellulose induced high BBGase. However, beet pulp, wheat bran, carob and tea-leaves were cheap and effective inducers. T. emersonii wild-type, TC2 and TC5 crude enzyme preparations achieved similar end-points during the hydrolysis of commercial barley beta-glucan (13.0-16.9%), but were more active against crude beta-glucan from barley (16.0-24.2% hydrolysis). The products of hydrolysis were quantified by high-performance anion-exchange chromatography. Mash trials indicated that enzyme preparations from all three organisms effected a significant reduction in wort viscosity and residual mash beta-glucan. Finally, TC2 and TC5 produce more efficient beta-glucan-depolymerizing enzymes; and wheat bran and solka floc can be used to provide inexpensive and potent enzyme cocktails with potential in brewing applications.

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E. Lalor

Purification and characterization of a labile rat glutathione transferase of the Mu class

Single-step purification and h.p.l.c. analysis of glutathione transferase 8–8 in rat tissues

The Release of Yeast Proteolytic Enzymes Into Beer

Evaluation of three thermostable fungal endo-β-glucanases from Talaromyces emersonii for brewing and food applications

Comparison of wild-type and UV-mutant β-glucanase-producing strains of Talaromyces emersonii with potential in brewing applications

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