Robert J. Brushia scite author profile

Small angle scattering data from bovine lung type I␣ cGMP-dependent protein kinase (PKG) in the absence of cGMP show the protein to have a highly asymmetric structure with a radius of gyration (R g ) of 45 Å and a maximum linear dimension (d max ) of 165 Å. The addition of cGMP induces a marked conformational change in PKG. The R g and d max increase 25-30%, and the protein's mass moves further away from the center of mass; this results in an even more asymmetric structure. Fourier transform infrared spectroscopy data suggest that the conformational change induced by cGMP binding is primarily due to a topographical movement of the structural domains of PKG rather than to secondary structural changes within one or more of the individual domains. Each monomer of the dimeric PKG contains one high and one low affinity cGMP-binding site. A prominent increase in the asymmetry of PKG occurs with binding to high affinity cGMP-binding sites alone, but the full domain movements require the binding to both sets of sites. These conformational changes occurring in PKG with the progressive binding of cGMP to both sets of cGMP-binding sites correlate with past data, which have indicated that cGMP binding to both sets of sites is required for the full activation of the enzyme. These results provide the first quantitative measurement of the overall PKG structure, as well as an assessment of the structural events that accompany the activation of a protein kinase upon binding a small molecular weight ligand.

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Baculovirus-Mediated Overexpression of the Phosphorylase b Kinase Holoenzyme and αγδ and γδ Subcomplexes

Kumar

Brushia

Hoye

et al. 2004

Biochemistry

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Recombinant baculoviruses were created and used to coexpress rat phosphorylase kinase (Phk) alpha, gamma, and delta subunits and rabbit beta subunit in insect cells. Coexpression allowed creation of the (alphabetagammadelta)4 hexadecamer, the alphagammadelta heterotrimer, and the gammadelta heterodimeric subcomplexes. Neither the individual alpha, beta, or gamma subunit nor any complex containing the beta subunit other than the hexadecameric holoenzyme was obtained in soluble form. The expressed complexes exhibited pH- and [Ca2+]-dependent specific activities that were similar to those of the Phk holoenzyme purified from rabbit skeletal muscle (SkM Phk). SkM Phk, expressed Phk, and the alphagammadelta subcomplex were activated by exogenous calmodulin and underwent Ca(2+)-dependent autophosphorylation. In some of these features there were subtle differences that could likely be attributed to differences in the covalent modification state of the baculovirus-driven expressed protein. Our results provide an important avenue to probe the detailed characterization of the structure of Phk and the function of the individual domains of the subunits using baculovirus-mediated expression of Phk and Phk subcomplexes.

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Baculovirus-mediated expression and purification of human serum paraoxonase 1A

Brushia

Forte

Oda

et al. 2001

Journal of Lipid Research

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Human paraoxonase 1 (hPON1) is a lipid-associated enzyme transported on HDL. There is considerable interest in hPON1 because of its putative antioxidative/ antiatherogenic properties. We have created a recombinant baculovirus (BV) to generate hPON1A in large quantities for structure-function studies and here describe the method for production and isolation of the enzyme. A high level of recombinant hPON1 type A (rPON1A) was produced by Hi-5 insect cells (40 mg/l); a fraction ( ϳ 10 mg/l) was secreted into the cell culture medium, but the majority ( ϳ 30 mg/l) remained associated with the host insect cells. Cell-associated rPON1A was purified by detergent extraction (Tergitol NP-10) followed by three simple chromatography steps (DEAE-Sepharose, Sephacryl S-200, and concanavalin A). The purified enzyme bound to concanavalin A and was converted to a lower molecular mass by endoglycosidase H digestion, suggesting that rPON1A contained high-mannose N -glycan chains. There was a significant decrease in arylesterase activity ( Ͼ 99%) concomitant with enzymatic deglycosylation. rPON1A was dependent on Ca 2 ؉ for arylesterase activity, exhibiting kinetic parameters similar to native hPON1A ( K m ‫؍‬ 3.8 ؎ 2.1 vs. 3.7 ؎ 2.0 mM and V max ‫؍‬ 1,305 ؎ 668 vs. 1,361 ؎ 591 U/mg protein, rPON1A and hPON1A, respectively). Both rPON1A and hPON1A efficiently inhibited lipoxygenase-mediated peroxidation of phospholipid. In contrast to the arylesterase activity, which was sensitive to endoglycosidase H treatment, enzymatic deglycosylation did not inhibit the antioxidant activity of rPON1A.In conclusion, our BV-mediated PON1A expression system appears ideally suited for the production of relatively large quantities of rPON1A for structure-function studies.-

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Robert J. Brushia

Phosphorylase kinase: the complexity of its regulation is reflected in the complexity of its structure

Progressive Cyclic Nucleotide-induced Conformational Changes in the cGMP-dependent Protein Kinase Studied by Small Angle X-ray Scattering in Solution

Baculovirus-Mediated Overexpression of the Phosphorylase b Kinase Holoenzyme and αγδ and γδ Subcomplexes

Baculovirus-mediated expression and purification of human serum paraoxonase 1A

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