Search Results - "Steczko, J"

Primary structure of soybean lipoxygenase-1 by Shibata, D., Steczko, J., Dixon, J.E., Hermodson, M., Yazdanparast, R., Axelrod, B.

“…The primary structure of lipoxygenase-1 from soybeans has been determined. The results were deduced from the nucleotide sequence of the complete cDNA for…”
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Primary structure of soybean lipoxygenase L-2 by Shibata, D, Steczko, J, Dixon, J E, Andrews, P C, Hermodson, M, Axelrod, B

“…The nucleotide sequence of soybean lipoxygenase-2 cDNA has been determined, and the complete amino acid sequence of the enzyme has been deduced. Limited direct…”
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Cytokines and Endotoxin Removal by Sorbents and Its Application in Push-Pull Sorbent-Based Pheresis: The Biologic-DTPF System by Steczko, Janusz, Ash, Stephen R., Blake, Donald E., Carr, David J., Bosley, Rebecca H.

“…The BioLogic‐DTPF System (DTPF) combines the Biologic‐DT hemodiabsorption system (DT) in series with the Biologic PF push–pull pheresis system (PF) in which PF…”
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Conserved histidine residues in soybean lipoxygenase: functional consequences of their replacement by Steczko, Janusz, Donoho, Greg P, Clemens, James C, Dixon, Jack E, Axelrod, Bernard

“…Sequences of 13 lipoxygenases from various plant and mammalian species, thus far reported, display a motif of 38 amino acid residues which includes 5 conserved…”
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Effect of hemodiabsorption and sorbent-based pheresis on amino acid levels in hepatic failure by Steczko, J, Bax, K C, Ash, S R

“…Changes in plasma amino acid concentrations were measured in patients with hepatic failure during extracorporeal hemodiabsorption (using the Liver Dialysis…”
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Identification of the iron-binding histidine residues in soybean lipoxygenase L-1 by Steczko, J, Axelrod, B

“…Lipoxygenases constitute a class of non-heme, non-sulfur iron dioxygenases acting upon lipids possessing a 1,4-cis-cis-pentadiene moiety. The iron is known to…”
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Effect of a solution containing citrate/Methylene Blue/parabens on Staphylococcus aureus bacteria and biofilm, and comparison with various heparin solutions by Sauer, Karin, Steczko, Janusz, Ash, Stephen R.

“…Objectives Some antibiotic solutions increase bacterial resistance and may cause toxic side effects. Heparin, frequently used as an anticoagulant in catheter…”
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Crystallization and preliminary X‐ray investigation of lipoxygenase‐3 from soybeans by Axelrod, Bernard, Steczko, Janusz, Minor, Wladek, Stojanoff, Vivian

“…Soybean lipoxygenase‐3 has been crystallized by the vapor diffusion method in 16–20% polyethylene glycol (average Mr, 3,400), 0.2 M sodium acetate buffer, pH…”
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Push-pull sorbent-based pheresis treatment in an experimental canine endotoxemia model: preliminary report by Peter, A T, Ash, S R, Steczko, J, Turek, J J, Blake, D E, Carr, D J, Knab, W R, Bosley, R H

“…The Biologic-DTPF System (DTPF), an extracorporeal blood treatment device with potential to treat sepsis, was tested in a preliminary study using a canine…”
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Microbial inactivation properties of a new antimicrobial/antithrombotic catheter lock solution (citrate/methylene blue/parabens) by Steczko, Janusz, Ash, Stephen R., Nivens, David E., Brewer, Lloyd, Winger, Roland K.

“…Background. Microbial infections are the most serious complications associated with indwelling central venous catheters. A catheter lock solution that is both…”
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Crystal Structure of Soybean Lipoxygenase L-1 at 1.4 Å Resolution by Minor, Wladek, Steczko, Janusz, Stec, Boguslaw, Otwinowski, Zbyszek, Bolin, Jeffrey T, Walter, Rick, Axelrod, Bernard

“…Lipoxygenases, which are widely distributed among plant and animal species, are Fe-containing dioxygenases that act on lipids containing (Z,Z)-pentadiene…”
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Crystallization and preliminary X-ray investigation of lipoxygenase 1 from soybeans by STECZKO, J, MUCHMORE, C. R, SMITH, J. L, AXELROD, B

“…Soybean lipoxygenase 1 has been crystallized by the vapor diffusion method in 8-10% polyethylene glycol (average Mr 3400), 0.2 M sodium acetate buffer, pH…”
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Catalytic and immunochemical properties of arylsulphatase A from urine, modified by potassium ferrate by Laidler, P M, Steczko, J

“…Arylsulphatase A (EC 3.1.6.1.) from urine was inactivated with potassium ferrate, a strong oxidizing agent. The inhibition could be prevented by competitive…”
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Identification of the target amino acids in the site-specific inactivation of triose phosphate isomerase by ferrate anion by Steczko, J, Hermodson, M, Axelrod, B, Dziembor-Kentzer, E

“…Ferrate anion, an analog of orthophosphate anion, very rapidly inactivates triose phosphate isomerase from chicken muscle. The inactivation can be prevented by…”
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Push-Pull Sorbent-Based Pheresis and Hemodiabsorption in the Treatment of Hepatic Failure: Preliminary Results of a Clinical Trial with the BioLogic-DTPF System by Ash, S.R., Steczko, J., Knab, W.R., Blake, D.E., Carr, D.J., Harker, K.D., Levy, H.

“…: The BioLogic‐DTPF System combines hemodiabsorption (the BioLogic‐DT System with dialysis against powdered sorbent) with push‐pull sorbent‐based pheresis (the…”
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Identification of histidine-119 as the target in the site-specific inactivation of ribonuclease A by ferrate ion by Steczko, J, Walker, D E, Hermodson, M, Axelrod, B

“…Ferrate ion, a powerful oxidant which is an analog of orthophosphate ion, has previously shown some promise as a site-specific probe of enzymes which interact…”
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Inactivation of the NADH-dependent activities of nitrate reductase by ferrate by Ramadoss, C S, Steczko, J, Axelrod, B

“…Nitrate reductase (EC 1.6.6.1) from Chlorella vulgaris, a flavin-cytochrome-molybdenum enzyme, catalyses two types of partial reactions: reduction of exogenous…”
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Proton NMR study of the interaction of riboflavin with the egg-yolk apoprotein by Lubas, B., Sołtysik, M., Steczko, J., Ostrowski, W.

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Effect of antibody on interaction between vitamin B2 and riboflavin apoprotein by Weber, M, Zak, Z, Steczko, J

“…1. Dissociation of riboflavin from flavoprotein and from the flavoprotein-antibody complex occurs under the same conditions. 2. The precipitated…”
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Uncovering a Calcium-Regulated Membrane-Binding Mechanism for Soybean Lipoxygenase-1 by Tatulian, Suren A, Steczko, Janusz, Minor, Wladek

“…Lipoxygenases catalyze the biosynthesis of leukotrienes, lipoxins, and other lipid-derived mediators that are involved in a wide variety of pathophysiological…”
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