- Synthesis and evaluation of alternative substrates for arginase
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Two novel carboxyl-containing arginase substrates, 4-guanidino-3-nitrobenzoic acid and 4-guanidino-2-nitrophenylacetic acid, have been synthesized and found to give enhanced catalysis and dramatically lower Km values relative to 1-nitro-3-guanidinobenzene, a substrate designed for use in a chromophoric arginase assay. To more efficiently mimic the natural substrate, a series of sulfur analogs of L-arginine were synthesized and kinetically characterized. The parent compound, L-thioarginine, with the bridging guanidinium nitrogen of L-arginine replaced with sulfur, functions as efficiently as the natural substrate. The desamino analog shows extremely low turnover, while the kcat of the descarboxy analog is only 75-fold lower than that of arginine. These results suggest that the bridging nitrogen of L-arginine is not important for either substrate binding or catalysis, while the α-carboxyl group facilitates substrate binding, and the α-amino group is necessary for efficient catalysis. Isothiourea homologs previously reported to be nitric oxide synthase inhibitors have been found to undergo a rapid non-enzymatic rearrangement to a species that is probably the true inhibitor.
- Han, Shoufa,Moore, Roger A.,Viola, Ronald E.
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- Synthesis and evaluation of some nitrobenzenesulfonamides containing nitroisopropyl and (ureidooxy)methyl groups as novel hypoxic cell selective cytotoxic agents
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Basic nitrobenzenesulfonamides containing nitroisopropyl and (ureidooxy)methyl groups were prepared and evaluated as novel hypoxic cell selective cytotoxic agents. In vitro, N-(2-aminoethyl)-N-methyl-3-nitro-4-(1-methyl-1-nitroethyl) benzenesulfonamide hy
- Saari,Schwering,Lyle,Engelhardt,Sartorelli,Rockwell
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p. 3132 - 3138
(2007/10/02)
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