Abstract
Aspartate transcarbamoylase labeled with 3-fluorotyrosine was purified from an Escherichia coli strain which was auxotrophic for tyrosine and overproduced aspartate transcarbamoylase upon uracil starvation. The labeled enzyme in which about 85% of the tyrosines were replaced by fluorotyrosine exhibited high enzyme activity that varied in a sigmoidal manner with respect to the aspartate concentration. Also, the labeled enzyme was inhibited by CTP, activated by ATP, and exhibited a 2.6% decrease in sedimentation coefficient upon the addition of the active-site ligand, N-(phosphonacetyl)-L-aspartate. Thus, despite extensive replacement of tyrosines by fluorotyrosine, the modified enzyme was similar to native aspartate transcarbamoylase. The 19F nuclear magnetic resonance spectrum of isolated regulatory subunits labeled with fluorotyrosine consisted of a single peak. Addition of the activator, ATP, or the inhibitor, CTP, caused a loss of intensity at about 61.3 ppm upfield from a trifluoroacetic acid reference and an increase at about 61.5 ppm, but CTP also caused an increase at about 61.0 ppm. Five overlapping resonances were observed in the 19F NMR spectrum of unliganded catalytic subunits containing fluorotyrosine. Although the binding of the bisubstrate analog, N-(phosphonacetyl)-L-aspartate, or the combination of carbamoylphosphate and succinate caused similar disappearances of resonances, the addition of N-(phosphonacetyl)-L-aspartate caused the appearance of resonances not observed with carbamoylphosphate plus succinate. Carbamoylphosphate alone perturbed three or four resonances and the subsequent addition of succinate affected at least two.
Highlights
From the Departments of Biochemistry and Molecular Biology and the Virus Laboratory, Wendell M
The holoenzyme, composedof 2 catalytic enzyme was inhibitedby CTP, activated by ATP, and (C)trimersand3 regulatory (R) dimers [4,5,6,7,8,9],is readily exhibited a 2.6% decrease in sedimentationcoefficient dissociated into independent Cand R subunits with the upon the addition of the active-site ligand, N-(phos- former possessing catalytic activity but lacking positive coopphonacetyl)-t-aspartate.despiteextensive replacement of tyrosines by fluorotyrosine, the modified enzyme was similar to native aspartate transcarerativity, inhibition Isolated R subunits by CTPand activation bind CTP and ATP (4, by lo), ATP [4]. and their bamoylase
Number of probes in the RandCsubunits.Inthis way information from different chains in the ATCase molecules can be obtained with a single derivative. 13CNMR spectroscopy has been used to study R and C subunits labeled with phenylalanine, tyrosine, and histidine enriched with 13Cat the y carbon [23,24]. 13CNMR yielded information about perturbations promoted by the binding of CTP and ATP to R subunits and the binding of N-(phosphonacety1)
Summary
From the Departments of Biochemistry and Molecular Biology and the Virus Laboratory, Wendell M. Thebinding of the conformational changes [22], and itshould be possible to use bisubstrateanalog, N-(phosphonacety1)-L-aspartate, NMR spectroscopy to follow simultaneously signals from a or the combination of carbamoylphosphate and succinate caused similar disappearances of resonances, the addition of N-(phosphonacety1)-I.-aspartatecaused the appearance of resonances not observed with carbamoylphosphate plus succinate. Number of probes in the RandCsubunits.Inthis way information from different chains in the ATCase molecules can be obtained with a single derivative. 13CNMR spectroscopy has been used to study R and C subunits labeled with phenylalanine, tyrosine, and histidine enriched with 13Cat the y carbon [23,24]. 13CNMR yielded information about perturbations promoted by the binding of CTP and ATP to R subunits and the binding of N-(phosphonacety1)-
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