Aberrant,canavanyl protein formation and the ability to tolerate or utilize L-canavanine |
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| Authors: | G. A. Rosenthal M. A. Berge J. A. Bleiler T. P. Rudd |
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| Affiliation: | (1) T. H. Morgan School of Biological Sciences, University of Kentucky, 40506 Lexington, Kentucky, USA;(2) Graduate Center for Toxicology, University of Kentucky, 40506 Lexington, Kentucky, USA |
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| Abstract: | ![]()
Summary L-Canavanine, 2-amino-4-(guanidinooxy)butyric acid, and L-arginine incorporation into de novo synthesized proteins was compared in six organisms. Utilizing L-[guanidinooxy14C]canavanine and L-[guanidino14C]arginine at substrate saturation, the canavanine to arginine incorporation ratio was determined in de, novo synthesized proteins.Caryedes brasiliensis andSternechus tuberculatus, canavanine utilizing insects;Canavalia ensiformis, a canavanine storing plant; and to a lesser extentHeliothis virescens, a canavanine resistant insect, failed to accumulate significant canavanyl proteins. By contrast,Manduca sexta, a canavanine-sensitive insect, andGlycine max, a canavanine free plant, readily incorporated canavanine into newly synthesized proteins. This study supports the contention that the incorporation of canavanine into proteins in place of arginine contributes significantly to canavanine's antimetabolic properties. |
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| Keywords: | L-Canavanine M. sexta H. virescens C. brasiliensis S. tuberculatus G. max C. ensiformis aberrant protein production |
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