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pubmed-article:16666969pubmed:abstractTextComprehensive studies were made with Lemna paucicostata Hegelm. 6746 of the effects of combinations of lysine, methionine, and threonine on growth rates, soluble amino acid contents, aspartokinase activities, and fluxes of 4-carbon moieties from aspartate through the aspartokinase step into the amino acids of the aspartate family. These studies show that flux in vitro through the aspartokinase step is insensitive to inhibition by lysine or threonine, and confirm previous in vitro data in establishing that aspartokinase in vivo is present in two orders of magnitude excess of its requirements. No evidence of channeling of the products of the lysine- and threonine-sensitive aspartokinases was obtained, either form of the enzyme alone being more than adequate for the combined in vivo flux through the aspartokinase step. The marked insensitivity of flux through the aspartokinase step to inhibition by lysine or threonine strongly suggests that inhibition of aspartokinase by these amino acids is not normally a major factor in regulation of entry of 4-carbon units into the aspartate family of amino acids. Direct measurement of fluxes of 4-carbon units demonstrated that: (a) Lysine strongly feedback regulates its own synthesis, probably at the step catalyzed by dihydrodipicolinate synthase. (b) Threonine alone does not regulate its own synthesis in vivo, thereby confirming previous studies of the metabolism of [(14)C]threonine and [(14)C]homoserine in Lemna. This finding excludes not only aspartokinases as an important regulatory determinant of threonine synthesis, but also two other enzymes (homoserine dehydrogenase and threonine synthase) suggested to fulfill this role. Complete inhibition of threonine synthesis was observed only in the combined presence of accumulated threonine and lysine. The physiological significance of this single example of apparent regulation of flux at the aspartokinase step, albeit under unusually stringent conditions of aspartokinase inhibition, remains to be determined. (c) Isoleucine strongly inhibits its own synthesis, probably at threonine dehydratase, without causing compensatory reduction in threonine synthesis. A fundamentally changed scheme for regulation of synthesis of the aspartate family of amino acids is presented that has important implications for improvement of the nutritional contents of these amino acids in plants.lld:pubmed
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pubmed-article:16666969pubmed:authorpubmed-author:MuddS HSHlld:pubmed
pubmed-article:16666969pubmed:authorpubmed-author:GiovanelliJJlld:pubmed
pubmed-article:16666969pubmed:authorpubmed-author:DatkoA HAHlld:pubmed
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pubmed-article:16666969pubmed:pagination1584-99lld:pubmed
pubmed-article:16666969pubmed:dateRevised2010-9-15lld:pubmed
pubmed-article:16666969pubmed:year1989lld:pubmed
pubmed-article:16666969pubmed:articleTitleRegulatory Structure of the Biosynthetic Pathway for the Aspartate Family of Amino Acids in Lemna paucicostata Hegelm. 6746, with Special Reference to the Role of Aspartokinase.lld:pubmed
pubmed-article:16666969pubmed:affiliationLaboratory of General and Comparative Biochemistry, National Institute of Mental Health, Bethesda, Maryland 20892.lld:pubmed
pubmed-article:16666969pubmed:publicationTypeJournal Articlelld:pubmed
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