Recognition of specific patterns of amino acid inhibition of growth in higher plants, uncomplicated by glutamine-reversible `general amino acid inhibition''

The complexity of the regulatory mechanisms that govern amino acid biosynthesis, particularly in multibranched pathways, frequently results in sensitivity to growth inhibition by exogenous amino acids. Usually the inhibition caused by a given amino acid(s) is relieved by another amino acid(s), thus indicating the cause of inhibition to be a specific interference with endogenous formation of the latter amino acid(s). We recently summarized the evidence that Nicotiana silvestris (and probably most higher plants), in suspension culture, exhibits a separate phenomenon of amino acid mediated growth inhibition called general amino acid inhibition. Every amino acid provokes general amino acid inhibition except for

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-glutamine. In fact,

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-glutamine completely overcomes general amino acid inhibition. We have now demonstrated that specific amino acid inhibition can be recognized and characterized at the level of growth inhibition without interference caused by general amino acid inhibition by the simple provision of exogenous

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-glutamine. Several examples of specific amino acid inhibition of growth were demonstrated in N. silvestris. In one case,

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-threonine inhibits growth partially in the presence of

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-glutamine. The residual amino acid inhibition was overcome by the additional presence of

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-lysine and

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-methionine, indicating that exogenous

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-threonine specifically inhibits the biosynthesis of both

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-lysine and

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-methionine. As a second example, the

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-valine-mediated inhibition of growth that persisted in the presence of

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-glutamine was overcome by

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-isoleucine, indicating that exogenous

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-valine inhibits

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-isoleucine biosynthesis. The use of amino acid analogs as experimental tools for biochemical-genetic studies in higher plants is also complicated by general amino acid inhibition. Conditions were demonstrated under which p-fluorophenylalanine and m-fluorotyrosine could be used as specific antimetabolites of

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-phenylalanine and

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-tyrosine biosynthesis without interference from general amino acid inhibition. We thus present a rigorous basis for recognition of specific relationships between metabolic branches that can guide detailed enzymological analyses.