Two isozymes of 3-deoxy-D-arabino-heptulosonate 7-phosphate (DAHP) synthase, denoted DS-Mn and DS-Co, were identified following DEAE-cellulose chromatography of crude extracts prepared from suspension-cultured cells of Nicotiana silvestris. The strikingly different properties of the isozymes allowed the development of assays for the selective detection of either isozyme in samples containing a mixture of the two. The DS-Mn isozyme required the sulfhydryl reductant, dithiothreitol, for activity and was stimulated by manganese. Activation by dithiothreitol was slow relative to catalysis, accounting for a hysteretic progress curve that was observed when reactions were started with inactive enzyme. The DS-Co isozyme was inhibited by dithiothreitol and required a divalent cation for activity. At optimal cation concentrations of 10 millimolar (magnesium), 0.5 millimolar (cobalt), and 0.5 millimolar (manganese), relative activities obtained were 100, 85, and 20, respectively. The substrate saturation curves with respect to erythrose 4-phosphate differed markedly when the two isozymes were compared. As little as 0.5 millimolar erythrose 4-phosphate saturated DS-Mn, whereas a 10-fold higher concentration was needed for saturation of DS-Co. The pH optimum of DS-Mn was 8.0, while that of the DS-Co isozyme was 8.6. Leaves of both N. silvestris and spinach also exhibited the DS-Mn/ DS-Co isozyme arrangement, and the subcellular location of DS-Mn was shown to be the chloroplast compartment. By application of the differential assays for DAHP synthase isozymes, various monocotyledonous and dicotyledonous plants yielded data indicating the general presence of the DS-Mn/DS-Co isozyme pair in higher plants.biosynthesis and the separate subcellular location of such isozymes is just developing (16,17). The best studied example is chorismate mutase, shown in Nicotiana silvestris to exist as two isozymes (11,12): an allosterically controlled species (CM-1) being located in plastids and an unregulated species (CM-2) being located in the cytosol (7). Two isozymes of DAHP synthase were identified in Vigna radiata (23,24), and were denoted DAHP synthase-Mn (stimulated by, but not requiring Mn) and DAHP synthase-Co (requiring Co, Mg, or Mn for activity). This pair of DAHP synthase isozymes was also isolated from leaves of N. silvestris (9). When assay conditions were optimized for either isozyme, the activity of the remaining isozyme was barely detectable.The markedly distinct properties of DS-Mn and DS-Co from N. silvestris have been exploited to define assay conditions for exclusive assay of either one of the two isozymes in mixtures. A reliable methodology to discriminate DAHP synthase isozymes in crude extracts is particularly valuable for subcellular localization studies as well as assessment of the variation in isozyme levels in response to developmental and regulatory changes. Although DAHP synthase from a variety of plants has been studied (14,15,(20)(21)(22)26), particular assay conditions employed would have favored in mo...
The subcellular locations of two readily discriminated chorismate-mutase (EC 5.4.99.5) isoenzymes from Nicotiana silvestris Speg. et Comes were determined in protoplasts prepared from both leaf tissue and isogenic suspension-cultured cells. Differential centrifugation was used to obtain fractions containing plastids, a mixture of mitochondria and microbodies, and soluble cytosolic proteins. Isoenzyme CM-1 is sensitive to feedback inhibition by L-tyrosine and comprises the major fraction of total chorismate mutase in suspension-cultured cells. Isoenzyme CM-2 is not inhibited by L-tyrosine and its expression is maximal in organismal (leaf) tissue. Isoenzyme CM-1 is located in the plastid compartment since (i) proplastids contained more CM-1 activity than chloroplasts, (ii) both chloroplast and proplastid fractions possessed the tyrosine-sensitive isoenzyme, and (iii) latency determinations on washed chloroplast preparations confirmed the internal location of a tyrosine-sensitive isoenzyme. Isoenzyme CM-2 is located in the cytosol since (i) the supernatant fractions were heavily enriched for the tyrosineinsensitive activity, and (ii) a relatively greater amount of tyrosine-insensitive enzyme was present in the supernatant fraction derived from organismal tissue.
The focal point of phenylalanine biosynthesis is a dehydratase reaction which in different organisms may be prephenate dehydratase, arogenate dehydratase, or cyclohexadienyl dehydratase. Gram-positive, Gram-negative, and cyanobacterial divisions of the eubacterial kingdom exhibit different dehydratase patterns. A new extreme-halophile isolate, which grows on defined medium and is tentatively designated as Halobacterium vallismortis CH-1, possesses the interlock type of prephenate dehydratase present in Gram-positive bacteria. In addition to the conventional sensitivity to feedback inhibition by L-phenylalanine, the phenomenon of metabolic interlock was exemplified by the sensitivity of prephenate dehydratase to allosteric effects produced by extra-pathway (remote) effectors. Thus, L-tryptophan inhibited activity while L-tyrosine, L-methionine, L-leucine and L-isoleucine activated the enzyme. L-Isoleucine and L-phenylalanine were effective at micromolar levels; other effectors operated at mM levels. A regulatory mutant selected for resistance to growth inhibition caused by beta-2-thienylalanine possessed an altered prephenate dehydratase in which a phenomenon of disproportionately low activity at low enzyme concentration was abolished. Inhibition by L-tryptophan was also lost, and activation by allosteric activators was diminished. Not only was sensitivity to feedback inhibition by L-phenylalanine lost, but the mutant enzyme was now activated by this amino acid (a mutation type previously observed in Bacillus subtilis). It remains to be seen whether this type of prephenate dehydratase will prove to be characteristic of all archaebacteria or of some archaebacterial subgroup cluster.
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