Regulation of aspartokinase activity in the genus Beneckea and marine,luminous bacteria |
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Authors: | Linda Baumann Paul Baumann |
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Affiliation: | (1) Department of Microbiology, University of Hawaii, 96822 Honolulu, Hawaii |
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Abstract: | Summary The pattern of allosteric regulation of aspartokinase activity was determined in species of Beneckea and in the marine, luminous bacteria. The results indicated that these organisms have at least three isofunctional aspartokinases of which the first is inhibited by l-threonine, the second is inhibited by l-lysine, and the third is unaffected by either l-threonine or l-lysine. The homoserine dehydrogenase activity is clearly separable from the l-lysine-sensitive aspartokinase, that may be associated with one (or both) of the other isofunctional aspartokinases.The species of Beneckea and luminous bacteria studied varied in the relative levels of the three isofunctional aspartokinases. B. parahaemolytica, B. alginolytica, B. pelagia, B. neptuna, B. harveyi, B. nigrapulchrituda, B. natriegens, and Photobacterium fischeri had predominant levels of the l-lysine-sensitive activity; B. campellii, P. phosphoreum, and P. mandapamensis had predominant levels of the l-threonine-sensitive activity; while in B. nereida these two activities were approximately equivalent. Species of Beneckea could be distinguished from P. fischeri on the basis of the sensitivity of their aspartokinase activities to inhibition by l-lysine. In P. fischeri 10.3×10-5 M l-lysine was required for a 50% inhibition of the l-lysine-sensitive enzyme, while in species of Beneckea 0.5–2.7×10-5 M l-lysine was required to achieve the same level of inhibition.Non-standard abbreviations DAHP 3-deoxy-d-arabino-heptulosonate 7-phosphate - GC guanine plus cytosine |
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