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W2078132052 startingPage "455" @default.
W2078132052 abstract "Escherichia coli and many other microorganisms synthesize aromatic amino acids through the condensation reaction between phosphoenol pyruvate (PEP) and erythrose-4-phosphate (E4P) to form 3-deoxy-d-arabinoheptulosonate-7-phosphate (DAHP) and through a series of reactions to form phenylalinine, tyrosine and tryptophan. The proteomic response of a pyruvate kinase (pyk-F) mutant of Escherichia coli was quantitatively analyzed by two-dimensional electrophoresis with matrix assisted laser desorption ionization-time of flight-mass spectrometry (MALDI-TOF-MS) analysis. Protein expressions of the mutant strain were compared with the wild type E. coli, where 24 protein spots were found to be expressed differentially. Ten protein spots, which remarkably increased in the mutant E. coli, were identified by MALDI-TOF-MS analysis. Evidently, main metabolic enzymes from the aromatic amino acid biosynthetic pathway, such as DAHP synthase (aro F, G, H), shikimate dehydrogenase (aro E), shikimate kinase (aroK, L), chorismate synthase (aro C), prephenate dehydrogenase (pheA), aminotransferase, anthranilate synthetase, tryptophan synthetase showed significant up-regulation in the mutant as compared to the wild type strain. Accumulation of PEP and E4P may direct the metabolic flow towards the biosynthetic route of chorismate and shikimate, key metabolic precursors of aromatic amino acids. The level of chorismate synthase was more than 10-fold higher in the mutant strain. In addition, we measured the enzyme activities of anthranilate synthetase (AS), prephenate dehydrogenase (PRDH), chorismate synthase (CM) and shikimate dehydrogenase (SKDH) to confirm the proteome result. It showed that 10 times overexpression of the PRDH and two to three times increase in the activities of AS, CM and SKDH are consistent with proteome results. Overexpression of these enzymes play the important role in increasing the production of phenylalanine, tyrosine and tryptophan in the E. coli mutant. Comparative proteome analyses of the wild type and the mutant showed that aromatic amino acid overproduction accompanied the significant changes in the synthesis level of key metabolic enzymes involved in aromatic amino acid biosynthesis and degradation pathway." @default.
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W2078132052 date "2007-09-01" @default.
W2078132052 modified "2023-10-17" @default.
W2078132052 title "Proteomic investigation on the pyk-F gene knockout Escherichia coli for aromatic amino acid production" @default.
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W2078132052 cites W1588681068 @default.
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W2078132052 cites W1606423922 @default.
W2078132052 cites W1775749144 @default.
W2078132052 cites W1844343897 @default.
W2078132052 cites W1952275793 @default.
W2078132052 cites W1971185610 @default.
W2078132052 cites W1988431706 @default.
W2078132052 cites W1992497040 @default.
W2078132052 cites W2003721913 @default.
W2078132052 cites W2004375887 @default.
W2078132052 cites W2011072729 @default.
W2078132052 cites W2012493190 @default.
W2078132052 cites W2015732856 @default.
W2078132052 cites W2016251356 @default.
W2078132052 cites W2043419319 @default.
W2078132052 cites W2044318184 @default.
W2078132052 cites W2046232520 @default.
W2078132052 cites W2048370478 @default.
W2078132052 cites W2050916001 @default.
W2078132052 cites W2051468192 @default.
W2078132052 cites W2062345761 @default.
W2078132052 cites W2063941771 @default.
W2078132052 cites W2065288657 @default.
W2078132052 cites W2066969376 @default.
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W2078132052 cites W2078038780 @default.
W2078132052 cites W2085648335 @default.
W2078132052 cites W2090392774 @default.
W2078132052 cites W2097815310 @default.
W2078132052 cites W2104746075 @default.
W2078132052 cites W2116053461 @default.
W2078132052 cites W2116137883 @default.
W2078132052 cites W2121418514 @default.
W2078132052 cites W2137957492 @default.
W2078132052 cites W2143893946 @default.
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W2078132052 cites W2165500111 @default.
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W2078132052 cites W41779848 @default.
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W2078132052 cites W4253472439 @default.
W2078132052 cites W4253796902 @default.
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W2078132052 doi "https://doi.org/10.1016/j.enzmictec.2007.03.018" @default.
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