The spectra of 2,4-Dinitrophenylhydrazone anions and the determination of carbonyl compounds in dilute aqueous solution

Cloning, expression, and characterization of a novel methylglyoxal synthase from Thermus sp. strain GH5

A gene encoding methylglyoxal synthase from Thermus sp. GH5 (TMGS) was cloned, sequenced, overexpressed, and purified by Q-Sepharose. The TMGS gene was composed of 399 bp which encoded a polypeptide of 132 amino acids with a molecular mass of 14.3 kDa. The K (m) and k (cat) values of TMGS were 0.56 mM and 325 (s(-1)), respectively. The enzyme exhibited its optimum activity at pH 6 and 75 degrees C. Comparing the amino acid sequences and Hill coefficients of Escherichia coli MGS and TMGS revealed that the loss of Arg 150 in TMGS has caused a decrease in the cooperativity between the enzyme subunits in the presence of phosphate as an allosteric inhibitor. Gel filtration experiments showed that TMGS is a hexameric enzyme, and its quaternary structure did not change in the presence of phosphate.

From famine to feast: the role of methylglyoxal production in Escherichia coli

The enzyme methylglyoxal synthase (MGS) was partially purified from Escherichia coli extracts, and the amino-terminal sequence of candidate proteins was determined, based on the native protein being a tetramer of about 69 kDa. Database analysis identified an open reading frame in the E. coli genome, YccG, corresponding to a protein of 16.9 kDa. When amplified and expressed from a controlled promoter, it yielded extracts that contained high levels of MGS activity. MGS expressed from the trc promoter accumulated to approximately 20% of total cell protein, representing approximately 900-fold enhanced expression. This caused no detriment during growth on glucose, and the level of methylglyoxal (MG) in the medium rose to only 0.08 mM. High-level expression of MGS severely compromised growth on xylose, arabinose and glycerol. A mutant lacking MGS was constructed, and it grew normally on a range of carbon sources and on low-phosphate medium. However, the mutant failed to produce MG during growth on xylose in the presence of cAMP, and growth was inhibited.

E(2)-Elimination in the Decomposition of N-Bromoamino Acid Anions

The kinetics of oxidation of eight structurally different amino acids by hypobromite ion (BrO(-)) in the presence of hydroxide ion has been studied. The reactions proceed through the rapid formation of N-bromoamino acid anion which then decomposes in the rate-limiting step. The decomposition of N-bromoamino acid anions is found to proceed through an unimolecular and a base-catalyzed reaction. The large negative values of DeltaS() and the products formed suggest that the hydroxide ion-catalyzed reactions proceed through an E(2) mechanism. N-Bromoamino acid anion gives an absorption spectrum with lambda(max) at approximately 290 nm.