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Query: EC:3.2.1.26 (
invertase
)
4,927
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The utilization by Escherichia coli
K12
of raffinose as sole carbon source depends on a new raffinose transport system, an
invertase
and an alpha-galactosidase specified by the Raf-plasmid D1021. The alpha-galactosidase was purified to homogeneity from a mutant strain with constitutive synthesis of the enzyme. alpha-Galactosidase hydrolyzes p-nitrophenyl-alpha-D-galactoside (Km 0.14 mM), methyl-alpha-D-galactoside (Km 30mM), melibiose (Km 3.2 mM) and raffinose (Km 60 mM). The enzymatic activity is strongly inhibited by Ag+, p-chloromercuriphenyl sulfonic acid and, to a lesser extent, by iodoacetamide. Isoelectric focusing indicates the existence of one form of alpha-galactosidase with an isoelectric point of 5.1. The purified enzyme has an sw,20 value of 11.7 +/- 0.3S and a molecular weight of 329000 +/- 4000; this value is not reduced at high dilutions. When examined by dodecylsulphate gel electrophoresis, purified alpha-galactosidase yields a single subunit band of molecular weight 82000 suggesting that the intact enzyme consists of four subunits. Amino acid analysis indicates the presence of approximately 712 amino acid residues per quarter molecule including 8 half-cystine residues. No carbohydrate moiety has been detected. High resolution electron micrographs and Markham rotation of alpha-galactosidase show enzyme molecules of approximately 11 x 11 nm containing four globular subunits in a tetragonal arrangement. The plasmid-coded alpha-galactosidase differs from the homologous E. coli enzyme by substrate affinities, cofactor requirements, stability and toluene resistance. It can, therefore, be used as a marker enzyme suitable for the detection in vivo of Raf-plasmids.
...
PMID:Raffinose metabolism in Escherichia coli K12. Purification and properties of a new alpha-galactosidase specified by a transmissible plasmid. 78 27
A wild-type isolate, EC3132, of Escherichia coli, that is able to grow on sucrose was isolated and its csc genes (mnemonic for chromosomally coded sucrose genes) transferred to strains of E. coli
K12
. EC3132 and all sucrose-positive exconjugants and transductants invariably showed a D-serine deaminase (Dsd)-negative phenotype. The csc locus maps adjacent to dsdA, the structural gene for the D-serine deaminase, and contains an inducible regulon, controlled by a sucrose-specific repressor CscR, together with structural genes for a sucrose hydrolase (
invertase
) CscA, for a D-fructokinase CscK, and for a transport system CscB. Based on DNA sequencing studies, this last codes for a hydrophobic protein of 415 amino acids. CscB is closely related to the beta-galactoside transport system LacY (31.2% identical residues) and a raffinose transport system RafB (32.3% identical residues) of the enteric bacteria, both of the proton symport type. A two-dimensional model common to the three transport proteins, which is based on the integrated consensus sequence, will be discussed.
...
PMID:Characterization of a chromosomally encoded, non-PTS metabolic pathway for sucrose utilization in Escherichia coli EC3132. 143 27
Plasmid p15B is a bacteriophage P1-related resident of Escherichia coli 15T-. Both genomes contain a segment in which DNA inversion occurs, although this part of their genomes is not identical. This DNA segment of p15B was cloned in a multicopy vector plasmid. Like its parent, the resulting plasmid, pAW800, undergoes complex multiple DNA inversions: this DNA inversion system is therefore called Min. The min gene, which codes for the p15B Min DNA
invertase
, can complement the P1 cin recombinase gene. The Min inversion system is thus a new member of the Din family of site-specific recombinases to which Cin belongs. The DNA sequence of the min gene revealed that Min is most closely related to the Pin recombinase of the e14 defective viral element on the E. coli
K12
chromosome. Like other members of the Din family, the min gene contains a recombinational enhancer element which stimulates site-specific DNA inversion 300-fold.
...
PMID:The Min DNA inversion enzyme of plasmid p15B of Escherichia coli 15T-: a new member of the Din family of site-specific recombinases. 221 18
The scr genes located on plasmid pUR400 and responsible for sucrose (Scr) metabolism of Escherichia coli
K12
and other enteric bacteria have been cloned on a 9.3 kb DNA fragment. The different genes were mapped by transposon insertion mutagenesis, by restriction endonuclease and deletion mapping, and the corresponding gene products were identified. Besides the known structural genes scrA, coding for an EnzymeII(Scr) (45 kD) of the phosphoenolypyruvate-dependent phosphotransferase system (PTS), and scrB, coding for a sucrose 6-phosphate hydrolase (
invertase
) (55 kD), two new structural genes were discovered. Gene scrK apparently codes for an intracellular and ATP-dependent fructokinase (39 kD), while scrY seems to code for a sucrose porin (58 kD) in the outer cell membrane. No genes for an Enzyme III(Scr) of the PTS or for (a) glycosyltransferase(s) were detected. The four genes form an scr operon (gene order, scrK scrY scrA scrB, transcription from K to B), regulated by a repressor (gene scrR, 37 kD) and inducible by sucrose, fructose and fructose-containing oligosaccharides.
...
PMID:Plasmid-mediated sucrose metabolism in Escherichia coli K12: mapping of the scr genes of pUR400. 283 84
In contrast to a previous report, strains of Klebsiella pneumoniae were found to take up and phosphorylate the disaccharide sucrose via the phosphoenolpyruvate-dependent carbohydrate phosphotransferase system (PTS). In addition to the two soluble and general components enzymeI and HPr of the PTS, a sucrose-specific enzymeIIScr (gene scrA), together with the enzymeIII, coded for by the gene crr, were needed for the vectorial phosphorylation of sucrose to generate intracellular sucrose 6-phosphate. This sugar phosphate is hydrolysed by a hydrolase (
invertase
, gene scrB) to generate glucose 6-phosphate and free fructose. The latter is converted to fructose 6-phosphate by an ATP-dependent fructokinase (gene scrK), an enzyme which is part of the sucrose and not of the fructose catabolic pathway. Analysis of different mutants of K. pneumoniae strain 1033, and of Escherichia coli
K12
derivatives carrying R'scr plasmids isolated from K. pneumoniae, showed that the genes scrA, B, and K, together with a gene scrR for a repressor, form a genetic unit located on the chromosome of K. pneumoniae. These genes and the corresponding sucrose metabolic pathway are very similar to a previously described scr system encoded on plasmid pUR400 and found in other enteric bacteria.
...
PMID:Analysis of sucrose catabolism in Klebsiella pneumoniae and in Scr+ derivatives of Escherichia coli K12. 306 52
Escherichia coli HD701, a hydrogenase-upregulated strain, has the potential for industrial-scale H2 production but is unable to metabolise sucrose, which is a major constituent of many waste materials that could be used as feedstocks for H2 production processes. A 70 kb plasmid (pUR400), which carries the genes necessary for sucrose transport into the cell and its metabolism, was conjugated into E. coli strains HD701 and FTD701 [a derivative of HD701 which has a deletion of the tatC gene of the twin arginine transport (Tat) protein system] from an E. coli
K12
strain. Comparative studies on H2 evolution by FTD701 and HD701, with and without the pUR400 plasmid, were made using sucrose as substrate. The parental strains did not evolve H2, although HD701/pUR400 and FTD701/pUR400 evolved 1.27 +/- 0.09 and 1.38 +/- 0.05 ml H2 mg dry wt(-1) l culture(-1), respectively over 10 h. This work provides the choice for using a recombinant E. coli strain, which produces H2 from sucrose, as an alternative to coupling-in an upstream
invertase
, and hence this provides a simpler method for the bioproduction of H2 from sucrose.
...
PMID:Production of H2 from sucrose by Escherichia coli strains carrying the pUR400 plasmid, which encodes invertase activity. 1567 32
