Project description:Cells of the actinomycete Amycolatopsis methanolica grown on glucose possess only a single, exclusively PP(i)-dependent phosphofructokinase (PP(i)-PFK) (A. M. C. R. Alves, G. J. W. Euverink, H. J. Hektor, J. van der Vlag, W. Vrijbloed, D.H.A. Hondmann, J. Visser, and L. Dijkhuizen, J. Bacteriol. 176:6827-6835, 1994). When this methylotrophic bacterium is grown on one-carbon (C(1)) compounds (e.g., methanol), an ATP-dependent phosphofructokinase (ATP-PFK) activity is specifically induced, completely replacing the PP(i)-PFK. The two A. methanolica PFK isoenzymes have very distinct functions, namely, in the metabolism of C(6) and C(1) carbon substrates. This is the first report providing biochemical evidence for the presence and physiological roles of PP(i)-PFK and ATP-PFK isoenzymes in a bacterium. The novel ATP-PFK enzyme was purified to homogeneity and characterized in detail at the biochemical and molecular levels. The A. methanolica ATP-PFK and PP(i)-PFK proteins possess a low level of amino acid sequence similarity (24%), clearly showing that the two proteins are not the result of a gene duplication event. PP(i)-PFK is closely related to other (putative) actinomycete PFK enzymes. Surprisingly, the A. methanolica ATP-PFK is most similar to ATP-PFK from the protozoon Trypanosoma brucei and PP(i)-PFK proteins from the bacteria Borrelia burgdorferi and Treponema pallidum, both spirochetes, very distinct from actinomycetes. The data thus suggest that A. methanolica obtained the ATP-PFK-encoding gene via a lateral gene transfer event.

Project description:Flux into the glycolytic pathway of most cells is controlled via allosteric regulation of the irreversible, committing step catalyzed by ATP-dependent phosphofructokinase (PFK) (ATP-PFK; EC 2.7.1.11), the key enzyme of glycolysis. In some organisms, the step is catalyzed by PPi-dependent PFK (PPi-PFK; EC 2.7.1.90), which uses PPi instead of ATP as the phosphoryl donor, conserving ATP and rendering the reaction reversible under physiological conditions. We have determined the enzymic properties of PPi-PFK from the anaerobic, hyperthermophilic archaeon Thermoproteus tenax, purified the enzyme to homogeneity, and sequenced the gene. The approximately 100-kDa PPi-PFK from T. tenax consists of 37-kDa subunits; is not regulated by classical effectors of ATP-PFKs such as ATP, ADP, fructose 2,6-bisphosphate, or metabolic intermediates; and shares 20 to 50% sequence identity with known PFK enzymes. Phylogenetic analyses of biochemically characterized PFKs grouped the enzymes into three monophyletic clusters: PFK group I represents only classical ATP-PFKs from Bacteria and Eucarya; PFK group II contains only PPi-PFKs from the genus Propionibacterium, plants, and amitochondriate protists; whereas group III consists of PFKs with either cosubstrate specificity, i.e., the PPi-dependent enzymes from T. tenax and Amycolatopsis methanolica and the ATP-PFK from Streptomyces coelicolor. Comparative analyses of the pattern of conserved active-site residues strongly suggest that the group III PFKs originally bound PPi as a cosubstrate.

Project description:An efficient restriction barrier for methylated DNA in the actinomycete Amycolatopsis methanolica could be avoided by using a nonmethylating Escherichia coli strain for DNA isolations. The A. methanolica prephenate dehydratase gene was cloned from a gene bank in a pMEA300-derived shuttle vector in E. coli and characterized.

Project description:Amycolatopsis methanolica overview

Project description:Pyrophosphate-dependent phosphofructokinase (PPi-PFK) from Entamoeba histolytica (HM-1) was purified from trophozoites. Oligonucleotide probes based on partial amino acid sequence were used to clone and sequence the gene and the cDNA of the enzyme. The molecular mass of the subunit was greater than, and the derived sequence significantly different from, that of the product of the PPi-PFK gene previously cloned from E. histolytica [Huang, Albach, Chang, Tripathi and Kemp (1995) Biochim. Biophys. Acta 1260, 215-217; Bruchhaus, Jacobs, Denart and Tannich (1996) Biochem. J. 316, 57-63]. The sequence identity between the two proteins was 17%. The sequence bore greater identity with the more phylogenetically advanced plant PPi-PFKs than with bacterial PPi-PFKs. The cloned cDNA was expressed and the protein purified. The kinetic properties were identical with those of the enzyme isolated from the organism. Furthermore, the specific activity was more than three orders of magnitude higher than that described for the product of the previously cloned E. histolytica PFK gene [Bruchhaus et al. (1996)]. The pH-dependence and apparent substrate affinities of the cloned enzyme were identical with those of the PPi-PFK in trophozoite extracts, indicating that the product of the cloned gene accounts for most if not all of the PFK activity in E. histolytica trophozoites.

Project description:Amycolatopsis methanolica 239 Genome sequencing

Project description:Amycolatopsis methanolica 239 Genome sequencing and assembly

Project description:Prephenate dehydratase (PDT) is a key regulatory enzyme in L-phenylalanine biosynthesis in the Gram-positive bacterium Amycolatopsis methanolica. The PDT protein was purified to homogeneity (1957-fold) from wild-type cells with a final yield of 6.5%. It was characterized as a 150 kDa homotetrameric protein with a subunit size of 34 kDa. The first 35 N-terminal amino acids were identified, revealing highest similarity to the PDT proteins from Corynebacterium glutamicum and Bacillus subtilis. Kinetic studies showed that the A. methanolica PDT is allosterically inhibited by phenylalanine and activated by tyrosine. Phenylalanine caused an increase in the S0.5 for prephenate and a decrease in the Vmax. Tyrosine caused a decrease in the S0.5 for prephenate and an increase in the Vmax. Spontaneous o-fluoro- and p-fluoro-DL-phenylalanine-resistant mutants of A. methanolica were isolated. Kinetic studies with the partially purified PDT proteins of strains pFPhe32 and oFPhe84 showed that these mutant proteins had become (partly) insensitive to both phenylalanine inhibition and tyrosine activation.

Project description:Amycolatopsis methanolica contains a 13.3-kb plasmid (pMEA300) which is present both in the free state and integrated at a unique genomic location. A 2.1-kb pMEA300 DNA fragment was sequenced, revealing the putative attP site and two open reading frames, xis and int, showing similarity to genes encoding excisionases and integrases, respectively.

Project description:The sequencing, cloning, and expression of the pfp gene from Dictyoglomus thermophilum, which consists of 1,041 bp and encodes a pyrophosphate-dependent phosphofructokinase, are described. A phylogenetic analysis indicates that the enzyme is closely related to the pyrophosphate-dependent enzyme from Thermoproteus tenax. The recombinant and native enzymes share a high degree of similarity for most properties examined.