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The evolutionary pattern of aromatic amino acid biosynthesis and the emerging phylogeny of pseudomonad bacteria (1983)

Byng, Graham S. ; Johnson, John L. ; Whitaker, Robert J. ; [et al.]

Springer

Journal of molecular evolution 19 (1983), S. 272-282

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ISSN: 1432-1432

Keywords: Microbial phylogeny ; Evolution ; Aromatic biosynthesis ; Regulatory enzymes

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Pseudomonad bacterial are a phylogenetically diverse assemblage of species named within contemporary genera that includePseudomonas, Xanthomonas andAlcaligenes. Thus far, five distinct rRNA homology groups (Groups I through V) have been established by oligonucleotide cataloging and by rRNA/DNA hybridization. A pattern of enzymic features of aromatic amino acid biosynthesis (enzymological patterning) is conserved at the level of rRNA homology, five distinct and unambiguous patterns therefore existing in correspondence with the rRNA homology groups. We sorted 87 pseudomonad strains into Groups (and Subgroups) by aromatic pathway patterning. The reliability of this methodology was tested in a blind study using coded cultures of diverse pseudomonad organisms provided by American Type Culture Collection. Fourteen of 14 correct assignments were made at the Group level (the level of rRNA homology), and 12 of 14 correct assignments were made at the finer-tuned Subgroup levels. Many strains of unknown rRNA-homology affiliation had been placed into tentative rRNA groupings based upon enzymological patterning. Positive confirmation of such strains as members of the predicted rRNA homology groups was demonstrated by DNA/rRNA hybridization in nearly every case. It seems clear that the combination of these molecular approaches will make it feasible to deduce the evolution of biochemical-pathway construction and regulation in parallel with the emerging phylogenies of microbes housing these pathways.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02099974

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Clues fromXanthomonas campestris about the evolution of aromatic biosynthesis and its regulation (1985)

Whitaker, Robert J. ; Berry, Alan ; Byng, Graham S. ; [et al.]

Springer

Journal of molecular evolution 21 (1985), S. 139-149

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ISSN: 1432-1432

Keywords: Metabolic evolution ; Aromatic biosynthesis ; Regulatory enzymes ; Xanthomonas campestris

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The recent placement of major Gramnegative prokaryotes (Superfamily B) on a phylogenetic tree (including, e.g., lineages leading toEscherichia coli, Pseudomonas aeruginosa, andAcinetobacter calcoaceticus) has allowed initial insights into the evolution of the biochemical pathway for aromatic amino acid biosynthesis and its regulation to be obtained. Within this prokaryote grouping,Xanthomonas campestris ATCC 12612 (a representative of the Group V pseudomonads) has played a key role in facilitating deductions about the major evolutionary events that shaped the character of aromatic biosynthesis within this grouping.X. campestris is likeP. aeruginosa (and unlikeE. coli) in its possession of dual flow routes to bothl-phenylalanine andl-tyrosine from prephenate. Like all other members of Superfamily B,X. campestris possesses a bifunctional P-protein bearing the activities of both chorismate mutase and prephenate dehydratase. We have found an unregulated arogenate dehydratase similar to that ofP. aeruginosa inX. campestris. We separated the two tyrosine-branch dehydrogenase activities (prephenate dehydrogenase and arogenate dehydrogenase); this marks the first time this has been accomplished in an organism in which these two activities coexist. Superfamily B organisms possess 3-deoxy-d-arabino-heptulosonate 7-P (DAHP) synthase as three isozymes (e.g., inE. coli), as two isozymes (e.g., inP. aeruginosa), or as one enzyme (inX. campestris). The two-isozyme system has been deduced to correspond to the ancestral state of Superfamily B. Thus,E. coli has gained an isozyme, whereasX. campestris has lost one. We conclude that the single, chorismate-sensitive DAHP synthase enzyme ofX. campestris is evolutionarily related to the tryptophan-sensitive DAHP synthase present throughout the rest of Superfamily B. InX. campestris, arogenate dehydrogenase, prephenate dehydrogenase, the P-protein, chorismate mutase-F, anthranilate synthase, and DAHP synthase are all allosteric proteins; we compared their regulatory properties with those of enzymes of other Superfamily B members with respect to the evolution of regulatory properties. The network of sequentially operating circuits of allosteric control that exists for feedback regulation of overall carbon flow through the aromatic pathway inX. campestris is thus far unique in nature.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02100088

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Evolution of aromatic biosynthesis and fine-tuned phylogenetic positioning of Azomonas, Azotobacter and rRNA group I pseudomonads (1986)

Byng, Graham S. ; Berry, Alan ; Jensen, Roy A.

Springer

Archives of microbiology 144 (1986), S. 222-227

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ISSN: 1432-072X

Keywords: Phylogeny ; Biochemical evolution ; Aromatic biosynthesis ; Azomonas ; Azotobacter ; Pseudomonas ; Regulatory enzymes

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The evolutionary history of biochemical pathways can be determined in microbial groupings for which phylogenetic trees have been established. This has been demonstrated best in Superfamily B, an assemblage of rRNA homology groups containing lineages that lead to genera such as Escherichia and other enteric microbes, Pseudomonas (Group I), Xanthomonas, Oceanospirillum, and Acinetobacter. The rRNA homology group that defines Group I pseudomonads also includes Azomonas and Azotobacter, but particular dendrogram points of evolutionary divergence for these genera within Superfamily B have not been established. Phylogenetic relationships at such intergeneric levels can be deduced by analysis of aromaticpathway enzyme arrangement and regulation in selected groupings where dynamic evolutionary changes have occurred. A case in point is illustrated by Axomonas insignis, Azotobacter paspali, and Azotobacter vinelandii — a grouping that appears to be homogeneous with respect to the evolutionary state of the aromatic pathway. The conclusion that this phylogenetic cluster diverges from an ancestor common to pseudomonad subgroup Ia (rather than to subgroup Ib) is based upon the absence of chorismate mutase-F and arogenate dehydratase, enzymes making up a twostep pathway of phenylalanine biosynthesis that is absent in subgroup Ia, but present in subgroup Ib. Of further interest, Azomonas insignis and Azotobacter sp. were found to comprise a distinctive and recently evolved sublineage, differing from subgroup Ia species in their loss of a regulatory isozyme of 3-deoxy-d-arabino-heptulosonate 7-phosphate synthase (ADHP synthase-trp) that is subject to feedback inhibition by l-tryptophan. DAHP synthase-trp is an ancient character state of Superfamily B that has been retained during the evolutionary history of most members of this Superfamily.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00410951

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Evolutionary implications of features of aromatic amino acid biosynthesis in the genus Acinetobacter (1985)

Byng, Graham S. ; Berry, Alan ; Jensen, Roy A.

Springer

Archives of microbiology 143 (1985), S. 122-129

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ISSN: 1432-072X

Keywords: Phylogeny ; Biochemical evolution ; Aromatic biosynthesis ; Acinetobacter ; Regulatory enzymes

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Key enzymes of aromatic amino acid biosynthesis were examined in the genus Acinetobacter. Members of this genus belong to a suprafamilial assemblage of Gram-negative bacteria (denoted Superfamily B) for which a phylogenetic tree based upon oligonucleotide cataloging of 16S rRNA exists. Since the Acinetobacter lineage diverged at an early evolutionary time from other lineages within Superfamily B, an examination of aromatic biosynthesis in members of this genus has supplied improtant clues for the deduction of major evolutionary events leading to the contemporary aromatic pathways that now exist within Superfamily B. Together with Escherichia coli, Pseudomonas aeruginosa and Xanthomonas campestris, four well-spaced lineages have now been studied in comprehensive detail with respect to comparative enzymological features of aromatic amino acid biosynthesis. A. calcoaceticus and A. lwoffii both possess two chorismate mutase isozymes: one a monofunctional isozyme (chorismate mutase-F), and the other (chorismate mutase-P) a component of a bifunctional P-protein (chorismate mutase-prephenate dehydratase). While both P-protein activities were feedback inhibited by l-phenylalanine, the chorismate mutase-P activity was additionally inhibited by prephenate. Likewise, chorismate mutase-F was product inhibited by prephenate. Two isozymes of 3-deoxy-d-arabino-heptulosonate 7-phosphate synthase were detected. The major isozyme (〉95%) was sensitive to feedback inhibition by l-tyrosine, whereas the minor isozyme was apparently insensitive to allosteric control. Prephenate dehydrogenase and arogenate dehydrogenase activities were both detected, but could not be chromatographically resolved. Available evidence favors the existence of a single dehydrogenase enzyme, exhibiting substrate ambiguity for prephenate andl-arogenate. Dehydrogenase activity with either of the latter substrates was specific for NADP+, NAD+ being ineffective. Consideration of the phylogeny of Superfamily-B organisms suggests that the stem ancestor of the Superfamily possessed a single dehydrogenase enzyme having ambiguity for both substrate and pyridine nucleotide cofactor. Since all other members of Superfamily B have NAD+-specific dehydrogenases, specialization for NADP+ must have occurred following the point of Acinetobacter divergence, leading to the dichotomy seen in present-day Superfamily-B organisms.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00411034

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Kupplung eines Vinylideniridium-Komplexes mit Trialkylaluminium; Bildung einer C-C-Bindung durch intramolekulare Insertion eines VinylidenligandenDiese Arbeit wurde vom NSERC (Kanada, Stipendium für M.D.F., Postdoktoranden-Stipendium für G.S.W.) gefördert. Wir danken der Firma Johnson-Matthey für Chemikalienspenden. (1990)

Fryzuk, Michael D. ; McManus, Neil T. ; Rettig, Steven J. ; [et al.]

Weinheim : Wiley-Blackwell

Zeitschrift für die chemische Industrie 102 (1990), S. 67-68

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ISSN: 0044-8249

Keywords: Chemistry ; General Chemistry

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/ange.19901020112

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Coupling of an Iridium Vinylidene Complex with Aluminum Alkyls; Carbon-Carbon Bond Formation via Migratory Insertion of a Vinylidene UnitThis work was funded by the NSERC (Canada) in the form of an operating grant to M. D. F. and a Postdoctoral Fellowship to G. S. W. We also thank Johnson-Matthey for the generous loan of IrCl3·×H2O. (1990)

Fryzuk, Michael D. ; McManus, Neil T. ; Rettig, Steven J. ; [et al.]

Weinheim : Wiley-Blackwell

Angewandte Chemie International Edition in English 29 (1990), S. 73-75

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ISSN: 0570-0833

Keywords: Chemistry ; General Chemistry

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology

Additional Material: 1 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/anie.199000731

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