Phospho<i>enol</i>pyruvate‐dependent flavinylation of 6‐hydroxy‐D‐nicotine oxidase

Nagursky, Heiner; Bichler, Veronika; Brandsch, Roderich

doi:10.1111/j.1432-1033.1988.tb14378.x

Cited by 79 publications

(32 citation statements)

References 38 publications

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“…The CPG beads were in the size range 200-400 mesh and had a mean pore diameter of 214.7 nm and a specific surface area of 7.4 m2/g. Hexyl-CPG and glucose-CPG were prepared as previously described [6]. Celite (30 -80 mesh) was obtained from BDH; it was washed thoroughly with ethanol and water and dried at 105 "C before use.…”

Section: Mater Ialsmentioning

confidence: 99%

“…When enzymes are deposited on support materials in order to make them practical to use in organic media, the properties of the support influence the catalytic activity of the enzyme to a large extent [6]. One important parameter in this context is the capacity of the support to adsorb water.…”

Section: Water Adsorption On the Supportmentioning

confidence: 99%

“…In mixtures containing enzymes deposited on support materials in organic media water partitions between the enzyme, the support and the solvent. It has been shown that the capacity of the supports to adsorb water (their aquaphilicity) plays an important role in their suitability as enzyme supports in organic media [6]. When enzymes were deposited on supports with low aquaphilicity, they expressed much higher catalytic activity than when supports with higher aquaphilicity were used.…”

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confidence: 99%

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On the importance of the support material for enzymatic synthesis in organic media

Adlercreutz

1991

European Journal of Biochemistry

172

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Enzymes were deposited on different porous support materials and these preparations were used to catalyze reactions in organic media. Reactions were carried out at specific water activities, achieved by equilibrating both the enzyme preparation and the substrate solution at the desired water activity before mixing them and thereby starting the reactions. The reaction rates obtained at the same water activity with different supports differed greatly, indicating a direct influence of the support on the enzyme. For horse liver alcohol dehydrogenase, Celite was the best support, and the reaction rate increased with increasing water activity. In the a-chymotrypsincatalyzed alcoholysis of N-acetyl-L-phenylalanine ethyl ester with 1-butanol, high rates were again obtained with Celite, but with this support only about one third of the ethyl ester was converted to butyl ester, the rest was hydrolyzed. With the polyamide support, Accurel PA6, alcoholysis was the dominating reaction, and by using a low water activity (0.33), hydrolysis was completely suppressed while still maintaining a high alcoholysis activity. Controlled pore glass (CPG), derivatized with either hexyl or glucosyl groups, had quite different properties as enzyme supports. For horse liver alcohol dehydrogenase, glucose-CPG was a much better support than hexyl-CPG, and in the a-chymotrypsin-catalyzed reactions, glucose-CPG favored hydrolysis, and hexyl-CPG alcoholysis, at water activities exceeding 0.8. The results are discussed considering the absorption of water on the enzymes, on the supports and the solubility of water in the reaction media; all these parameters were measured separately.The use of enzymes as catalysts in organic media is a new and promising field in biotechnology. Organic reaction media are favorable when hydrophobic compounds are to be converted and open up possibilities for reversal of hydrolytic reactions. Many promising results have been obtained for different synthetic applications, e. g. for interesterification of triglycerides, synthesis of peptides and resolution of racemic compounds [l, 21. However, in order to be able to choose reaction conditions for new conversions in a rational way, there is a need for basic studies concerning the mechanisms that govern the catalytic properties of enzymes in organic media.There are several methods for using enzymes in organic solvents. One practical approach, which is used in the present study, is to deposit the enzyme on a porous support material before adding it to the solvent. This type of preparation is easily removed after the conversion, which facilitates product isolation and enzyme re-use. Other approaches include the use of detergents to solubilize enzymes in reversed micelles [3] and the covalent modification of enzymes with, for example, poly(ethy1ene glycol) to make them soluble in organic media Enzymes. r-Chymotrypsin (EC 3.4.23 .I); horse liver alcohol dehydrogenase (EC 1.1.1.1).[4]. Although the water content in all these systems is low, water plays a crucial role in modulat...

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Section: Mater Ialsmentioning

confidence: 99%

Section: Water Adsorption On the Supportmentioning

confidence: 99%

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confidence: 99%

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On the importance of the support material for enzymatic synthesis in organic media

Adlercreutz

1991

European Journal of Biochemistry

172

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“…Indeed, the alignment of LIPT1 and Lip3 show two highly conserved clusters within the large domain that contain serine residues. It should be noted that serine proteases can act as amidotransferases when water is limiting (161)(162)(163).…”

Section: Conclusion and A Unifying Hypothesismentioning

confidence: 99%

Assembly of Lipoic Acid on Its Cognate Enzymes: an Extraordinary and Essential Biosynthetic Pathway

Cronan

2016

Microbiol Mol Biol Rev

128

137

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SUMMARYAlthough the structure of lipoic acid and its role in bacterial metabolism were clear over 50 years ago, it is only in the past decade that the pathways of biosynthesis of this universally conserved cofactor have become understood. Unlike most cofactors, lipoic acid must be covalently bound to its cognate enzyme proteins (the 2-oxoacid dehydrogenases and the glycine cleavage system) in order to function in central metabolism. Indeed, the cofactor is assembled on its cognate proteins rather than being assembled and subsequently attached as in the typical pathway, like that of biotin attachment. The first lipoate biosynthetic pathway determined was that ofEscherichia coli, which utilizes two enzymes to form the active lipoylated protein from a fatty acid biosynthetic intermediate. Recently, a more complex pathway requiring four proteins was discovered inBacillus subtilis, which is probably an evolutionary relic. This pathway requires the H protein of the glycine cleavage system of single-carbon metabolism to form active (lipoyl) 2-oxoacid dehydrogenases. The bacterial pathways inform the lipoate pathways of eukaryotic organisms. Plants use theE. colipathway, whereas mammals and fungi probably use theB. subtilispathway. The lipoate metabolism enzymes (except those of sulfur insertion) are members of PFAM family PF03099 (the cofactor transferase family). Although these enzymes share some sequence similarity, they catalyze three markedly distinct enzyme reactions, making the usual assignment of function based on alignments prone to frequent mistaken annotations. This state of affairs has possibly clouded the interpretation of one of the disorders of human lipoate metabolism.

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“…Such good operational stability of chymotrypsin has also been observed in acetonitrile/water mixtures with moderate amounts of water. After 168 hours of reaction in media containing 2-4% v/v of water the residual activity is about 90% of the initial activity (Reslow et al, 1988b). The operational stability of mandelonitrile lyase in diisopropyl ether is poor if the substrate solution in solvent has not been presaturated with water (Wehtje et al, 1990).…”

Section: Eflects On Operational Stability Of Biocatalystsmentioning

confidence: 99%

Biocatalysis in non-conventional media: Medium engineering aspects (Technical Report)

Vermuë¹,

Tramper²

1995

Pure and Applied Chemistry

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Phosphoenolpyruvate‐dependent flavinylation of 6‐hydroxy‐D‐nicotine oxidase

Cited by 79 publications

References 38 publications

On the importance of the support material for enzymatic synthesis in organic media

On the importance of the support material for enzymatic synthesis in organic media

Assembly of Lipoic Acid on Its Cognate Enzymes: an Extraordinary and Essential Biosynthetic Pathway

Biocatalysis in non-conventional media: Medium engineering aspects (Technical Report)

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