Zbyněk Lamplot scite author profile

1,5-Diamino-2-pentyne (DAPY) was found to be a weak substrate of grass pea (Lathyrus sativus, GPAO) and sainfoin (Onobrychis viciifolia, OVAO) amine oxidases. Prolonged incubations, however, resulted in irreversible inhibition of both enzymes. For GPAO and OVAO, rates of inactivation of 0.1-0.3 min )1 were determined, the apparent K I values (half-maximal inactivation) were of the order of 10DAPY was found to be a mechanism-based inhibitor of the enzymes because the substrate cadaverine significantly prevented irreversible inhibition. The N 1 -methyl and N 5-methyl analogs of DAPY were tested with GPAO and were weaker inactivators (especially the N 5 -methyl) than DAPY. Prolonged incubations of GPAO or OVAO with DAPY resulted in the appearance of a yellow-brown chromophore (k max ¼ 310-325 nm depending on the working buffer). Excitation at 310 nm was associated with emitted fluorescence with a maximum at 445 nm, suggestive of extended conjugation. After dialysis, the color intensity was substantially decreased, indicating the formation of a low molecular mass secondary product of turnover. The compound provided positive reactions with ninhydrin, 2-aminobenzaldehyde and Kovacs' reagents, suggesting the presence of an amino group and a nitrogen-containing heterocyclic structure. The secondary product was separated chromatographically and was found not to irreversibly inhibit GPAO. MS indicated an exact molecular mass (177.14 Da) and molecular formula (C 10 H 15 N 3 ). Electrospray ionization-and MALDI-MS/MS analyses yielded fragment mass patterns consistent with the structure of a dihydropyridine derivative of DAPY. Finally, N-(2,3-dihydropyridinyl)-1,5-diamino-2-pentyne was identified by means of 1 H-and 13 C-NMR experiments. This structure suggests a lysine modification chemistry that could be responsible for the observed inactivation.

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Reactions of plant copper/topaquinone amine oxidases with N⁶-aminoalkyl derivatives of adenine

Lamplot

Šebela

Fryčák

et al. 2005

Journal of Enzyme Inhibition and Medicinal Chemistry

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Plant copper/topaquinone-containing amine oxidases (CAOs, EC 1.4.3.6) are enzymes oxidising various amines. Here we report a study on the reactions of CAOs from grass pea (Lathyrus sativus), lentil (Lens esculenta) and Euphorbia characias, a Mediterranean shrub, with N6-aminoalkyl adenines representing combined analogues of cytokinins and polyamines. The following compounds were synthesised: N6-(3-aminopropyl)adenine, N6-(4-aminobutyl)adenine, N6-(4-amino-trans-but-2-enyl) adenine, N6-(4-amino-cis-but-2-enyl) adenine and N6-(4-aminobut-2-ynyl) adenine. From these, N6-(4-aminobutyl) adenine and N6-(4-amino-trans-but-2-enyl)adenine were found to be substrates for all three enzymes (Km approximately 10(-4)M). Absorption spectroscopy demonstrated such an interaction with the cofactor topaquinone, which is typical for common diamine substrates. However, only the former compound provided a regular reaction stoichiometry. Anaerobic absorption spectra of N6-(3-aminopropyl)adenine, N6-(4-amino-cis-but-2-enyl)adenine and N6-(4-aminobut-2-ynyl)adenine reactions revealed a similar kind of initial interaction, although the compounds finally inhibited the enzymes. Kinetic measurements allowed the determination of both inhibition type and strength; N6-(3-aminopropyl)adenine and N6-(4-amino-cis-but-2-enyl)adenine produced reversible inhibition (Ki approximately 10(-5) - 10(-4) M) whereas, N6-(4-aminobut-2-ynyl)adenine could be considered a powerful inactivator.

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Thermostable β‐cyclodextrin conjugates of two similar plant amine oxidases and their properties

Šebela

Kopečný

Lamplot

et al. 2005

Biotech and App Biochem

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Syntheses of conjugates of garden pea (Pisum sativum) and grass pea (Lathyrus sativus) amine oxidases (PSAO and GPAO respectively) with BCD (beta-cyclodextrin), performed to improve the thermostability of the enzymes, are described in the present study. Periodate-oxidized BCD reacted with the enzyme proteins via free primary amino groups in a buffered solution containing cyanoborohydride as a reductant. Although the specific activities of PSAO and GPAO partially decreased after modification, Km values determined for the best diamine substrates remained almost unchanged. Both the BCD conjugates could be incubated at 65 degrees C for 30 min without considerable inactivation, and the residual activity remained detectable even after incubation at 75 degrees C. The conjugates contained approx. 30% of neutral sugars. Molecular masses of BCD-PSAO and BCD-GPAO (180 kDa), as estimated by gel-permeation chromatography, were higher compared with the value of 145 kDa for the native enzymes. This was in good correlation with the number of modified lysine residues determined by a spectrophotometric method. Peptide mass fingerprints of tryptic digests of BCD-PSAO and BCD-GPAO were less specific than those of the native enzymes when compared with the database sequence of PSAO. As a consequence of the modification, many unidentified peaks were observed in the digests of the studied conjugates that were not seen in the digests of native PSAO and GPAO. Only some of these peaks overlapped between BCD-PSAO and BCD-GPAO. The BCD conjugates described in the present study represent suitable candidates for biotechnological applications, e.g. in analyses using biosensors, which might benefit from increased storage stability and amine oxidation at high temperatures.

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A study on the reactions of plant copper amine oxidase with short-chain aliphatic diamines

Šebela¹,

Frébort²,

Galuszka³

et al. 2001

Inflamm. res.

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Zbyněk Lamplot

Recent news related to substrates and inhibitors of plant amine oxidases

1,5‐Diamino‐2‐pentyne is both a substrate and inactivator of plant copper amine oxidases

Reactions of plant copper/topaquinone amine oxidases with N⁶-aminoalkyl derivatives of adenine

Thermostable β‐cyclodextrin conjugates of two similar plant amine oxidases and their properties

A study on the reactions of plant copper amine oxidase with short-chain aliphatic diamines

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Zbyněk Lamplot

Recent news related to substrates and inhibitors of plant amine oxidases

1,5‐Diamino‐2‐pentyne is both a substrate and inactivator of plant copper amine oxidases

Reactions of plant copper/topaquinone amine oxidases with N6-aminoalkyl derivatives of adenine

Thermostable β‐cyclodextrin conjugates of two similar plant amine oxidases and their properties

A study on the reactions of plant copper amine oxidase with short-chain aliphatic diamines

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Product

Resources

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Reactions of plant copper/topaquinone amine oxidases with N⁶-aminoalkyl derivatives of adenine