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Query: KEGG:D02011 (
FAD
)
5,530
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The nucleotide sequence encoding L-phenylalanine oxidase (deaminating and decarboxylating) (
PAO
) from Pseudomonas sp. P-501 was determined. The open reading frame is arranged in the order of prosequence, alpha subunit, dipeptide and beta subunit from the 5'- to 3'-end. Expression of the gene in Escherichia coli showed that without the prosequence,
PAO
is produced in small quantity as a soluble form with no visible absorption, but with the prosequence (proPAO),
PAO
is highly expressed and yellow. The purified proPAO contained one mol of
FAD
per mol of proPAO polypeptide, but had no catalytic activity. Treatment of proPAO with a mixture of Pronase and trypsin converted the noncatalytic proPAO to the catalytic form, and the Pronase-trypsin-treated proPAO showed kinetic and spectral properties comparable to the native enzyme. These results suggest that in Pseudomonas,
PAO
is expressed as a proenzyme that is processed by proteolysis to the active form.
...
PMID:Sequencing and expression of the L-phenylalanine oxidase gene from Pseudomonas sp. P-501. Proteolytic activation of the proenzyme. 1563 1
FAD
-dependent polyamine oxidase (
PAO
; EC 1.5.3.11) is one of the key enzymes in the catabolism of polyamines spermidine and spermine. The natural substrates for the enzyme are N1-acetylspermidine, N1-acetylspermine, and N1,N12-diacetylspermine. Here we report that
PAO
, which normally metabolizes achiral substrates, oxidized (R)-isomer of 1-amino-8-acetamido-5-azanonane and N1-acetylspermidine as efficiently while (S)-1-amino-8-acetamido-5-azanonane was a much less preferred substrate. It has been shown that in the presence of certain aldehydes, the substrate specificity of
PAO
and the kinetics of the reaction are changed to favor spermine and spermidine as substrates. Therefore, we examined the effect of several aldehydes on the ability of
PAO
to oxidize different enantiomers of alpha-methylated polyamines.
PAO
supplemented with benzaldehyde predominantly catalyzed the cleavage of (R)-isomer of alpha-methylspermidine, whereas in the presence of pyridoxal the (S)-alpha-methylspermidine was preferred.
PAO
displayed the same stereospecificity with both singly and doubly alpha-methylated spermine derivatives when supplemented with the same aldehydes. Structurally related ketones proved to be ineffective. This is the first time that the stereospecificity of
FAD
-dependent oxidase has been successfully regulated by changing the supplementary aldehyde. These findings might facilitate the chemical regulation of stereospecificity of the enzymes.
...
PMID:Guide molecule-driven stereospecific degradation of alpha-methylpolyamines by polyamine oxidase. 1635 69
Polyamine oxidases are
FAD
-dependent enzymes catalyzing the oxidation of polyamines at the secondary amino groups. Zea mays
PAO
(ZmPAO) oxidizes the carbon on the endo-side of the N5-nitrogen of spermidine (Spd) and spermine (Spm). The structure of ZmPAO revealed that the active site is formed by a catalytic tunnel in which the N5 atom of
FAD
lies in close proximity to the K300 side chain, the only active-site residue conserved in all PAOs. A water molecule, (HOH309), is hydrogen-bound to the amino group of K300 and mutation of this residue results in a 1400-fold decrease in the rate of flavin reduction. The structural studies on the catalytically impaired ZmPAO-K300M mutant described here show that substrates are bound in an 'out-of-register' mode and the HOH309 water molecule is absent in the enzyme-substrate complexes. Moreover, K300 mutation brings about a 60 mV decrease in the
FAD
redox potential and a 30-fold decrease in the
FAD
reoxidation rate, within a virtually unaltered geometry of the catalytic pocket. Taken together, these results indicate that the HOH309-K300 couple plays a major role in multiple steps of ZmPAO catalytic mechanism, such as correct substrate binding geometry as well as
FAD
reduction and reoxidation kinetics.
...
PMID:The structure of maize polyamine oxidase K300M mutant in complex with the natural substrates provides a snapshot of the catalytic mechanism of polyamine oxidation. 2120 12
Polyamines (PAs) are small aliphatic amines with important regulatory activities in plants. Biotic stress results in changes in PA levels due to de novo synthesis and PA oxidation. In Arabidopsis thaliana five
FAD
-dependent polyamine oxidase enzymes (AtPAO1-5) participate in PA back-conversion and degradation.
PAO
activity generates H
2
O
2
, an important molecule involved in cell signaling, elongation, programmed cell death, and defense responses. In this work we analyzed the role of AtPAO genes in the Arabidopsis thaliana-Pseudomonas syringae pathosystem. AtPAO1 and AtPAO2 genes were transcriptionally up-regulated in infected plants. Atpao1-1 and Atpao2-1 single mutant lines displayed altered responses to Pseudomonas, and an increased susceptibility was found in the double mutant Atpao1-1 x Atpao2-1. These polyamine oxidases mutant lines showed disturbed contents of ROS (H
2
O
2
and O
2
-
) and altered activities of RBOH, CAT and SOD enzymes both in infected and control plants. In addition, changes in the expression levels of AtRBOHD, AtRBOHF, AtPRX33, and AtPRX34 genes were also noticed. Our data indicate an important role for polyamine oxidases in plant defense and ROS homeostasis.
...
PMID:Decrease of Arabidopsis PAO activity entails increased RBOH activity, ROS content and altered responses to Pseudomonas. 3200 78
