Cloned (Comment) | Organism |
---|---|
gene PDXK, recombinant expression of His-tagged wild-type and mutant enzymes in Escherichia coli strain Rosetta(lambdaDE3) pLysS | Homo sapiens |
Protein Variants | Comment | Organism |
---|---|---|
A243G | naturally occuring mutation from a patient with diabetes, the mutant shows reduced catalytic activity and/or reduced affinity for PLP precursors, the mutant cannot complement the inactive Drosophila melanogaster dPdxk1 mutant when expressed in the mutant flies. Mutant A243G displays a damaging score of 0.72. The A243Q mutation somewhat reduces the affinity for ATP when using PL as substrate and the affinity for PM, while it does not affect KM for PL and PN. In addition, it has the effect to halve kcat with PL | Homo sapiens |
D87H | naturally occuring mutation, the mutant shows reduced catalytic activity and/or reduced affinity for PLP precursors, the mutant cannot complement the inactive Drosophila melanogaster dPdxk1 mutant when expressed in the mutant flies. Mutant D87H displays the highest damaging score (1.0). The D87H mutation strongly increases KM for PL, and to a lesser extent also increases KM for PN and PM, leaving KM for ATP and kcat almost unaltered | Homo sapiens |
H246Q | naturally occuring mutation, the mutant shows reduced catalytic activity and/or reduced affinity for PLP precursors, the mutant cannot complement the inactive Drosophila melanogaster dPdxk1 mutant when expressed in the mutant flies. Mutant H246Q displays a damaging score of 0.98. The H246Q mutation somewhat reduces the affinity for ATP when using PL as substrate and the affinity for PM, while it does not affect KM for PL and PN. In addition, it has the effect to halve kcat with PL | Homo sapiens |
additional information | in Drosophila, mutations in the dPdxk gene cause chromosome aberrations (CABs) and increased glucose content in larval hemolymph. The hyperglycemia phenotype is rescued by the expression of wild-type human PDXK enzyme, although not by human PDXK mutants D87H, V128I, H246Q, and A243G. To introduce the transgenes carrying the PDXK variants (PDXK VAR) in a mutant dPdxk1 background, the PDXKVAR/CyGFP, MKRS/TM6B females to CyGFP/Sco, dPdxk1/TM6B males are crossed. The progeny of this cross, PDXKVAR /CyGFP, dPdxk1/TM6B, is crossed inter se to obtain a stable stock | Drosophila melanogaster |
V128I | naturally occuring mutation, the mutant shows reduced catalytic activity and/or reduced affinity for PLP precursors, the mutant cannot complement the inactive Drosophila melanogaster dPdxk1 mutant when expressed in the mutant flies. Mutant V128I isplays a damaging score of 0.99. The V128I mutation drastically increases KM for PL and KM for ATP with this vitamer, whereas it does not affect kcat | Homo sapiens |
KM Value [mM] | KM Value Maximum [mM] | Substrate | Comment | Organism | Structure |
---|---|---|---|---|---|
0.141 | - |
pyridoxal | pH 7.3, 37°C recombinant mutant H246Q | Homo sapiens | |
0.177 | - |
pyridoxal | pH 7.3, 37°C recombinant mutant A243G | Homo sapiens | |
0.189 | - |
pyridoxal | pH 7.3, 37°C recombinant wild-type enzyme | Homo sapiens | |
0.377 | - |
ATP | pH 7.3, 37°C recombinant mutant D87H | Homo sapiens | |
0.407 | - |
ATP | pH 7.3, 37°C recombinant wild-type enzyme | Homo sapiens | |
0.901 | - |
ATP | pH 7.3, 37°C recombinant mutant H246Q | Homo sapiens | |
1.024 | - |
ATP | pH 7.3, 37°C recombinant mutant A243G | Homo sapiens | |
2.09 | - |
pyridoxal | pH 7.3, 37°C recombinant mutant D87H | Homo sapiens | |
3.096 | - |
ATP | pH 7.3, 37°C recombinant mutant V128I | Homo sapiens | |
3.839 | - |
pyridoxal | pH 7.3, 37°C recombinant mutant V128I | Homo sapiens |
Metals/Ions | Comment | Organism | Structure |
---|---|---|---|
Mg2+ | required | Homo sapiens | |
Mg2+ | required | Drosophila melanogaster |
Natural Substrates | Organism | Comment (Nat. Sub.) | Natural Products | Comment (Nat. Pro.) | Rev. | Reac. |
---|---|---|---|---|---|---|
ATP + pyridoxal | Homo sapiens | - |
ADP + pyridoxal 5'-phosphate | - |
? | |
ATP + pyridoxal | Drosophila melanogaster | - |
ADP + pyridoxal 5'-phosphate | - |
? |
Organism | UniProt | Comment | Textmining |
---|---|---|---|
Drosophila melanogaster | Q7KUC2 | - |
- |
Homo sapiens | O00764 | - |
- |
Source Tissue | Comment | Organism | Textmining |
---|---|---|---|
brain | - |
Drosophila melanogaster | - |
HeLa cell | - |
Homo sapiens | - |
larva | - |
Drosophila melanogaster | - |
Substrates | Comment Substrates | Organism | Products | Comment (Products) | Rev. | Reac. |
---|---|---|---|---|---|---|
ATP + pyridoxal | - |
Homo sapiens | ADP + pyridoxal 5'-phosphate | - |
? | |
ATP + pyridoxal | - |
Drosophila melanogaster | ADP + pyridoxal 5'-phosphate | - |
? |
Subunits | Comment | Organism |
---|---|---|
homodimer | PDXK is a dimer of two identical monomers. Each subunit is made by 9 alpha-helices and 11 beta-strands that form a central beta-sheet flanked by helices on both sides. Asp87 is placed on the C-terminal end of an active site loop connecting alpha3 helix and strand beta4, which plays a crucial role in substrate binding. Tyr84, which is part of this loop, directly interacts with the B6 vitamer substrate stacking to its pyridine ring, see for PDB ID 3KEU | Homo sapiens |
Synonyms | Comment | Organism |
---|---|---|
PdxK | - |
Homo sapiens |
PdxK | - |
Drosophila melanogaster |
Temperature Optimum [°C] | Temperature Optimum Maximum [°C] | Comment | Organism |
---|---|---|---|
37 | - |
assay at | Homo sapiens |
Turnover Number Minimum [1/s] | Turnover Number Maximum [1/s] | Substrate | Comment | Organism | Structure |
---|---|---|---|---|---|
0.47 | - |
ATP | pH 7.3, 37°C recombinant mutant A243G | Homo sapiens | |
0.47 | - |
pyridoxal | pH 7.3, 37°C recombinant mutant A243G | Homo sapiens | |
0.58 | - |
ATP | pH 7.3, 37°C recombinant mutant H246Q | Homo sapiens | |
0.58 | - |
pyridoxal | pH 7.3, 37°C recombinant mutant H246Q | Homo sapiens | |
0.67 | - |
ATP | pH 7.3, 37°C recombinant mutant D87H | Homo sapiens | |
0.67 | - |
pyridoxal | pH 7.3, 37°C recombinant mutant D87H | Homo sapiens | |
0.97 | - |
ATP | pH 7.3, 37°C recombinant wild-type enzyme | Homo sapiens | |
0.97 | - |
pyridoxal | pH 7.3, 37°C recombinant wild-type enzyme | Homo sapiens | |
1.12 | - |
ATP | pH 7.3, 37°C recombinant mutant V128I | Homo sapiens | |
1.12 | - |
pyridoxal | pH 7.3, 37°C recombinant mutant V128I | Homo sapiens |
pH Optimum Minimum | pH Optimum Maximum | Comment | Organism |
---|---|---|---|
7.3 | - |
assay at | Homo sapiens |
General Information | Comment | Organism |
---|---|---|
malfunction | in Drosophila, mutations in the dPdxk gene cause chromosome aberrations (CABs) and increased glucose content in larval hemolymph. The phenotype is rescued by the expression of wild-type human PDXK enzyme, although not by human PDXK mutants D87H, V128I, H246Q, and A243G | Drosophila melanogaster |
malfunction | the four PDXK human variants, D87H, V128I, H246Q, and A243Gf D87H, V128I, H246Q and A243G proteins show reduced catalytic activity and/or reduced affinity for PLP precursors. Although these variants are rare in population and carried in heterozygous condition, it is suggested that in certain metabolic contexts and diseases in which PLP levels are reduced, the presence of these PDXK variants might threaten genome integrity and increase cancer risk | Homo sapiens |
physiological function | in eukaryotes, pyridoxal kinase (PDXK) acts in vitamin B6 salvage pathway to produce pyridoxal 5'-phosphate (PLP), the active form of the vitamin, which is implicated in numerous crucial metabolic reactions. PDXK converts PLP precursors such as pyridoxal (PL), pyridoxamine (PM) and pyridoxine (PN) taken from food into PLP, PMP and PNP, respectively. PNPO catalyzes the oxidation of PMP and PNP into PLP. PLP performs many functions by working as coenzyme for a wide number of enzymes which control amino acid, lipid and carbohydrate metabolism | Homo sapiens |
physiological function | in eukaryotes, pyridoxal kinase (PDXK) acts in vitamin B6 salvage pathway to produce pyridoxal 5'-phosphate (PLP), the active form of the vitamin, which is implicated in numerous crucial metabolic reactions. PDXK converts PLP precursors such as pyridoxal (PL), pyridoxamine (PM) and pyridoxine (PN) taken from food into PLP, PMP and PNP, respectively. PNPO catalyzes the oxidation of PMP and PNP into PLP. PLP performs many functions by working as coenzyme for a wide number of enzymes which control amino acid, lipid and carbohydrate metabolism | Drosophila melanogaster |
kcat/KM Value [1/mMs-1] | kcat/KM Value Maximum [1/mMs-1] | Substrate | Comment | Organism | Structure |
---|---|---|---|---|---|
0.29 | - |
pyridoxal | pH 7.3, 37°C recombinant mutant V128I | Homo sapiens | |
0.32 | - |
pyridoxal | pH 7.3, 37°C recombinant mutant D87H | Homo sapiens | |
0.36 | - |
ATP | pH 7.3, 37°C recombinant mutant V128I | Homo sapiens | |
0.46 | - |
ATP | pH 7.3, 37°C recombinant mutant A243G | Homo sapiens | |
0.64 | - |
ATP | pH 7.3, 37°C recombinant mutant H246Q | Homo sapiens | |
1.78 | - |
ATP | pH 7.3, 37°C recombinant mutant D87H | Homo sapiens | |
2.38 | - |
ATP | pH 7.3, 37°C recombinant wild-type enzyme | Homo sapiens | |
2.66 | - |
pyridoxal | pH 7.3, 37°C recombinant mutant A243G | Homo sapiens | |
4.11 | - |
pyridoxal | pH 7.3, 37°C recombinant mutant H246Q | Homo sapiens | |
5.13 | - |
pyridoxal | pH 7.3, 37°C recombinant wild-type enzyme | Homo sapiens |