2019
DOI: 10.1002/2211-5463.12617
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Human aldehyde oxidase (hAOX1): structure determination of the Moco‐free form of the natural variant G1269R and biophysical studies of single nucleotide polymorphisms

Abstract: Human aldehyde oxidase ( hAOX 1) is a molybdenum enzyme with high toxicological importance, but its physiological role is still unknown. hAOX 1 metabolizes different classes of xenobiotics and is one of the main drug‐metabolizing enzymes in the liver, along with cytochrome P450. hAOX 1 oxidizes and inactivates a large number of drug molecules and has been responsible for the failure of several phase I clinical trials. The interind… Show more

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Cited by 11 publications
(12 citation statements)
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“…Moreover, the additives Gly-Gly-Gly ( T m of 59.72 °C), PEG3350 ( T m of 59.64 °C), DNA Library ( T m of 59.53 °C), Biotin ( T m of 59.31 °C), and TCEP ( T m of 59.29 °C) exhibit higher T m values than the control ( Figure 4 C). The observed slight positive melting temperature shift (Δ T m) might contribute to increase the protein stability reducing the respective conformational flexibility favoring further structural studies [ 57 , 58 ]. Hence, the referred additives could be considered promising candidates to be included in (i) the early stages of STEAP1 production and expression to promote a proper folding and to prevent aggregation, and (ii) the final protein buffer as putative crystallization additives.…”
Section: Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…Moreover, the additives Gly-Gly-Gly ( T m of 59.72 °C), PEG3350 ( T m of 59.64 °C), DNA Library ( T m of 59.53 °C), Biotin ( T m of 59.31 °C), and TCEP ( T m of 59.29 °C) exhibit higher T m values than the control ( Figure 4 C). The observed slight positive melting temperature shift (Δ T m) might contribute to increase the protein stability reducing the respective conformational flexibility favoring further structural studies [ 57 , 58 ]. Hence, the referred additives could be considered promising candidates to be included in (i) the early stages of STEAP1 production and expression to promote a proper folding and to prevent aggregation, and (ii) the final protein buffer as putative crystallization additives.…”
Section: Resultsmentioning
confidence: 99%
“…Several other additives noticeably decreased the STEAP1 thermal stability, in particular Fos Choline 12 ( T m of 36.09 °C), K + Sulfate ( T m of 44.08 °C), Na + Phosphate (dibasic) ( T m of 46.60 °C), Mg 2+ Sulfate ( T m of 48.08 °C) and Na + Phosphate (monobasic) ( T m of 50.18 °C). These negative Δ T m values potentially indicate important structural changes towards a more disordered conformation or even protein misfolding [ 57 , 58 ]. A ranking of the best and the worst additives and their respective Tm is summed up in Figure 5 .…”
Section: Resultsmentioning
confidence: 99%
“…The first three-dimensional (3D) structure of AOX was determined for the mouse isoform mAOX3 (PDB ID: 3ZYV), followed, in 2015, by the structure of hAOX1, reported in the free (PDB ID: 4UHW) and complex forms (structure with the inhibitor thioridazine and the substrate phthalazine bound, PDB ID: 4UHX). Later, structures of the single nucleotide polymorphs (SNPs) S1271L and G1269R were reported, and very recently the catalytic mechanism of hAOX1 for the oxidation reaction of phthalazine to phthalazin-1­(2 H )-one was studied with atomistic resolution using computational tools …”
Section: Introductionmentioning
confidence: 99%
“…Humans have functionally inactive AOX1 allelic variants as well as variants encoding enzymes with different catalytic activities (i.e., slow and rapid metabolizers) (Foti et al 2016 ; Hartmann et al 2016 ; Mota et al 2019 ). In addition, single nucleotide polymorphisms affecting the FAD binding site have been demonstrated to increase the rate of superoxide production (Foti et al 2017 ).…”
Section: Examples Of Metabolic Reactions Of Mao Substratesmentioning
confidence: 99%