Stefanie Houwaart scite author profile

Stefanie Houwaart

3Publications

76Citation Statements Received

39Citation Statements Given

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University of Freiburg

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Pneumocandin Biosynthesis: Involvement of a trans‐Selective Proline Hydroxylase

2014

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Echinocandins are cyclic nonribosomal hexapeptides based mostly on nonproteinogenic amino acids and displaying strong antifungal activity. Despite previous studies on their biosynthesis by fungi, the origin of three amino acids, trans-4- and trans-3-hydroxyproline, as well as trans-3-hydroxy-4-methylproline, is still unknown. Here we describe the identification, overexpression, and characterization of GloF, the first eukaryotic α-ketoglutarate/Fe(II) -dependent proline hydroxylase from the pneumocandin biosynthesis cluster of the fungus Glarea lozoyensis ATCC 74030. In in vitro transformations with L-proline, GloF generates trans-4- and trans-3-hydroxyproline simultaneously in a ratio of 8:1; the latter reaction was previously unknown for proline hydroxylase catalysis. trans-4-Methyl-L-proline is converted into the corresponding trans-3-hydroxyproline. All three hydroxyprolines required for the biosynthesis of the echinocandins pneumocandins A0 and B0 in G. lozoyensis are thus provided by GloF. Sequence analyses revealed that GloF is not related to bacterial proline hydroxylases, and none of the putative proteins with high sequence similarity in the databases has been characterized so far.

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Cryptic Production of trans -3-Hydroxyproline in Echinocandin B Biosynthesis

Mattay

Houwaart

Hüttel

2018

Appl Environ Microbiol

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Echinocandins are antifungal nonribosomal hexapeptides produced by fungi. Two of the amino acids are hydroxy-l-prolines: -4-hydroxy-l-proline and, in most echinocandin structures, (-2,3)-3-hydroxy-(-2,4)-4-methyl-l-proline. In the case of echinocandin biosynthesis by , both amino acids are found in pneumocandin A, while in pneumocandin B the latter residue is replaced by -3-hydroxy-l-proline (3-Hyp). We have recently reported that all three amino acids are generated by the 2-oxoglutarate-dependent proline hydroxylase GloF. In echinocandin B biosynthesis by species, 3-Hyp derivatives have not been reported. Here we describe the heterologous production and kinetic characterization of HtyE, the 2-oxoglutarate-dependent proline hydroxylase from the echinocandin B biosynthetic cluster in Surprisingly, l-proline hydroxylation with HtyE resulted in an even higher proportion (∼30%) of 3-Hyp than that with GloF. This suggests that the selectivity for methylated 3-Hyp in echinocandin B biosynthesis is due solely to a substrate-specific adenylation domain of the nonribosomal peptide synthetase. Moreover, we observed that one product of HtyE catalysis, 3-hydroxy-4-methyl-l-proline, is slowly further oxidized at the methyl group, giving 3-hydroxy-4-hydroxymethyl-l-proline, upon prolonged incubation with HtyE. This dihydroxylated amino acid has been reported as a building block of cryptocandin, an echinocandin produced by Secondary metabolites from bacteria and fungi are often produced by sets of biosynthetic enzymes encoded in distinct gene clusters. Usually, each enzyme catalyzes one biosynthetic step, but multiple reactions are also possible. Pneumocandins A and B are produced by the fungus They belong to the echinocandin family, a group of nonribosomal cyclic lipopeptides that exhibit a strong antifungal activity. Chemical derivatives are important drugs for the treatment of systemic fungal infections. We have recently shown that in the biosynthesis of pneumocandins A and B, three hydroxyproline building blocks are provided by one proline hydroxylase. Here we demonstrate that the proline hydroxylase from echinocandin B biosynthesis in produces the same hydroxyprolines, with an increased proportion of-3-hydroxyproline. However, echinocandin B biosynthesis does not require -3-hydroxyproline; its formation remains cryptic. While one can only speculate on the evolutionary background of this unexpected finding, proline hydroxylation in and provides an unusual insight into peptide antibiotic biosynthesis-namely, the complex interplay between the selectivity of a hydroxylase and the substrate specificity of a nonribosomal peptide synthetase.

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Forschungsethik – Verantwortung des Naturwissenschaftlers im interdisziplinären Dialog

Houwaart

Baltes

Pavelka³

et al. 2015

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