Tanya Ertunç scite author profile

The nature of the abiotic birnessite (δ-MnO(2))-catalyzed transformation products of phenolic compounds in the presence of soil organic matter is crucial for understanding the fate and stability of ubiquitous phenolic carbon in the environment. (14)C-radioactive and (13)C-stable-isotope tracers were used to study the mineralization and transformation by δ-MnO(2) of two typical humus and lignin phenolic monomers--catechol and p-coumaric acid--in the presence and absence of agricultural and forest soil humic acids (HAs) at pH 5-8. Mineralization decreased with increasing solution pH, and catechol was markedly more mineralized than p-coumaric acid. In the presence of HAs, the mineralization was strongly reduced, and considerable amounts of phenolic residues were bound to the HAs, independent of the solution pH. The HA-bound residues were homogeneously distributed within the humic molecules, and most still contained the unchanged aromatic ring as revealed by (13)C NMR analysis, indicating that the residues were probably bound via ester or ether bonds. The study provides important information on δ-MnO(2) stimulation of phenolic carbon binding to humic substances and the molecular distribution and chemical structure of the bound residues, which is essential for understanding the environmental fates of both naturally occurring and anthropogenic phenolic compounds.

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Catalytic activity, duplication and evolution of the CYP98 cytochrome P450 family in wheat

Morant

Schoch

Ullmann

et al. 2006

Plant Mol Biol

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A burst of evolutionary duplication upon land colonization seems to have led to the large superfamily of cytochromes P450 in higher plants. Within this superfamily some clans and families are heavily duplicated. Others, such as genes involved in the phenylpropanoid pathway have led to fewer duplication events. Eight coding sequences belonging to the CYP98 family reported to catalyze the 3-hydroxylation step in this pathway were isolated from Triticum aestivum (wheat) and expressed in yeast. Comparison of the catalytic properties of the recombinant enzymes with those of CYP98s from other plant taxa was coupled to phylogenetic analyses. Our results indicate that the unusually high frequency of gene duplication in the wheat CYP98 family is a direct or indirect result from ploidization. While ancient duplication led to evolution of enzymes with different substrate preferences, most of recent duplicates underwent silencing via degenerative mutations. Three of the eight tested CYP98s from wheat have phenol meta-hydroxylase activity, with p-coumaroylshikimate being the primary substrate for all of these, as it is the case for CYP98s from sweet basil and Arabidopsis thaliana. However, CYP98s from divergent taxa have acquired different additional subsidiary activities. Some of them might be significant in the metabolism of various free or conjugated phenolics in different plant species. One of the most significant is meta-hydroxylation of p-coumaroyltyramine, predominantly by the wheat enzymes, for the synthesis of suberin phenolic monomers. Homology modeling, confirmed by directed mutagenesis, provides information on the protein regions and structural features important for some observed changes in substrate selectivity. They indicate that the metabolism of quinate ester and tyramine amide of p-coumaric acid rely on the same recognition site in the protein.

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Mineralization, metabolism and formation of non-extractable residues of 14C-labelled organic contaminants during pilot-scale composting of municipal biowaste

Hartlieb

Ertunç

Schäffer

et al. 2003

Environmental Pollution

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Application of [U-¹⁴C-phenyl]-cyprodinil on spring wheat to investigate the formation and structure of non-extractable residues within the cell wall

Ertunç

Schmidt

Maier

et al. 2003

Toxicological & Environmental Chemistry

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Tanya Ertunç

Birnessite-Induced Binding of Phenolic Monomers to Soil Humic Substances and Nature of the Bound Residues

Catalytic activity, duplication and evolution of the CYP98 cytochrome P450 family in wheat

Mineralization, metabolism and formation of non-extractable residues of 14C-labelled organic contaminants during pilot-scale composting of municipal biowaste

Application of [U-¹⁴C-phenyl]-cyprodinil on spring wheat to investigate the formation and structure of non-extractable residues within the cell wall

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Tanya Ertunç

Birnessite-Induced Binding of Phenolic Monomers to Soil Humic Substances and Nature of the Bound Residues

Catalytic activity, duplication and evolution of the CYP98 cytochrome P450 family in wheat

Mineralization, metabolism and formation of non-extractable residues of 14C-labelled organic contaminants during pilot-scale composting of municipal biowaste

Application of [U-14C-phenyl]-cyprodinil on spring wheat to investigate the formation and structure of non-extractable residues within the cell wall

Contact Info

Product

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Application of [U-¹⁴C-phenyl]-cyprodinil on spring wheat to investigate the formation and structure of non-extractable residues within the cell wall