Adrian Katona scite author profile

Acrylic acids and alanines substituted with heteroaryl groups at the beta-position were synthesized and spectroscopically characterized (UV, HRMS, (1)H NMR, and (13)C NMR spectroscopy). The heteroaryl groups were furanyl, thiophenyl, benzofuranyl, and benzothiophenyl and contained the alanyl side chains either at the 2- or 3-positions. While the former are good substrates for phenylalanine ammonia-lyase (PAL), the latter compounds are inhibitors. Exceptions are thiophen-3-yl-alanine, a moderate substrate and furan-3-yl-alanine, which is inert. Possible reasons for these exceptions are discussed. Starting from racemic heteroaryl-2-alanines their D-enantiomers were prepared by using a stereodestructive procedure. From the heteroaryl-2-acrylates, the L-enantiomers of the heteroaryl-2-alanines were prepared at high ammonia concentration. These results can be best explained by a Friedel-Crafts-type electrophilic attack at the aromatic part of the substrates as the initial step of the PAL reaction.

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Increased Saccharification Yields from Aspen Biomass Upon Treatment with Enzymatically Generated Peracetic Acid

Duncan¹,

Jing

Katona

et al. 2009

Appl Biochem Biotechnol

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The recalcitrance of lignocellulosic biomass to enzymatic release of sugars (saccharification) currently limits its use as feedstock for biofuels. Enzymatic hydrolysis of untreated aspen wood releases only 21.8% of the available sugars due primarily to the lignin barrier. Nature uses oxidative enzymes to selectively degrade lignin in lignocellulosic biomass, but thus far, natural enzymes have been too slow for industrial use. In this study, oxidative pretreatment with commercial peracetic acid (470 mM) removed 40% of the lignin (from 19.9 to 12.0 wt.% lignin) from aspen and enhanced the sugar yields in subsequent enzymatic hydrolysis to about 90%. Increasing the amount of lignin removed correlated with increasing yields of sugar release. Unfortunately, peracetic acid is expensive, and concentrated forms can be hazardous. To reduce costs and hazards associated with using commercial peracetic acid, we used a hydrolase to catalyze the perhydrolysis of ethyl acetate generating 60-70 mM peracetic acid in situ as a pretreatment to remove lignin from aspen wood. A single pretreatment was insufficient, but multiple cycles (up to eight) removed up to 61.7% of the lignin enabling release of >90% of the sugars during saccharification. This value corresponds to a predicted 581 g of fermentable sugars from 1 kg of aspen wood. Improvements in the enzyme stability are needed before the enzymatically generated peracetic acid is a commercially viable alternative.

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Chemoenzymatic One‐Pot Synthesis of Enantiopure L‐Arylalanines from Arylaldehydes

2006

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Keywords: Wittig reaction / Porcine liver esterase / Phenylalanine ammonia lyase / Sonification / Broad substrate specificity Various enantiopure L-arylalanines can be prepared from the corresponding arylaldehydes in one-pot fashion by a combination of chemical and enzymatic reactions. The reagents used were (triphenyl-λ 5 -phosphanylidene)ethyl acetate (Wittig reaction), porcine liver esterase (PLE), phenylalanine ammonia lyase (PAL) from parsley and ammonia. As examples the following aryl groups were used: phenyl, 4-chlorophenyl,

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Inhibition of Histidine Ammonia Lyase by Heteroaryl‐alanines and Acrylates

Katona

Toşa

Paizs

et al. 2006

Chemistry & Biodiversity

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Histidine ammonia lyase (HAL) catalyzes the elimination of ammonia from the substrate to form (E)-urocanate. The interaction between HAL and acrylic acids or alanines substituted with heteroaryl groups in the beta-position was investigated. These proved to be strong competitive inhibitors when the heteroaryl groups were furanyl, thiophenyl, benzofuranyl, and benzothiophenyl, carrying the alanyl or acrylic side chains either in 2 or 3 positions, with K(i) values between 18 and 139 microM. The exception was (furan-3-yl)alanine which was found to be inert. Tryptophan and 1-methyltryptophan, as well as the corresponding acrylates (=prop-2-enoates), are strong mixed inhibitors of HAL. Theoretically, L-histidine can be dissected into 4-methyl-1H-imidazole and glycine. Whereas these two compounds separately are only very weak inhibitors of HAL, equimolar amounts of both show a K(i) value of 1.7+/-0.09 mM which is to be compared with the K(m) value of 15.6 mM for the normal reaction. We conclude that 5-methyl-1H-imidazole and glycine mimic the substrate and occupy the active site of HAL in a similar orientation.

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Adrian Katona

Cellulase kinetics as a function of cellulose pretreatment

The Interaction of Heteroaryl‐Acrylates and Alanines with Phenylalanine Ammonia‐Lyase from Parsley

Increased Saccharification Yields from Aspen Biomass Upon Treatment with Enzymatically Generated Peracetic Acid

Chemoenzymatic One‐Pot Synthesis of Enantiopure L‐Arylalanines from Arylaldehydes

Inhibition of Histidine Ammonia Lyase by Heteroaryl‐alanines and Acrylates

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