N-carboxyacyl and N-α-aminoacyl derivatives of aminoaldehydes as shared substrates of plant aldehyde dehydrogenases 10 and 7.

IF 3 3区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

Amino Acids Pub Date : 2024-08-29 DOI:10.1007/s00726-024-03415-4

Michaela Masopustová, Adam Goga, Miroslav Soural, Martina Kopečná, Marek Šebela

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Abstract

Aldehyde dehydrogenases (ALDHs) represent a superfamily of enzymes, which oxidize aldehydes to the corresponding acids. Certain families, namely ALDH9 and ALDH10, are best active with ω-aminoaldehydes arising from the metabolism of polyamines such as 3-aminopropionaldehyde and 4-aminobutyraldehyde. Plant ALDH10s show broad specificity and accept many different aldehydes (aliphatic, aromatic and heterocyclic) as substrates. This work involved the above-mentioned aminoaldehydes acylated with dicarboxylic acids, phenylalanine, and tyrosine. The resulting products were then examined with native ALDH10 from pea and recombinant ALDH7s from pea and maize. This investigation aimed to find a common efficient substrate for the two plant ALDH families. One of the best natural substrates of ALDH7s is aminoadipic semialdehyde carrying a carboxylic group opposite the aldehyde group. The substrate properties of the new compounds were demonstrated by mass spectrometry of the reaction mixtures, spectrophotometric assays and molecular docking. The N-carboxyacyl derivatives were good substrates of pea ALDH10 but were only weakly oxidized by the two plant ALDH7s. The N-phenylalanyl and N-tyrosyl derivatives of 3-aminopropionaldehyde were good substrates of pea and maize ALDH7. Particularly the former compound was converted very efficiently (based on the k_cat/K_m ratio), but it was only weakly oxidized by pea ALDH10. Although no compound exhibited the same level of substrate properties for both ALDH families, we show that these enzymes may possess more common substrates than expected.

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氨基醛的 N-羧基和 N-α-氨基醛衍生物是植物醛脱氢酶 10 和 7 的共同底物。

醛脱氢酶（ALDHs）是一种超家族酶，可将醛氧化成相应的酸。某些家族，即 ALDH9 和 ALDH10，对多胺（如 3-氨基丙醛和 4-氨基丁醛）代谢过程中产生的 ω-氨基醛最有活性。植物 ALDH10s 具有广泛的特异性，可接受多种不同的醛（脂肪族、芳香族和杂环族）作为底物。这项工作涉及上述与二羧酸、苯丙氨酸和酪氨酸酰化的氨基醛。然后用来自豌豆的原生 ALDH10 以及来自豌豆和玉米的重组 ALDH7s 对所得产物进行了检验。这项研究旨在为两种植物的 ALDH 家族寻找一种共同的高效底物。ALDH7s 的最佳天然底物之一是带有与醛基相反的羧基的氨基己二酸半醛。通过反应混合物的质谱分析、分光光度测定和分子对接，证明了新化合物的底物特性。N- 羧酰基衍生物是豌豆 ALDH10 的良好底物，但只被两种植物 ALDH7 微弱氧化。3-aminopropionaldehyde 的 N-苯丙氨酰和 N-酪氨酰衍生物是豌豆和玉米 ALDH7 的良好底物。尤其是前一种化合物的转化效率非常高（基于 kcat/Km 比值），但豌豆 ALDH10 对其氧化作用很弱。虽然没有一种化合物对两个 ALDH 家族的底物特性表现出相同的水平，但我们发现这些酶可能比预期的拥有更多的共同底物。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Amino Acids 生物-生化与分子生物学

CiteScore

6.40

自引率

5.70%

发文量

审稿时长

2.2 months

期刊介绍： Amino Acids publishes contributions from all fields of amino acid and protein research: analysis, separation, synthesis, biosynthesis, cross linking amino acids, racemization/enantiomers, modification of amino acids as phosphorylation, methylation, acetylation, glycosylation and nonenzymatic glycosylation, new roles for amino acids in physiology and pathophysiology, biology, amino acid analogues and derivatives, polyamines, radiated amino acids, peptides, stable isotopes and isotopes of amino acids. Applications in medicine, food chemistry, nutrition, gastroenterology, nephrology, neurochemistry, pharmacology, excitatory amino acids are just some of the topics covered. Fields of interest include: Biochemistry, food chemistry, nutrition, neurology, psychiatry, pharmacology, nephrology, gastroenterology, microbiology