Crystal Structure of Allantoinase from Escherichia coli BL21: A Molecular Insight into a Role of the Active Site Loops in Catalysis

Huang, Yen‐Hua; Yang, Po-Chun; Lin, En‐Shyh; Ho, Ya-Yeh; Peng, Wei-Feng; Lu, Hsin-Pin; Huang, Chien-Chih; Huang, Cheng-Yang

doi:10.3390/molecules28020827

Cited by 3 publications

(2 citation statements)

References 69 publications

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“…Dihydropyrimidinase [ 61 ] is ubiquitously found in living organisms, playing a crucial role in catalyzing a key step in the hydrolysis of dihydrouracil to N-carbamoyl-β-alanine during pyrimidine degradation [ 62 , 63 ]. As a member of the cyclic amidohydrolase family, which includes, dihydroorotase [ 64 , 65 ], and allantoinase [ 66 , 67 , 68 ] with similar active sites, dihydropyrimidinase features an unusual post-translational carbamylated modification of the Lys residue (Kcx) within its active site. Notably, dihydropyrimidinase exhibits the capacity to bind 5-FU [ 69 ] and 5-aminouracil [ 70 ].…”

Section: The Binding Mode Of 5-fumentioning

confidence: 99%

Binding Pattern and Structural Interactome of the Anticancer Drug 5-Fluorouracil: A Critical Review

Lin,

Huang

2024

IJMS

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5-Fluorouracil (5-FU) stands as one of the most widely prescribed chemotherapeutics. Despite over 60 years of study, a systematic synopsis of how 5-FU binds to proteins has been lacking. Investigating the specific binding patterns of 5-FU to proteins is essential for identifying additional interacting proteins and comprehending their medical implications. In this review, an analysis of the 5-FU binding environment was conducted based on available complex structures. From the earliest complex structure in 2001 to the present, two groups of residues emerged upon 5-FU binding, classified as P- and R-type residues. These high-frequency interactive residues with 5-FU include positively charged residues Arg and Lys (P type) and ring residues Phe, Tyr, Trp, and His (R type). Due to their high occurrence, 5-FU binding modes were simplistically classified into three types, based on interactive residues (within <4 Å) with 5-FU: Type 1 (P-R type), Type 2 (P type), and Type 3 (R type). In summary, among 14 selected complex structures, 8 conform to Type 1, 2 conform to Type 2, and 4 conform to Type 3. Residues with high interaction frequencies involving the N1, N3, O4, and F5 atoms of 5-FU were also examined. Collectively, these interaction analyses offer a structural perspective on the specific binding patterns of 5-FU within protein pockets and contribute to the construction of a structural interactome delineating the associations of the anticancer drug 5-FU.

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Section: The Binding Mode Of 5-fumentioning

confidence: 99%

Binding Pattern and Structural Interactome of the Anticancer Drug 5-Fluorouracil: A Critical Review

Lin,

Huang

2024

IJMS

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“…The fourth possible route D suggests that both the cyclization to the hydantoin and its hydrolysis to the ureido moiety occur during the condensation process of lysine to the N-carboxy-amino acid. The hydantoin formation and opening might be catalyzed by a single enzyme of the cyclic amidohydrolase family (allantoinase, dihydropyrimidinase, dihydrooratase, hydantoinase, urease, and imidase) [25] that can reversibly catalyze the concession of N-carboxy-peptide to the hydantoin and its stereoselective hydrolysis to the ureido-bridge-containing peptide [26]. Alternatively, such conversion might be spontaneous in a similar fashion to the nonenzymatic isomerization of Asp in protein under physiological conditions.…”

Section: Hydantoanabaenopeptin B (2) Presented a Negative Hr Esi Ms M...mentioning

confidence: 99%

Hydantoanabaenopeptins from Lake Kinneret Microcystis Bloom, Isolation, and Structure Elucidation of the Possible Intermediates in the Anabaenopeptins Biosynthesis

2023

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Anabaenopeptins are common metabolites of cyanobacteria. In the course of reisolation of the known aeruginosins KT608A and KT608B for bioassay studies, we noticed the presence of some unknown anabaenopeptins in the extract of a Microcystis cell mass collected during the 2016 spring bloom event in Lake Kinneret, Israel. The 1H NMR spectra of some of these compounds presented a significant difference in the appearance of the ureido bridge protons, and their molecular masses did not match any one of the 152 known anabaenopeptins. Analyses of the 1D and 2D NMR, HRMS, and MS/MS spectra of the new compounds revealed their structures as the hydantoin derivatives of anabaenopeptins A, B, F, and 1[Dht]-anabaenopeptin A and oscillamide Y (1, 2, 3, 6, and 4, respectively) and a new anabaenopeptin, 1[Dht]-anabaenopeptin A (5). The known anabaenopeptins A, B, and F and oscillamide Y (7, 8, 9, and 10, respectively) were present in the extract as well. We propose that 1–4 and 6 are the possible missing intermediates in the previously proposed partial biosynthesis route to the anabaenopeptins. Compounds 1–6 were tested for inhibition of the serine proteases trypsin and chymotrypsin and found inactive at a final concentration of ca. 54 μM.

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The complexed crystal structure of dihydropyrimidinase reveals a potential interactive link with the neurotransmitter γ-aminobutyric acid (GABA)

Huang,

Huang

2024

Biochemical and Biophysical Research Communications

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Crystal Structure of Allantoinase from Escherichia coli BL21: A Molecular Insight into a Role of the Active Site Loops in Catalysis

Cited by 3 publications

References 69 publications

Binding Pattern and Structural Interactome of the Anticancer Drug 5-Fluorouracil: A Critical Review

Binding Pattern and Structural Interactome of the Anticancer Drug 5-Fluorouracil: A Critical Review

Hydantoanabaenopeptins from Lake Kinneret Microcystis Bloom, Isolation, and Structure Elucidation of the Possible Intermediates in the Anabaenopeptins Biosynthesis

The complexed crystal structure of dihydropyrimidinase reveals a potential interactive link with the neurotransmitter γ-aminobutyric acid (GABA)

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