Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:6.5.1.2 (DNA ligase)
 2,749 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Tyrosyl-DNA phosphodiesterase (Tdp1) is a member of the phospholipase D superfamily and acts as a DNA repair enzyme that removes stalled topoisomerase I- DNA complexes by hydrolyzing the bond between a tyrosine side chain and a DNA 3' phosphate. Despite the complexity of the substrate of this phosphodiesterase, vanadate succeeded in linking human Tdp1, a tyrosine-containing peptide, and a single-stranded DNA oligonucleotide into a quaternary complex that mimics the transition state for the first step of the catalytic reaction. The conformation of the bound substrate mimic gives compelling evidence that the topoisomerase I-DNA complex must undergo extensive modification prior to cleavage by Tdp1. The structure also illustrates that the use of vanadate as the central moiety in high-order complexes has the potential to be a general method for capturing protein-substrate interactions for phosphoryl transfer enzymes, even when the substrates are large, complicated, and unusual.
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PMID:Crystal structure of a transition state mimic for Tdp1 assembled from vanadate, DNA, and a topoisomerase I-derived peptide. 1261 86

DNA is subject to a wide range of insults, resulting from endogenous and exogenous sources that need to be metabolized/resolved to maintain genome integrity. Tyrosyl-DNA phosphodiesterase I (Tdp1) is a eukaryotic DNA repair enzyme that catalyzes the removal of covalent 3'-DNA adducts. As a phospholipase D superfamily member Tdp1 utilizes two catalytic histidines each within a His-Lys-Asn motif. Tdp1 was discovered for its ability to hydrolyze the 3'-phospho-tyrosyl that in the cell covalently links DNA Topoisomerase I (Topo1) and DNA. Tdp1's list of substrates has since grown and can be divided into two groups: protein-DNA adducts, such as camptothecin stabilized Topo1-DNA adducts, and modified nucleotides, including oxidized nucleotides and chain terminating nucleoside analogs. Since many of Tdp1's substrates are generated by clinically relevant chemotherapeutics, Tdp1 became a therapeutic target for molecularly targeted small molecules. Tdp1's unique catalytic cycle allows for two different targeting strategies: (1) the intuitive inhibition of Tdp1 catalysis to prevent Tdp1-mediated repair of chemotherapeutically induced DNA adducts, thereby enhancing their toxicity and (2) stabilization of the Tdp1-DNA covalent reaction intermediate, prevents resolution of Tdp1-DNA adduct and increases the half-life of this potentially toxic DNA adduct. This concept is best illustrated by a catalytic Tdp1 mutant that forms the molecular basis of the autosomal recessive neurodegenerative disease spinocerebellar ataxia with axonal neuropathy, and results in an increased stability of its Tdp1-DNA reaction intermediate. Here, we will discuss Tdp1 catalysis from a structure-function perspective, Tdp1 substrates and Tdp1 potential as a therapeutic target.
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PMID:Tyrosyl-DNA phosphodiesterase I resolves both naturally and chemically induced DNA adducts and its potential as a therapeutic target. 2532 5

Tyrosyl-DNA phosphodiesterase I (Tdp1) is a DNA repair enzyme conserved across eukaryotes that catalyzes the hydrolysis of the phosphodiester bond between the tyrosine residue of topoisomerase I and the 3'-phosphate of DNA. Atomic level details of the mechanism of Tdp1 are proposed and analyzed using a fully quantum mechanical, geometrically constrained model. The structural basis for the computational model is the vanadate-inhibited crystal structure of human Tdp1 (hTdp1, Protein Data Bank entry 1RFF ). Density functional theory computations are used to acquire thermodynamic and kinetic data along the catalytic pathway, including the phosphoryl transfer and subsequent hydrolysis. Located transition states and intermediates along the reaction coordinate suggest an associative phosphoryl transfer mechanism with five-coordinate phosphorane intermediates. Similar to both theoretical and experimental results for phospholipase D, the proposed mechanism for hTdp1 also includes the thermodynamically favorable possibility of a four-coordinate phosphohistidine "dead-end" product.
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PMID:A Theoretical Study of Phosphoryl Transfers of Tyrosyl-DNA Phosphodiesterase I (Tdp1) and the Possibility of a "Dead-End" Phosphohistidine Intermediate. 2612 57