The catalytic function of DNA polymerase β (pol β) fulfills the gap-filling requirement of the base excision DNA repair pathway by incorporating a single nucleotide into a gapped DNA substrate resulting from the removal of damaged DNA bases. Most importantly, pol β can select the correct nucleotide from a pool of similarly structured nucleotides to incorporate into DNA in order to prevent the accumulation of mutations in the genome. Pol β is likely to employ various mechanisms for substrate selection.
View Article and Find Full Text PDF8-Oxoguanine glycosylase (OGG1) is a base excision repair enzyme responsible for the recognition and removal of 8-oxoguanine, a commonly occurring oxidized DNA modification. OGG1 prevents the accumulation of mutations and regulates the transcription of various oxidative stress-response genes. In addition to targeting DNA, oxidative stress can affect proteins like OGG1 itself, specifically at cysteine residues.
View Article and Find Full Text PDFThe human DNA polymerase (pol) β cancer variant K289M has altered polymerase activity , and the structure of wild-type pol β reveals that the K289 side chain contributes to a network of stabilizing interactions in a C-terminal region of the enzyme distal to the active site. Here, we probed the capacity of the K289M variant to tolerate strain introduced within the C-terminal region and active site. Strain was imposed by making use of a dGTP analogue containing a CF group substitution for the β-γ bridging oxygen atom.
View Article and Find Full Text PDFDuring oxidative stress, inflammation, or environmental exposure, ribo- and deoxyribonucleotides are oxidatively modified. 8-Oxo-7,8-dihydro-2'-guanosine (8-oxo-G) is a common oxidized nucleobase whose deoxyribonucleotide form, 8-oxo-dGTP, has been widely studied and demonstrated to be a mutagenic substrate for DNA polymerases. Guanine ribonucleotides are analogously oxidized to r8-oxo-GTP, which can constitute up to 5% of the rGTP pool.
View Article and Find Full Text PDFDNA polymerase β (pol β) selects the correct deoxyribonucleoside triphosphate for incorporation into the DNA polymer. Mistakes made by pol β lead to mutations, some of which occur within specific sequence contexts to generate mutation hotspots. The adenomatous polyposis coli (APC) gene is mutated within specific sequence contexts in colorectal carcinomas but the underlying mechanism is not fully understood.
View Article and Find Full Text PDFPhosphorus Sulfur Silicon Relat Elem
February 2019
During the course of an investigation of targeted inhibition of DNA polymerase beta (pol β) lyase activity using small molecules, we observed the formation of an aldimine between (2-formyl)phenylphosphonic acid (2FPP) and butylamine under basic aqueous conditions; complete deprotonation of the phosphonate group was required to stabilize the imine product. Results of computational docking studies suggested that the reaction of Lys-72 on the lyase active site with an aldehyde group could be facilitated by a proximal phosphonate, not only because of the phosphonate's ability to mimic phosphate interacting with the DNA binding site, but also because of its ability to shield the imine against hydrolysis. Novel pol β lyase inhibitors were thus prepared using a 2FPP analogue with an amine linker; P-C bond formation in synthesis of this intermediate was possible with an unprotected aldehyde using palladium-catalyzed, microwave-assisted Michaelis-Arbuzov chemistry.
View Article and Find Full Text PDFReactive oxygen and nitrogen species (RONS) are formed as byproducts of many endogenous cellular processes, in response to infections, and upon exposure to various environmental factors. An increase in RONS can saturate the antioxidation system and leads to oxidative stress. Consequently, macromolecules are targeted for oxidative modifications, including DNA and protein.
View Article and Find Full Text PDFDNA polymerase β (pol β) fills single nucleotide gaps in DNA during base excision repair and non-homologous end-joining. Pol β must select the correct nucleotide from among a pool of four nucleotides with similar structures and properties in order to maintain genomic stability during DNA repair. Here, we use a combination of X-ray crystallography, fluorescence resonance energy transfer and nuclear magnetic resonance to show that pol β's ability to access the appropriate conformations both before and upon binding to nucleotide substrates is integral to its fidelity.
View Article and Find Full Text PDFDNA polymerase β (Pol β) is essential for maintaining genomic integrity. During short-patch base excision repair (BER), Pol β incorporates a nucleotide into a single-gapped DNA substrate. Pol β may also function in long-patch BER, where the DNA substrate consists of larger gap sizes or 5'-modified downstream DNA.
View Article and Find Full Text PDFWe examine the DNA polymerase β (pol β) transition state (TS) from a leaving group pre-steady-state kinetics perspective by measuring the rate of incorporation of dNTPs and corresponding novel β,γ-CXY-dNTP analogues, including individual β,γ-CHF and -CHCl diastereomers with defined stereochemistry at the bridging carbon, during the formation of right (R) and wrong (W) base pairs. Brønsted plots of log k versus p K of the leaving group bisphosphonic acids are used to interrogate the effects of the base identity, the dNTP analogue leaving group basicity, and the precise configuration of the C-X atom in R and S stereoisomers on the rate-determining step ( k). The dNTP analogues provide a range of leaving group basicity and steric properties by virtue of monohalogen, dihalogen, or methyl substitution at the carbon atom bridging the β,γ-bisphosphonate that mimics the natural pyrophosphate leaving group in dNTPs.
View Article and Find Full Text PDFDNA polymerases synthesize new DNA during DNA replication and repair, and their ability to do so faithfully is essential to maintaining genomic integrity. DNA polymerase β (Pol β) functions in base excision repair to fill in single-nucleotide gaps, and variants of Pol β have been associated with cancer. Specifically, the E288K Pol β variant has been found in colon tumors and has been shown to display sequence-specific mutator activity.
View Article and Find Full Text PDFThe hydrophobic hinge region of DNA polymerase β (pol β) is located between the fingers and palm subdomains. The hydrophobicity of the hinge region is important for maintaining the geometry of the binding pocket and for the selectivity of the enzyme. Various cancer-associated pol β variants in the hinge region have reduced fidelity resulting from a decreased discrimination at the level of dNTP binding.
View Article and Find Full Text PDFK289M is a variant of DNA polymerase β (pol β) that has previously been identified in colorectal cancer. The expression of this variant leads to a 16-fold increase in mutation frequency at a specific site in vivo and a reduction in fidelity in vitro in a sequence context-specific manner. Previous work shows that this reduction in fidelity results from a decreased level of discrimination against incorrect nucleotide incorporation at the level of polymerization.
View Article and Find Full Text PDFSubunit III of cytochrome c oxidase possesses structural domains that contain conserved phospholipid binding sites. Mutations within these domains induce a loss of phospholipid binding, coinciding with decreased electron transfer activity. Functional and structural roles for phospholipids in the enzyme from Rhodobacter sphaeroides have been investigated.
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