Florence D. Berger scite author profile

The simple 5-furyl-2'-deoxyuridine ((Fur)dU) nucleobase exhibits dual probing characteristics displaying emissive sensitivity to changes in microenvironment polarity and to changes in solvent rigidity due to its molecular rotor character. Here, we demonstrate its ability to define the microenvironment of the various thymidine (T) loop residues within the thrombin binding aptamer (TBA) upon antiparallel G-quadruplex (GQ) folding and thrombin binding. The emissive sensitivity of the (Fur)dU probe to microenvironment polarity provides a diagnostic handle to distinguish T bases that are solvent-exposed within the GQ structure compared with probe location in the apolar duplex. Its molecular rotor properties then provide a turn-on fluorescent switch to identify which T residues within the GQ bind specifically to the protein target (thrombin). The fluorescence sensing characteristics of (Fur)dU make it an attractive tool for mapping aptamer-protein interactions at the nucleoside level for further development of modified aptamers for a wide range of diagnostic and therapeutic applications.

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Conformational Preference and Fluorescence Response of a C-Linked C8-Biphenyl-Guanine Lesion in the NarI Mutational Hotspot: Evidence for Enhanced Syn Adduct Formation

Berger

Sturla

Kung

et al. 2017

Chem. Res. Toxicol.

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Aromatic chemical carcinogens can undergo enzymatic transformations to produce a range of electrophilic species that attach covalently to the C8-site of 2'-deoxyguanosine (dG) to afford C8-dG adducts. The most studied C8-dG adducts are formed from arylamines and contain a N-linkage separating the dG from the C8-aryl moiety. Other carcinogenic species result in direct aryl ring attachment to the dG moiety, resulting in C-linked adducts. The resulting C-linked adducts have reduced conformational flexibility compared to the corresponding N-linked C8-dG adducts, which can alter their orientation in the DNA duplex. Described herein are structural studies of a fluorescent C-linked 4-fluorobiphenyl-dG (FBP-dG) that has been incorporated into the reiterated G-postion of the 12-mer NarI sequence and those containing other 5'-flanking nucleobases. FBP-dG displays a strong preference for adopting a syn conformation in the fully paired NarI duplex to produce an intercalated structure that exhibits stacking interactions between the C-linked biphenyl and the flanking bases. FBP-dG is also shown to significantly stabilize the slippage mutagenic intermediate (SMI) duplex containing the lesion and 5'-flanking base within a 2-base bulge. FBP-dG exhibits fluorescence sensitivity to SMI duplex formation that can readily distinguish it from the fully paired duplex. Molecular dynamics simulations and optical spectroscopy for the NarI oligonucleotides containing the C-linked FBP-dG predict increased rigidity of the biphenyl in the syn conformation. The greater propensity to generate the promutagenic syn conformation for the C-linked FBP-dG adduct compared to the N-linked 4-aminobiphenyl-dG adduct (ABP-dG) suggests greater mutagenicity for the C-linked analogue. These results highlight the effect of the adduct linkage type on the conformational properties of adducted DNA. The turn-on emission response of FBP-dG in the SMI duplex may be a powerful tool for monitoring SMI formation in the NarI sequence upon synthesis with DNA polymerases.

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Fluorescent Nucleobase Analogues with Extended Pi Surfaces Stabilize DNA Duplexes Containing O⁶‐Alkylguanine Adducts

Dahlmann

Berger

Kung

et al. 2018

Helvetica Chimica Acta

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Chemical alkylation of DNA produces potentially toxic and mutagenic damage such as O6‐alkylguanine (O6‐alkylG) adducts. Non‐natural nucleoside analogues that pair with DNA adducts provide a potential basis for studying damaged DNA. Herein, we evaluated the base pairing properties of elongated nucleoside analogues containing napthalene‐derived tricyclic nucleobases as DNA adduct‐pairing nucleoside analogues in DNA hybridization probes. DNA duplex melting studies revealed that the elongated nucleoside analogs formed more stable base pairs opposite O6‐alkylG than G and were better able to distinguish between G, O6‐alkylG, and an abasic site than any previously described nucleoside analogue. DNA duplexes containing an elongated base analogue exhibited different fluorescence intensities when paired opposite O6‐alkylG vs. G or abasic sites. Their selectivity for stabilizing alkylated DNA make the elongated hydrophobic base analogues improved candidates for incorporating into DNA hybridization probes targeting O6‐alkylG.

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Adduct Fluorescence as a Tool to Decipher Sequence Impact on Frameshift Mutations Mediated by a C-Linked C8-Biphenyl-Guanine Lesion

Berger

Manderville

Sturla

2019

Chem. Res. Toxicol.

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Aromatic chemicals can undergo metabolic activation to afford electrophilic species that react at the C8-site of 2′-deoxyguanosine (dG) to generate bulky C8-dG adducts as a basis of initiating carcinogenesis. These DNA lesions have served as models to understand the mechanism of frameshift mutagenesis, especially within CG-dinucleotide repeat sequences, such as NarI (5′-GGCXCC-3′, where X = C8-dG adduct), however there is still limited capacity to predict the likelihood of mutation arising within particular contexts, and hence chemistry-based strategies are needed for probing relationships between nucleic acid sequence and structure with replication errors. In the NarI sequence, certain C8-dG adducts may trigger in the course of DNA synthesis the formation of a slipped mutagenic intermediate (SMI) that contains a two nucleotide (XC) bulge in the template strand that can form upstream of the polymerase active site. This distortion facilitates polymerization but affords a GC dinucleotide deletion product (−2 frameshift mutation). In the current study, incorporating the fluorescent C-linked 4fluorobiphenyl-dG (FBP-dG) adduct into two 22-mer templates containing CG-dinucleotide repeats (NarI: 3′-CXCGGC-5′ and CG 3 : 3′-CXCGCG-5′, X = FBP-dG) and performing primer extension reactions using DNA polymerase I, Klenow fragment exo − (Kf − ) revealed a dramatic sequence-based difference in polymerase bypass efficiency. Primer extension past FBP-dG within the NarI sequence was strongly blocked, whereas Kf − extended the primer past FBP-dG within a CG 3 template to afford a full-length product and the GC dinucleotide deletion. To model the nucleotide insertion steps in the fully paired (FP) versus the slipped mutagenic (SM) translesion pathways, adducted template:primer duplexes were constructed and characterized by UV thermal denaturation and fluorescence spectroscopy. The emission intensity of the FBP-dG lesion exhibits sensitivity to SMI formation (turn-on) versus a FP duplex (turn-off), permitting insight into adduct base-pairing within the template:primer duplexes. This fluorescence sensitivity provides a rationale for sequence impact on −2 frameshift mutations mediated by the C-linked FBP-dG lesion.

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