1. Targeting NAD + degradation: The therapeutic potential of flavonoids for Alzheimer's disease and cognitive frailty
   Qingwei Ruan et al, 2017, Pharmacological Research CrossRef
2. Data for induction of cytotoxic response by natural and novel quercetin glycosides
   Alexis H. Haskins et al, 2016, Data in Brief CrossRef
3. PARP Inhibition by Flavonoids Induced Selective Cell Killing to BRCA2-Deficient Cells
   Cathy Su et al, 2017, Pharmaceuticals CrossRef
4. Recent discoveries of anticancer flavonoids
   Demetrio Raffa et al, 2017, European Journal of Medicinal Chemistry CrossRef
5. Hypersensitivity of BRCA2 deficient cells to rosemary extract explained by weak PARP inhibitory activity
   Cathy Su et al, 2017, Sci Rep CrossRef
6. In vitro screening of radioprotective properties in the novel glucosylated flavonoids.
   Hao Yu et al, 2016, Int J Mol Med CrossRef
7. Quercetin enhances adriamycin cytotoxicity through induction of apoptosis and regulation of mitogen-activated protein kinase/extracellular signal-regulated kinase/c-Jun N-terminal kinase signaling in multidrug-resistant leukemia K562 cells
   FANG-YUAN CHEN et al, 2015 CrossRef
8. Hyperthermia-induced radiosensitization in CHO wild-type, NHEJ repair mutant and HR repair mutant following proton and carbon-ion exposure.
   Junko Maeda et al, 2015, Oncol Lett CrossRef
9. Design and evaluation of a novel flavonoid-based radioprotective agent utilizing monoglucosyl rutin
   Yasushi Aizawa et al, 2018 CrossRef
10. Polyphenols and DNA Damage: A Mixed Blessing
    Amaya Azqueta et al, 2016, Nutrients CrossRef
11. Histone Deacetylase Inhibitor Induced Radiation Sensitization Effects on Human Cancer Cells after Photon and Hadron Radiation Exposure
    Ariungerel Gerelchuluun et al, 2018, IJMS CrossRef
12. Castalagin and vescalagin purified from leaves of Syzygium samarangense (Blume) Merrill & L.M. Perry: Dual inhibitory activity against PARP1 and DNA topoisomerase II
    Yasuhiro Kamada et al, 2018, Fitoterapia CrossRef
13. Interspecies Anticancer and Antimicrobial Activities of Genus Solanum and Estimation of Rutin by Validated UPLC-PDA Method
    Mohamed Fahad Alajmi et al, 2018, Evidence-Based Complementary and Alternative Medicine CrossRef
14. Targeting Ubiquitin-proteasome pathway by natural, in particular polyphenols, anticancer agents: lessons learned from clinical trials
    Seyed Fazel Nabavi et al, 2018, Cancer Letters CrossRef
15. DNA Repair Deficient Chinese Hamster Ovary Cells Exhibiting Differential Sensitivity to Charged Particle Radiation under Aerobic and Hypoxic Conditions.
    Ian M Cartwright et al, 2018, Int J Mol Sci CrossRef
16. null
    Valentina Uivarosi et al, 2018 CrossRef
17. Cytogenotoxic study of aqueous fruit extract of Morinda citrifolia in Wistar albino rats
    Germano Pinho de Moraes et al, 2019, Orient Pharm Exp Med CrossRef
18. The Effect of Green and Black Tea Polyphenols on BRCA2 Deficient Chinese Hamster Cells by Synthetic Lethality through PARP Inhibition
    Shaherah Alqahtani et al, 2019, IJMS CrossRef
19. The Role of Poly(ADP-Ribose) Polymerase-1 in Cutaneous Wound Healing
    Jaideep Banerjee et al, 2019, Advances in Wound Care CrossRef
20. Identification and mechanism of action analysis of the new PARP-1 inhibitor 2″-hydroxygenkwanol A
    Fabrizio Dal Piaz et al, 2015, Biochimica et Biophysica Acta (BBA) - General Subjects CrossRef
21. Puerarin protects against high‐fat high‐sucrose diet‐induced non‐alcoholic fatty liver disease by modulating PARP‐1/PI3K/AKT signaling pathway and facilitating mitochondrial homeostasis
    Shuai Wang et al, 2019, Phytotherapy Research CrossRef
22. Luteolinidin Protects the Postischemic Heart through CD38 Inhibition with Preservation of NAD(P)(H)
    James Boslett et al, 2017, J Pharmacol Exp Ther CrossRef
23. Rutin mediated targeting of signaling machinery in cancer cells
    Aliye Aras Perk et al, 2014, Cancer Cell Int CrossRef
24. Induction of cytotoxic and genotoxic responses by natural and novel quercetin glycosides
    Anya Engen et al, 2015, Mutation Research/Genetic Toxicology and Environmental Mutagenesis CrossRef
25. Validation of64Cu-ATSM damaging DNA via high-LET Auger electron emission
    Dayton D. McMillan et al, 2015, J Radiat Res CrossRef
26. Embracing synthetic lethality of novel anticancer therapies
    Ahmed Kamal et al, 2015, Expert Opinion on Drug Discovery CrossRef
27. Targeting Human Poly(ADP-Ribose) Polymerase-1 with Natural Medicines and Its Potential Applications in Ovarian Cancer Therapeutics
    Min Song et al, 2015, Arch. Pharm. Chem. Life Sci. CrossRef
28. Biological measures to minimize the risk of radiotherapy-associated second cancer: A research perspective
    Tatsuhiko Imaoka et al, 2016, International Journal of Radiation Biology CrossRef
29. Comparative Effect of Quercetin and Quercetin-3-O-β-d-Glucoside on Fibrin Polymers, Blood Clots, and in Rodent Models
    Jun-Hui Choi et al, 2016, J Biochem Mol Toxicol CrossRef
30. Puerarin protects against CCl4-induced liver fibrosis in mice: possible role of PARP-1 inhibition
    Shuai Wang et al, 2016, International Immunopharmacology CrossRef
31. Poly(ADP-ribose)polymerase (PARP) inhibition and anticancer activity of simmiparib, a new inhibitor undergoing clinical trials
    Bo Yuan et al, 2017, Cancer Letters CrossRef
32. Novel PARP1/2 inhibitor mefuparib hydrochloride elicits potent in vitro and in vivo anticancer activity, characteristic of high tissue distribution
    Jin-Xue He et al, 2017, Oncotarget CrossRef
33. Effect of hydroxyl group position in flavonoids on inducing single‑stranded DNA damage mediated by cupric ions
    Suad Elmegerhi et al, 2018, Int J Mol Med CrossRef
34. The Effects of Doxorubicin, Ethanol Extract and Flavonoid-rich Fraction of Euphorbia Splendida Mobayen on the PARP Level, and APC Gene Expression in HT-29 Human Colon Cancer Cell Line
    Mojdeh Aein et al, 2020, Jundishapur J Nat Pharm Prod CrossRef
35. Natural Compounds That Target DNA Repair Pathways and Their Therapeutic Potential to Counteract Cancer Cells
    Francisco Alejandro Lagunas-Rangel et al, 2020, Front. Oncol. CrossRef
36. Molecular mechanisms of anticancer effect of rutin
    Amir Imani et al, 2020, Phytotherapy Research CrossRef
37. Development and evaluation of poly adenosine 5′‐diphosphate‐ribose polymerase 1 immobilization‐based receptor chromatography
    Jianwei Dou et al, 2020, J. Sep. Sci. CrossRef
38. High LET-Like Radiation Tracks at the Distal Side of Accelerated Proton Bragg Peak
    Dakota Horendeck et al, 2021, Front. Oncol. CrossRef
39. PARP-1-Associated Pathological Processes: Inhibition by Natural Polyphenols
    Natalya V. Maluchenko et al, 2021, IJMS CrossRef
40. A Comparative Study of Rutin and Rutin Glycoside: Antioxidant Activity, Anti-Inflammatory Effect, Effect on Platelet Aggregation and Blood Coagulation
    Sung-Sook Choi et al, 2021, Antioxidants CrossRef
41. Comparative study of the genotoxic activity of Artemisia vulgaris L. and Artemisia alba Turra extracts in vitro
    Marina Radović Jakovljević et al, 2022, Drug and Chemical Toxicology CrossRef
42. Comparative Metabolomics Analysis of Stigmas and Petals in Chinese Saffron (Crocus sativus) by Widely Targeted Metabolomics
    Lin Zhou et al, 2022, Plants CrossRef
43. Recent PARP Inhibitor Advancements in Cancer Therapy: A Review
    Pulla Prudvi Raj et al, 2022, CEI CrossRef
44. Artificial induction of chromosome aneuploidy in CHO cells alters their function as host cells
    Noriko Yamano‐Adachi et al, 2022, Biotech & Bioengineering CrossRef
45. Immunomodulatory, Anticancer, and Antimicrobial Effects of Rice Bran Grown in Iraq: An In Vitro and In Vivo Study
    Wamidh H. Talib et al, 2022, Pharmaceuticals CrossRef
46. Artemisia vulgaris L., Artemisia alba Turra and their constituents reduce mitomycin C-induced genomic instability in human peripheral blood lymphocytes in vitro
    Marina Radović Jakovljević et al, 2022, Drug and Chemical Toxicology CrossRef