http://orcid.org/0000-0003-0254-6915
References
- Noeth H, Koelle P. The chemistry of borinium and borenium ions. Chem Rev. 1985;85:399–418.
- Zhu Y, Hosmane NS. Ionic liquids: Recent advances and applications in boron chemistry. Eur J Inorg Chem. 2017; 2017:4369–4377.
- Narayan SH. Boron science: New technologies and applications. 1st ed. Boca Raton, FL (USA): CRC Press; 2012.
- Piers WE, Bourke SC, Conroy KD. Borinium, borenium, and boronium ions: synthesis, reactivity, and applications. Angew Chem Int Ed Engl. 2005;44:5016–5036.
- Schneider F, Narula CK, Noeth H. Structure and Bonding Trends in Two and Three Coordinate Boron Cations. Inorg Chem. 1991;30:3919–3927.
- Bonnier C, Piers WE, Parvez M. Isomeric dipyrrinato and dipyrromethanato boranes. Organometallics. 2011;30:1067–1072.
- Bonnier C, Piers WE, Parvez M, et al. Borenium cations derived from BODIPY dyes. Chem Commun.. 2008; 4593–4595.
- Tsurumaki E, Hayashi S, Tham FS, et al. Planar subporphyrin borenium cations. J Am Chem Soc. 2011;133:11956–11959.
- European Centre for Ecotoxicology and Toxicology of Chemicals (ECETOC). Reproductive and general toxicology of some inorganic borates and risks assessment for human beings.Technical Report, No. 63. Brussels (Belgium): ECETOC; 1995. Available from: www.ecetoc.org
- Zerrin C, Yagmur T, Seval K, et al. Cytotoxic and apoptotic effects of boron compounds on leukemia cell line. Cytotechnology. 2016;68:87–93.
- Erkan K, İsmet D, Gürhan MK. Farklı Bor Bileşiklerinin CCL 62 (HeLa Kontaminant) İnsan Amniyotik Epitelyal Hücre Hatlarında Olası Sitotoksik ve Genotoksik Etkilerinin Araştırılması [Investigation of the possible cytotoxic and genotoxic effects of different boron compounds on CCL 62 (HeLa contaminant) human amniotic epithelial cell lines]. Med-Science. 2013;2:454–468. Turkish.
- Barranco WT, Hudak PF, Eckhert CD. Evaluation of ecological and in vitro effects of boron on prostate cancer risk (United States). Cancer Causes Control. 2007;18:71–77.
- Türkez H, Geyikoğlu F, Tatar A, et al. Effects of some boron compounds on peripheral human blood. Z Naturforsch, C, J Biosci.. 2007;62:c:889–896Z.
- Turkez H, Aydın E, Geyikoglu F, et al. Genotoxic and oxidative damage potentials in human lymphocytes after exposure to terpinolene in vitro. Cytotechnology. 2015;67:409–418.
- Çelikezen FÇ, Toğar B, Özgeriş FB, et al. Cytogenetic and oxidative alterations after exposure of cultured human whole blood cells to lithium meta borate dehydrate. Cytotechnology. 2016;68:821–827.
- Fenech M. The cytokinesis-block micronucleus technique: a detailed description of the method and its application to genotoxicity studies in human populations. Mutat Res. 1993;285:35–44.
- Perry P, Wolff S. New Giemsa method for the differential staining of sister chromatids. Nature. 1974;251:156–158.
- Darowicki K, Orlikowski J, Arutunow A. Dynamic electrochemical impedance spectroscopy measurements of passive layer cracking under static tensile stresses. J. Solid State Eletrochem. 2004;8:352–359.
- Turkez H, Arslan ME, Ozdemir O. Genotoxicity testing: progress and prospects for the next decade. Expert Opin Drug Metab Toxicol. 2017;13:1089–1098.
- Chowdhury MP, Chakraborty BR, Pal AK. Novel electrodeposition route for the synthesis of mixed boron nitride films. Materials Lett. 2004;58:3362–3367.
- Warren EP, Sara CB, Korey DC. Borinium, borenium, and boronium ions: Synthesis, reactivity, and applications. Angew Chem Int Ed. 2005;44:5016– 5036.
- Wu J, Lyons GH, Graham RD, et al. The effect of selenium, as seleno methionine, on genome stability and cytotoxicity in human lymphocytes measured using the cytokinesis-block micronucleus cytome assay. Mutat Res. 2009;24:225–232.
- Albertini RJ, Anderson D, Douglas GR, et al. IPCS guidelines for the monitoring of genotoxic effects of carcinogens in humans. International Programme on Chemical SafetyMutat Res. 2000;463:111–172.
- Rodriquez-Reyes R, Morales RP. Sister chromatid exchange induction and the course of DNA duplication, two mechanisms of SCE induction by ENU and the role of BrdU. Mutagenesis. 2003;18:65–72.
- Lando C, Hagmar L, Bonnassi S. Biomarkers of cytogenetic damage inhuman and risk of cancer. The European Study Group on Cytogenetic Biomarkers and Health. Med Lav. 1998;89:124–131.
- Demirel S, Zamani AG. Mikronükleus tekniği ve kullanım alanları. [Micronucleus technique and its applications]. Genel Tıp Derg. 2002;12:123–127. Turkish.
- Dieter MP. Toxicity and carcinogenicity studies of boric acid in male and female B6C3Fl Mice. Environ. Health. Perspect. 1994;102:93–97.
- Turkez H, Geyikoğlu F, Dirican E, et al. In vitro studies on chemoprotective effect of borax against aflatoxin B1-induced geneticdamage in human lymphocytes. Cytotechnology. 2012;64:607–612.
- National Toxicology Program (N.T.P.). Toxicology and carcinogenesis studies of boric acid (CAS No. 10043-35-3) in B6C3F1 mice (feed studies). Research Triangle Park, North Carolina, US Department of Health and Human Services, 1987.
- Geyikoglu F, Turkez H. Boron compounds reduce vanadium tetraoxide genotoxicity in human lymphocytes. Environ Toxicol Pharmacol.. 2008;26:342–347.
- Uckun Z. Investigation of the genotoxic effects of boron exposure on humans. [Master’s thesis]. Ankara (Turkey): Health Institue, Ankara University; 2006.