References
- Al-Sabti K. 1989. Allium test for air and water borne pollution control. Cytobios. 58:71–78.
- Al-Sabti K. 1991. Handbook of genotoxic effects and fish chromosomes. Ljubljana: Institut Jožef Stefan.
- Al-Sabti K, Kurelec B. 1985. Chromosomal aberration in onion (Allium cepa) induced by water chloration by-products. B Environ Contam Tox. 34:80–88.
- Bakare AA, Adeyemi AO, Adeyemi A, Alabi OA, Osibanjo O. 2012. Cytogenotoxic effects of electronic waste leachate in Allium cepa. Caryologia. 65(2): 94–100.
- Chicago Conference. 1966. Standardization in human cytogenetics. Birth defects: Original Articles Series, Vol. II, No. 2. New York: The National Foundation.
- Firbas P, Al-Sabti K. 1995. Cytosistematic studies on the Charophyta in Slovenia. Arch Biol Sci. 47(1-2):45–54.
- Fiskesjö G. 1985. The Allium test as a standard in environmental monitoring. Hereditas. 102:99–112.
- Fiskesjö G. 1993. The Allium test – A potential standard protocol of assessment of environmental toxicity. In: Gorsuch JW, Dwyer FJ, Ingorsoll CG, La Point TW, editors. Environmental Toxicology and Risk Assessment, Vol. 2. Philadelphia: American Society for Testing and Materials. p. 331–345.
- Frescula VDS, Laughinghouse HD, Tedesco SB. 2012. Antiproliferative effect of the tree and medicinal species Luehea divaricata on the Allium cepa cell cycle. Caryologia. 65(1):27–33.
- Genc İ, Özhatay N, Cevri M. 2013. A karyomorphological study of the genus Allium (sect. Melanocrommyum) from Turkey. Caryologia. 66(1):31–40.
- Grant WF, Salamone MF. 1994. Comparative mutagenicity of chemicals selected for test in the International program on Chemical Safety’s collaborative study on plant systems for the collection of environmental mutagens. Mutat Res. 310(2):187–209.
- Gökalp FD, Kaymak F. 2002. The cytogenetic effect of maleic hydrazine in human lymphocyte culture. Trakya Üniversitesi Bilimsel Araştirmalar Dergisi B Serisi. 3(2):141–147.
- Hatayoglu SE, Orta T. 2007. Relationship between radiation induced dicentric chromosome aberrations and micronucleus formation in human lymphocytes. J Exp Clin Cancer Res. 26(2):229–234.
- International Atomic Energy Agency. 1986. Classification of chromosomal aberration. In: Biological dosimetry: Chromosomal aberration analysis for dose assessment. Technical Reports Series 260, p. 16–27. Vienna: IAEA.
- Kumar P, Panneerselvam N. 2007. Cytogenetic studies of food preservative in Allium cepa root meristem cells. Facta Universitatis Series: Med Biol. 14(2):60–63.
- Leme MD, Marin-Morales A. 2009. Allium cepa test environmental monitoring: A review on its application. Mutat Res. 682(1):71–81.
- Levan A. 1938. The effect of colchicine on root mitoses in Allium. Hereditas. 24:471–486.
- Levan A. 1949. The influence on chromosomes and mitosis of chemicals, as studied by the Allium test. Hereditas. 35(1):325–337.
- Levan A, Fredga K, Sandberg AA. 1964. Nomenclature for centromeric position on chromosomes. Hereditas. 52:201–220.
- Ma TH. 1999. The international program on plant bioassays and the report of the follow-up study after the hands-on workshop in China. Mutat Res. 426(2):103–106.
- Ma TH, Cabrera GL, Owens E. 2005. Genotoxic agents detected by plant bioassays. Rev Environ Health. 20(1):1–14.
- Mulaszynska J, Juchimiuk J. 2005. Plant genotoxicity: A molecular cytogenetic approach in plant bioassays. J Plant Genotox. 56:177–184.
- Palanikumar L, Ragunathan I, Panneerselvam N. 2011. Chromosome aberrations induced by curcumin and aloin in Allium cepa L. root meristem cells. Turk J Biol. 35:145–152.
- Panneerselvam N, Palinikumar L, Gopinathan S. 2012. Chromosomal aberration induced by Glycidol in Allium cepa. Int J Pharma Sci Res. 3(2):300–304.
- Ragunathan I, Panneerselvam N. 2007. Antimutagenic potential of curcumin on hromosomal aberation in Allium cepa. J Zhejiang Univ Sci B. 8(7):470–475.
- Rank J. 2003. The method of Allium anaphase-telophase chromosome aberration assay. Ekologija. 1:38–42.
- Schauer P. 1981. Humana genetika (Human genetics). Ljubljana: DDU Univerzum.
- Slapšytė G, Sukackaitė A. 2003. Genotoxicity studies of sodium selenite and its effect on methyl-methanesulphonate-induced chromosome damage. Biologija. 1:41–44.