References
- Balyan HS, Houben A, Ahne R. 2002. Karyotype analysis and physical mapping of 18S-5.8S-25S and 5S ribosomal RNA loci in species of genus Lens Miller (Fabaceae). Caryologia. 55(2):121–128.
- Bhattacharjee SK. 1951. Cytogenetics of Lens esculenta Moench Microsperma. Sci Cult. 16:426–427.
- Dafadar A, Das A, Bandyopadhyay S, Jha TB. 2012. In vitro propagation and molecular evaluation of a Capsicum annuum L. cultivar with a high chromosome number (2n = 48). Sci Hortic. 140:119–124.
- Dixit P, Dubey DK. 1985. Heritability and genetic advance in induced mutants of lentil (Lens culinaris Medik.). Ind J Genet. Plant Breed. 45(3):520–524.
- Dixit P, Dubey DK. 1986. Karyotype study in Lentil. Lens newsletter 13(1): 8–10.
- Fernández M, Ruiz ML, Linares C, Fominaya A, Pérez de la Vega M. 2005. the 5S rDNA genome regions of Lens species. Genome. 48(5):937–942.
- Fukui K. 1996. Plant chromosome at mitosis. In: Fukui K, Nakayama S, editors. Plant Chromosome Laboratory Methods. Boca Raton: CRC Press; p. 1–17.
- Gaffarzadeh-Namazi L, Asghari-Zakaria R, Babaeian N, Kazemi-Taber K. 2007. Comparative study of chromosome morphology and C-banding patterns in several genotypes of Lens culinaris. Pak J Biol Sci. 10(11):1811–1816.
- Galasso I. 2003. Distribution of highly repeated DNA sequences in species of the genus Lens Miller. Genome. 46(6):1118–1124.
- Gupta PK, Singh J. 1981. Standard karyotype in lentil (Lens culinaris Med.) var. PL-639. LENS. 8:23.
- Khandaker M, Imdadul Hoque M, Alam SS. 2007. Fluorescent banding in three varieties of Lens culinaria Medik (Fabaceae). Cytologia. 72(2):227–231.
- Kurata N, Omura T. 1978. Karyotype analysis in rice, 1: A new method for identifying all chromosome pairs. Japan J Genet. 53(4):251–255.
- Ladizinsky G. 1979. The origin of lentil and its wild gene pool. Euphytica. 28:179–187.
- Ladizinsky G. 1993. Wild lentils. Crit Rev. Plant Sci. 12:169–184.
- Lavania UC, Lavania S. 1983. Karyotype studies in Indian pulses. Genet Agrar. 37:299–308.
- Leitch LJ, Leitch AR. 2013. Genome size diversity and evolution in land plants. In: Leitch IJ, Greilhuber J, Dolezel J, Wendel JF., editors. Plant genome diversity (Vol. 2). Wien: Springer-Verlag. p. 307–320.
- Levan A, Fredga K, Sandberg AA. 1964. Nomenclature for centromere position on chromosomes. Hereditas. 52:201–220.
- Murray BG. 2005. When does intraspecific C-value variation become taxonomically significant? Ann Bot. 95:119–125.
- Naithani SP, Sarbhoy RK. 1973. Cytological studies in Lens esculenta Moench. Cytologia. 38:195–203.
- Nandanwar RS, Narkhede MM. 1991. Intraspecific variation in karyotype of lentil. J Maharastra Agri Univ. 16:24–27.
- Rehman S, Altaf CM. 1994. Karyotypic studies in Lens culinaris Medic, S.Sp Macrosperma cv. Laird x Precoz. Pak J Bot. 26(2):347–352.
- Sharma AK, Mukhopadhyaya S. 1963. Karyotype constancy in different strains of Lens esculentum Moench as worked out through recent techniques. Ind Agric. 7:103–111.
- Sharma AK, Sharma A. 1980. Chromosome techniques. Theory and practice (3rd ed.) London: Butterworth’s.
- Sindhu JS, Slinkard AE, Scoles GJ. 1983. Studies on variation in Lens I karyotype. Lens. 10:14.
- Sinha SS, Acharia SS. 1972. Karyotype analysis in some varieties of Lens culinaris. Cytologia. 37:673–683.
- Tadmor Y, Zamir D, Ladizinsky G. 1987. Genetic mapping of an ancient translocation in the genus Lens. Theor Appl Genet. 73:883–892.
- Thavarajah D, Thavarajah P. 2011. Lentil (Lens culinaris) as a biofortified crop with essential micronutrients: A food-based solution to micronutrient malnutrition. Grain Legume. 57:29–31.
- van Oss H, Aron Y, Ladizinsky G. 1997. Chloroplast DNA variation and evolution of the genus Lens Mill. Theor Appl Genet. 94:452–457.
- Wang L, An L, Hu Y, Wei L, Li Y. 2009. Influence of phytohormones and medium on the shoot regeneration from leaf of Swertia chirata Buch.-Ham. Ex wall. in vitro. Afr J Biotech. 8:2513–2517.