References
- Ammar MH, Alghamdi SS, Migdadi HM, Khan MA, El-Harty EH, Al-Faifi SA. 2015. Assessment of genetic diversity among faba bean genotypes using agro-morphological and molecular markers. Saudi J Biol Sci. 22(3):340–350.
- Avila CM, Atienza SG, Moreno MT, Torres AM. 2007. Development of a new diagnostic marker for growth habit selection in faba bean (Vicia faba L.) breeding. Theor Appl Genet. 115(8):1075–1082.
- Avila CM, Nadal S, Moreno MT, Torres AM. 2006. Development of a simple PCR-based marker for the determination of growth habit in Vicia faba L. using a candidate gene approach. Mol Breed. 17(3):185–190.
- Benlloch R, Berbel A, Ali L, Gohari G, Millán T, Madueño F. 2015. Genetic control of inflorescence architecture in legumes. Front Plant Sci. 6:1–14.
- Benlloch R, Berbel A, Serrano-Mislata A, Madueño F. 2007. Floral initiation and inflorescence architecture: a comparative view. Ann Bot. 100(3):659–676.
- Bradley D, Carpenter R, Copsey L, Vincent C, Rothstein S, Coen E. 1996. Control of inflorescence architecture in Antirrhinum. Nature. 379(6568):791–797.
- Dhanasekar P, Reddy KS. 2015. A novel mutation in TFL1 homolog affecting determinacy in cowpea (Vigna unguiculata). Mol Genet Genomics. 290(1):55–65.
- Filippetti A, De Pace C. 1986. Improvement of seed yield in Vicia faba L. by using experimental mutagenesis. II. Comparison of gamma-radiation and ethyl-methane-sulphonate (EMS) in production of morphological mutants. Euphytica. 35(1):49–59.
- Hofer J, Turner L, Hellens R, Ambrose M, Matthews P, Michael A, Ellis N. 1997. UNIFOLIATA regulates leaf and flower morphogenesis in pea. Curr Biol. 7(8):581–587.
- Kodyma A, Afza R, Forster BP, Ukai Y, Nakagawa H, Mba C. 2011. Methodology for physical and chemical mutagenic treatment. In: Shu Q, Forster BP, Nakagawa H, editors. Plant mutation breeding and biotechnology. Rome: FAO; p. 169–180.
- Nadal S, Moreno MT, Cubero JI, Rubiales D. 2005. Determine faba bean young pod response to glyphosate and crenate broomrape (Orobanche crenata). J Sustain Agric. 25(4):19–27.
- Nurmansyah, Alghamdi SS, Migdadi HM, Farooq M. 2018. Morphological and chromosomal abnormalities in gamma radiation-induced mutagenized faba bean genotypes. Int J Radiat Biol. 94(2):174–185.
- Saxena RK, Obala J, Sinjushin A, Kumar CVS, Saxena KB, Varshney RK. 2017. Characterization and mapping of Dt1 locus which co-segregates with CcTFL1 for growth habit in pigeonpea. Theor Appl Genet. 130(9):1773–1784.
- Sharma B, Sharma SK. 2004. Induced mutations and selection techniques for quantitative traits. In: Jain HK, Kharkwal MC, editors. Plant breeding. Dordrecht: Springer; p. 647–656.
- Singer S, Sollinger J, Maki S, Fishbach J, Short B, Reinke C, Fick J, Cox L, McCall A, Mullen H. 1999. Inflorescence architecture: a developmental genetics approach. Bot Rev. 65(4):385–410.
- Sjodin J. 1971. Induced morphological variation in Vicia faba L. Hereditas. 67:155–I80.
- Tian Z, Wang X, Lee R, Li Y, Specht JE, Nelson RL, McClean PE, Qiu L, Ma J. 2010. Artificial selection for determinate growth habit in soybean. Proc Natl Acad Sci. 107(19):8563–8568.
- Vanniarajan C, Ganeshram S, Souframanien J, Veni K, Lavanya SA, Kuralarasan V. 2017. Gamma rays induced urdbean (Vigna mungo L. Hepper) mutants with YMV resistance, good batter quality and bold seeded type. Legume Res. 3824:1–7.
- Van Rheenen HA, Pundir RPS, Miranda JH. 1994. Induction and inheritance of determinate growth habit in chickpea (Cicer arietinum L.). Euphytica. 78(1–2):137–141.