Confirmation of jumping genes controlling pod colour in pigeonpea (Cajanus cajan L.)
DOI:
https://doi.org/10.59797/jfl.v32i4.632Keywords:
Activator, Cajanus cajan, Pod colour, TransposonAbstract
Presence of jumping genes or transposon elements controlling pod colour in pigeonpea has not been reported so far. Here, we observed three pod colour variants including streaked (parental type), partially streaked, and no streaks (green) in 19 individual plants of a germplasm accession, ICP 3773. We did not find any definite pattern with respect to their place of origin on the plants. Further, the study of pod colour patterns in the progenies of 19 plants suggested that this phenomenon could possibly involve a transposon (‘Ds’) and an activator (‘Ac’) gene to produce irregular variation in pod colour that otherwise remained unexplained on the basis of Mendelian genetic inheritance. The activated transposon was either copied or separated from its original chromosomal site and got inserted into the gene controlling pod colour. Such events mutated the pod colour gene(s) to completely or partially inhibit the production of normal parental type streaks on the pod surface.
References
D’ Cruz R and Deokar AB. 1970. Genetic studies in pigeonpea I. Green x Red grained. Research Journal of Mahatma Phule Agricultural University 1: 44-53.
D’ Cruz R Manke BS and Deokar AB. 1970. Genetic studies in pigeonpea IV. Rahar x Red grained. Poona Agricultural College Magazine 60: 23-26.
Dave BB. 1934. Inheritance of characters of Cajanus indicus. Indian Journal of Agricultural Sciences 4: 674-691
De Menezes OB. 1956. Genetics and improvement of pigeonpea (Cajanus indicus Spreng). Ceres Mias Gerais 10(55): 20-44.
Deodkar AB, Menke SB and D’ Cruz R. 1972. Genetic studies in pigeonpea. VI. Leaflet shape, pod and seed coat colour. Indian Agriculturist 16: 193-197.
Du C, Hoffman A, He L, Caronna J and Dooner H. 2011. The complete Ac/Ds transposon family of maize. BMC Genomics 12: 588
Krauss FG. 1927. Improvement of the pigeonpea: genetic analysis of Cajanus indicus and creation of new varieties through hybridization and selection. Journal Heredity 18: 227-232.
Lazarow K, Doll M and Kunze R. 2013. Molecular biology of maize Ac/Ds elements: an overview. Methods Molecular Biology 1057: 59-82
McClintock B. 1951. Mutable loci in maize. Carnegie Institution of Washington Year Book 50: 174-181
Saxena KB, Tikle AN, Kumar RV,Choudhary AK and Bahadur B. 2016. Nectarivore-aided hybridization and its exploitation for productivity enhancement in pigeonpea. International Journal of Scientific and Research 6: 321-331.
