Induced mutations in chickpea-morphological mutants

Samiullah KHAN; Kouser PARVEEN; Sonu GOYAL

doi:10.1007/s11703-011-1050-1

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Front. Agric. China ›› DOI: 10.1007/s11703-011-1050-1

RESEARCH ARTICLE

Induced mutations in chickpea-morphological mutants

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Abstract

Seeds of two varieties (PUSA-212 and BG-256) of chickpea (BoldItalic L.) were treated with 0.03% concentration of hydrazine hydrate (HZ), methylmethane sulphonate (MMS) and sodium azide (SA) for 6 h. The M₂ generation was grown from single plant M₁ progeny seeds. Five morphological mutants (dwarf, bushy, one sided branch, narrow leaf and gigas) were isolated in M₂ generation. Some of these mutants may be directly used in selection whereas some are useful in combination breeding programs.

Keywords

Cicer arietinum L. / chemical mutagens / morphological mutants

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Samiullah KHAN, Kouser PARVEEN, Sonu GOYAL. Induced mutations in chickpea-morphological mutants. Front Agric Chin, https://doi.org/10.1007/s11703-011-1050-1

References

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[1]	Ahmad S, Godward M B E (1993). Gamma radiation induced mutations in Cicer arietinum L. Acta Botanica Indica, 21: 1–8

[2]	Argikar G P (1952). Occurrence and inheritance of Filicoid form in Cicer arietinum L. Curr Sci, 21: 76

[3]	Argikar G P, D’Cruz R (1963). Genetic studies in gram. Journal of Indian Botanical Society, 42: 401–405

[4]	Arulbalachandran D, Mullainathan L (2009). Chlorophyll and morphological mutants of blackgram (Vigna mungo (L.) Hepper) derived by gamma rays and EMS. J Phytol, 1(4): 236–241

[5]	Athwal D S (1963). Some x-ray induced and spontaneous mutations in Cicer. Indian Journal of Genetics and Plant Breeding, 23: 50–57

[6]	Bahl P N (1987). Cytology of chickpea. In: Saxena M C, Singh K B, eds. The Chickpea. Willingford, England: CAB International, 830–887

[7]	Chaudhary B B, Argikar G P (1957). Occurrence and inheritance of the fasciculifolia form in Cicer arietinum L. Curr Sci, 26: 395–396

[8]	Davis L A, Addicott F T (1972). Abscisic Acid: correlations with abscission and with development in the cotton fruit. Plant Physiol, 49(4): 644–648 CrossRef Google scholar

[9]	Davis T M, Foster K W, Phillips D A (1985). Nodulation mutants in chickpea. Crop Sci, 25: 345–348 CrossRef Google scholar

[10]	Davis T M, Matthews L J, Fagerberg W R (1990). Comparison of tetraploid and single gene induced gigas variants in chickpea (Cicer arietinum) I. Origin and genetic characterization. American Journal of Botany, 77(3): 295–299 CrossRef Google scholar

[11]	Ekbote R B (1937). Mutations in gram (Cicer arietinum L.). Curr Sci, 5: 648–649

[12]	FAO (2002). Statistical Databases. http://www.sciencedirect.com/science

[13]	Gaur P M, Gour V K (2003). Broad-few-leaflets and outwardly curved wings: two new mutants of chickpea. Plant Breed, 122(2): 192–194 CrossRef Google scholar

[14]	Hedens P (2003). The genes of the green revolution. Trends Genet, 19(1): 5–9 CrossRef Google scholar

[15]	Jeswani L M (1986). Breeding strategies for the improvement of pulse crops. Indian Journal of Genetics and Plant Breeding, 46(Suppl): 267–280

[16]	Khan M H, Tyagi S D (2010). Induced morphological mutants in soybean (Gylcine max (L.) Merrill). Front Agric China, 4(2): 175–180 CrossRef Google scholar

[17]	Khan S, Wani M R, Bhat M D, Parveen K (2004). Induction of morphological mutants in chickpea. International Chickpea and Pigeonpea Newsletter, 11: 6–7

[18]	Kleinhofs A, Warne R L, Muehlbauer F S, Nilan R (1978). Induction and selection of specific gene mutation in Hordeum and Pisum. Mutation Research, 51(1): 29–35 CrossRef Google scholar

[19]	Konzak C F, Woo S C, Dickey J (1969). An induced dominant semi dwarf plant height mutation in spring wheat. Wheat Information Service, 28: 10

[20]	Micke A (1988). Genetic improvement of food legumes in developing countries by mutation induction. In: Summer field R J, ed. World Crops: Cool Season Food Legumes. Dordrecht, the Netherlands: Kluwer Academic Publishers, 1031–1047

[21]	Naik B S, Singh B, Kole C (2002). A promising mungbean (Vigna radiata (L.) Wilczek) genotype with high protein content and seed yield. Indian Journal of Genetics and Plant Breeding, 62(4): 342–344

[22]	Nevers P, Shepherd N, Saedler H (1986). Plant transposable elements. Adv Bot Res, 12: 103–203 CrossRef Google scholar

[23]	Patil J A (1959). Inheritance study in gram. Curr Sci, 28: 508

[24]	Peterson P A (1986). Mobile elements in maize. Plant Breed Rev, 4: 82–122

[25]	Pundir R P S, Reddy G V (1998). Two new traits – open flower and small leaf in chickpea (Cicer arietinum L.). Euphytica, 102(3): 357–361 CrossRef Google scholar

[26]	Pundir R P S, Mengesha M H, Reddy K N (1990). Leaf types and their genetics in chickpea (Cicer arietinum L.). Euphytica, 45:197–200

[27]	Reddy V R K, Gupta P K (1988). Induced mutations in hexaploid triticale. Frequency and spectrum of morphological mutants. Genet Agr, 42: 241–254

[28]	Rekha K, Kak S N, Langer A (2000). EMS induced variability in Artemisia pallens Wall. Indian Journal of Plant Genet Resour, 13(1): 37–41

[29]	Rubio J, Flores F, Moreno M T, Cubero J I, Gil J (2004). Effects of the erect/bushy habit single/double pod and late /early flowering genes on yield and seed size and their stability in chickpea. Field Crops Research, 90(2-3): 255–262 CrossRef Google scholar

[30]	Shakoor A, Sadiq M S, Hasan M U, Saleem M (1978). Selection for useful semidwarf mutants through induced mutations in bread wheat. Proc 5th Int Wheat Genet Symp, New Delhi, Vol I, Feb 23-28: 540–546

[31]	Shimizu-Sato S, Mori H (2001). Control of outgrowth and dormancy in axillary buds. Plant Physiol, 127(4): 1405–1413 CrossRef Google scholar

[32]	Singh H B, Bhagchandani P M (1953). Genetics of leaf mutations in gram. Indian Journal of Genetics and Plant Breeding, 13: 106–109

[33]	Solanki I S, Sharma B (2002). Induced polygenic variability in different groups of mutagenic damage in lentil (Lens culinaris Medik). Indian Journal of Genetics and Plant Breeding, 62(2): 135–139

[34]	Stebbins L G (1971). Chromosomal evolution in higher plants. Addison Wesley Reading M A

[35]	Suganthy C P, Reddy V R K, Edwin R (1994). Mutation breeding in some cereals IV. Biological parameters. Adv Plant Sci, 7: 1–11

[36]	Toker C, Cagirgan M I (2004). Spectrum and frequency of induced mutations in chickpea. International Chickpea and Pigeonpea Newsletter, 11: 8–10

[37]	Varshney R K, Siddiqui B A (1997). Effects of thiourea in M₁ generation of bread wheat (Triticum aestivum L.). Journal of Indian Botanical Society, 76: 165–168

[38]	Wani R (2007). Studies on the induction of mutations in mungbean (Vigna radiata (L.) Wilczek). <DissertationTip/>, Aligarh Muslim University, Aligarh

[39]	Weber E, Gottschalk W (1973). Die Beziehungen Zwischen Zellgrobe und Internodienlange bei Strahleninduzierten Pisum. Mutanten Beitr Biol Pfl, 49: 101–126