Studies on Inheritance of Geneic Male Sterility (GMS) and Hybrid Seed Production in Okra [Abelmoschus esculentus (L.) Moench.]

Authors

  • M Pitchaimuthu Author
  • O P Dutta Author
  • K R M Swamy Author

DOI:

https://doi.org/10.24154/jhs.v7i2.375

Keywords:

Abelmoschus esculentus, Geneic Male Sterility (GMS), Back Cross, Generations, Recessive Allele

Abstract

Inheritance of geneic male sterility in GMS line MS-1 of okra [Abelmoschus esculentus (L.) Moench.] was studied using F1, F2 and test-cross generations of crosses between GMS line MS-1 and normal fertile genotypes, and the varieties Arka Anamika, Parbhani Kranti, Arka Abhay, IIHR-108-1-31, IIHR-109-20-6, IIHR-116-23-6, IIHR- 180-6-3, IIHR-161-10-1 and IIHR-130-2-10. All the F1 were found fertile. Segregation of pollen fertility in F2 and test - cross generations involving ms1 was segregated in the ratio 1 fertile: 1 sterile, respectively. This indicated that GMS trait in the line is controlled by a single recessive gene (ms1ms1). Large-scale F1 hybrid seed production in okra becomes rather slow due to the tedious hand-emasculation, followed by hand-pollination, incurring additional labour and cost of F1 seed production. In comparison to fertile lines, this saves approximately 70% time and manual labour. Use of Geneic Male Sterile (GMS) line MS-1 can make F1 hybrid seed production in okra easy and more economical compared to hand-emasculation.

References

Borkato, R.P. and Vimani, S.S. 1996. Genetics of thermosensitive geneic male sterility in rice. Euphyt., 88:1-7

Dutta, O.P. 1971. Effect of gamma irradiation on germination plant growth, floral biology and fruit production in Abelmoschus esculentus. Third International Symp. Trop. Hort., IIHR, Bangalore, India, pp. 141-156

Dutta, O.P. 1980. Male sterility in okra [Abelmoschus esculentus (L.) Moench.] and bottle gourd [Lagenaria siceraria (Mol.) Standl.] and utilization in hybrid seed production. Ph.D. thesis, UAS, Bangalore

Kaul, M.L.H. 1988. Male sterility in higher plants monographs. Theoretical and applied Genetics, Springer- Verlag, New York

Kato, M. and Tokumasu, S. 1984. Male sterility in Brassica japonica. Japanese J. Breed., 34(Sulppl.1):178-179

Latha, R., Thiyagarajan, K. and Senthilvel, S. 2003. Inheritance of thermo-sensitive genic male sterility in rice. J. Genet. Breed. 57:98-92

Pitchaimuthu, M. and Dutta , O.P. 2002. Combining ability using genetic male sterile lines in okra. International Conference on Vegetables, November 11-14, 2002 Bangalore, India, pp.109

Sharma and Arora 1993. Improvement of okra. In: Advances in Horticulture- Vegetable Crops. pp 343- 64. Vol.5: Part-1. Chadha, K.L. and Kalloo, G. (eds), Malhotra Publishing House, New Delhi

Snedecor, G.W. and Cochron, W.G. 1967 Statistical methods (6th Edn.) Oxford and IBH Publishers (Co.), Bombay, pp. 135-337

Vigneshwara Varmudy 2011. Need to boost okra exports: Market Survey. Facts For You, Feb., pp. 21-23

Thombre and Deshmukh S.U. 2006. Isolation of genetic male sterile mutant in okra [Abelmoschus esculentus (L.) Moench.] Indian J. Genet., 66:353-354

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Published

31-12-2012

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Research Notes

How to Cite

Pitchaimuthu, M., Dutta, O. P., & Swamy, K. R. M. (2012). Studies on Inheritance of Geneic Male Sterility (GMS) and Hybrid Seed Production in Okra [Abelmoschus esculentus (L.) Moench.]. Journal of Horticultural Sciences, 7(2), 199-202. https://doi.org/10.24154/jhs.v7i2.375

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