International Journal of Agriculture, Environment and Biotechnology
  • Year: 2014
  • Volume: 7
  • Issue: 2

Morphological, Cytological and Biochemical Characterization of wheat Aegilops Longissima Derivatives BC1F6 and BC2F4 with High Grain Micronutrient

  • Author:
  • Priti Sharma, Imran , Prachi Sharma, Vishal Chugh, Harcharan Singh Dhaliwal, Dharmendra Singh
  • Total Page Count: 14
  • Page Number: 191 to 204

Akal School of Biotechnology, Eternal University, Baru Sahib, Himachal Pradesh - 173101, India

Online published on 24 June, 2014.

Abstract

Micronutrient deficiency (Iron and Zinc) is the major problem worldwide mostly in the developing countries with high dependence on staple foods. Biofortification of staple cereal and tuber crops has been considered and taken up as the most effective, feasible and economic approach for alleviating micronutrient deficiency. The present study was the initiative towards biofortification of wheat where the previous work of wide hybridization between HD2687 and Aegilops longissima accession 3506 and subsequent backcrossing with Triticum aestivum cultivar WL711 has been continued. In this study the alien chromosome introgression, chromosomal stability of BC1F6 and BC2F4 wheat-Ae. longissima derivatives has been investigated for their potential as germplasm for future breeding and biofortification program through morphological, cytological and biochemical analysis. We found that the selected derivatives showed stable 42, 44 and 46 chromosomes for most of the plants where single plant reported for each 41, 43 and 45 chromosomes with 19–22 bivalents and few trivalent. The GISH analysis of derivative 79-1-4-8-1-2-2 revealed introgression of two univalent Sl chromosomes. Finally four derivatives were selected from BC1F6 (79-1-4-8-10-2-2, 79-1-4-8-10-2-5, 79-2-4-4-1-1-3 and 79-2-4-4-1-1-5) and three from BC2F4 (HD2687/L3506//WL711-3///WL711-1-2-7-1, HD2687/L3506//WL711-3///WL711-1-2-7-3, HD2687/L3506//WL711-3///WL711-1-2-7-5) as stable biofortified lines for future breeding to alleviate hidden hunger.

Biofortification of staple crops is the most effective approach against hidden hunger

Aegilops sp. known for robustness against different stresses, therefore deployed for transfer of variability

High Fe and Zn containing stable wheat-Ae. longissima derivatives BC1F6 were selected as future breeding material

Keywords

Wide hybridization, biofortification, genome in situ hybridization, hidden hunger, Ae. longissima