Publications by year

<embed>
Copy and paste this code to your website.

Publications by Authors

Recent Publications

More<embed>
Copy and paste this code to your website.

Contact Us

Head of Institute: Prof. Ido Braslavsky

Administrative manager: Rakefet Kalev

Office Address:
Institute of Biochemistry, Food Science and Nutrition,
Robert H. Smith Faculty of Agriculture, Food and Environment,
The Hebrew University of Jerusalem, 
Herzl 229, Rehovot 7610001, ISRAEL

Tel: +972 - (0)8-9489385
Fax: +972 - (0)8-9363208
Email Address: rakefetk@savion.huji.ac.il

Independent selection for seed free tryptophan content and vernalization response in chickpea domestication

Citation:

van-Oss, R. P. ; Gopher, A. ; Kerem, Z. ; Peleg, Z. ; Lev-Yadun, S. ; Sherman, A. ; Zhang, H. - B. ; Vandemark, G. ; Coyne, C. J. ; Reany, O. ; et al. Independent Selection For Seed Free Tryptophan Content And Vernalization Response In Chickpea Domestication. Plant Breeding 2018, 137, 290-300.

Abstract:

Abstract Chickpea shows a distinct domestication trajectory vis-a-vis pod dehiscence and growth cycle mediated by vernalization insensitivity compared with its companion Near Eastern legumes. Our objectives were: (i) to map the quantitative trait loci (QTLs) associated with vernalization response and seed free tryptophan in domesticated × wild chickpea progeny and (ii) estimate the genetic correlation between vernalization response and free tryptophan content. A domesticated × wild chickpea cross was used to document phenotypic segregation in both traits and to construct a skeletal genetic map for QTL detection. A number of vernalization response and seed free tryptophan content QTLs were documented in both F2 and F3 generations. No significant genetic correlation between these two traits was observed. Epistatic relationship between two free tryptophan loci was documented. It is evident that selection for high seed tryptophan is easier to accomplish relative to selection for vernalization insensitivity. This suggests that the two traits were selected independently in antiquity, thereby corroborating earlier claims for conscious selection processes associated with chickpea domestication.

Website