Public Domain 
| Supplementary material of different research articles of this center can be accessed: | |
| Roorkiwal et al. (2018) Genomic-enabled prediction models using multi-environment trials to estimate the effect of genotype × environment interaction on prediction accuracy in chickpea. Sci Rep. 8(1):11701. doi: 10.1038/s41598-018-30027-2. |
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| Roorkiwal et al. (2016) Genome-enabled prediction models for yield related traits in chickpea. Front Plant Sci. 7:1666. |
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| Nayak et al. (2010), Integration of novel SSR and gene-based SNP marker loci in the chickpea genetic map and establishment of new anchor points with Medicago truncatula genome. Theoretical and Applied Genetics 120(7): 1415–1441. | Link |
| Gujaria et al. (2010) Development and use of genic molecular markers (GMMs) for construction of a transcript map of chickpea (Cicer arietinum L.), Theoretical and Applied Genetics 122(8): 1577–1589. | Link |
| Thudi et al. (2011) Novel SSR Markers from BAC-End Sequences, DArT Arrays and a Comprehensive Genetic Map with 1,291 Marker Loci for Chickpea (Cicer arietinum L.), PLoS One 6(11): e27275 |
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| Hiremath et al. (2012) Large-scale development of cost-effective SNP marker assays for diversity assessment and genetic mapping in chickpea and comparative mapping in legumes, Plant Biotechnology Journal 10(6): 716–732 | Link |
| Varshney et al. (2013) Genetic dissection of drought tolerance in chickpea (Cicer arietinum L.), Theoretical and Applied Genetics | Link |
| Roorkiwal et al (2014) Exploring germplasm diversity to understand the domestication process in Cicer spp. using SNP and DArT markers | Link |
