IIRR, NRRI, IARI, IGKV, UAS-B, TNAU, U of C (6)
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| IIRR | NRRI | IARI | IGKV | UAS-B | TNAU | U OF C |
Objectives
- Development of crop genotypes with zinc, protein, β-carotene, iron, low phytate, and folic acid through conventional and genetic engineering and their evaluation.
- Study of bioavailability and biosafety of developed crop genotypes.
- Gene identification, allele mining and functional genomics for the candidate genes associated with enhanced micronutrient and protein content and reduced phytate content through Next Generation Technologies.
- Socio-Impact studies for assessment of consumer knowledge, preference and preparedness for biofortified products and sensitization and popularization of biofortified products.
Target for the traits of interest
| Crop | Current Target* | Enhanced Target |
|---|---|---|
| Rice | ||
| Zinc | 24 ppm | 28 ppm |
| Protein | >10% | >10% |
Varieties released
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| DRR Dhan 45 (IET 23832: RP 5886-HP 3-IR80463-B39-3), developed by IIRR, Hyderabad using the donor of HarvestPlus, is released for the states of Tamil Nadu, Karnataka and Andhra Pradesh. It is a mid-early duration variety with 22 ppm zinc and 3.85ppm Fe. | CR Dhan 310 (IET24780: CR2829-PLN-37) developed by NRRI, Cuttack and released by CVRC for Odisha, Uttar Pradesh and Madhya Pradesh as the first high protein (10.2%) high yielding (4.5 t/ha) rice variety of India. | Mukul (IET 24772: CR2829-PLN-100) has been released by SVRC for Odisha as nutrient rich rice with high protein (10.1%) and moderately high Zn content (20 ppm). |
variety identified: R-RHZ-LI-23 (IET 25477) - Zinco Rice- MS developed by IGKV and identified by VIC 2018 for West Bengal, Chattisgarh and Odisha.
Common study across the partners: A set of 36 donors for high zinc from IIRR, NRRI, IARI, IGKV and TNAU were pooled and grown at five locations during kharif 2017. The donors were characterized for their agro-morphological characters, iron and zinc in brown and polished rice across locations and stable donors were identified.
Entries under evaluation: ~20 biofortified entries are being nominated and evaluated in under AICRP-Rice (The project has been started from 2014. Thus, some of the base material was from DBT, HarvestPlus and from other projects. However being evaluated, improved and multiplied in this project.
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Rice |
Entry |
Status |
CRP centres |
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1 |
IET25477 |
Identified by VIC2018* |
IGKV |
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2 |
IET25475 |
dropped after AVT2 |
IGKV |
|
3 |
IET25470 |
dropped after AVT2 |
IGKV |
|
4 |
IET25443 |
dropped after AVT 2 |
IIRR |
|
5 |
IET27169 |
Promoted to AVT1* |
IIRR |
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6 |
IET27179 |
Promoted to AVT1* |
NRRI |
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7 |
IET27170 |
Promoted to AVT1* |
IGKV |
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8 |
IET27158 |
dropped after IVT |
IIRR |
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9 |
IET27184 |
dropped after IVT |
IIRR |
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10 |
IET26393 |
dropped after AVT1 |
NRRI |
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11 |
IET26398 |
dropped after AVT1 |
NRRI |
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12 |
IET26373 |
dropped after AVT1 |
NRRI |
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13 |
IET26381 |
dropped after IVT |
TNAU |
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14 |
IET26376 |
dropped after IVT |
TNAU |
Publications
- CN Neeraja, V Ravindra Babu, Sewa Ram, Firoz Hossain, K Hariprasanna, B S Rajpurohit, Prabhakar, T Longvah, K S Prasad, J S Sandhu and Swapan K Datta. 2017. Biofortification in cereals – Progress and Prospects. Current Science 113(6): 1050-1057
- C N Neeraja, K S Kulkarni, P Madhu Babu, D Sanjeeva Rao, K Surekha, V Ravindra Babu (2018) Transcriptome analyses of rice panicles identifies genes associated with high zinc content in polished grains. PLOS one February 2, 2018 https://doi.org/10.1371/journal.pone.0192362
- Chattopadhyay, K., Sharma, S.G., Bagchi, T.B., Molla, K.A., Sarkar, S., Marndi, B.C., Sarkar, A., Dash, S.K., Singh, O.N., 2018. Development of recombinant high yielding lines with improved protein content in rice (Oryza sativa L.). The Journal of Agricultural Science, Cambridge, 1–17. https://doi.org/10.1017/S0021859618000230.
- Girish Chandel, Mahima Dubey, A R Rao, Saurabh Gupta and Arun Patil1 (2017). Identification and characterization of rice ortholog of ferric chelate reductase (FRO2) gene in little millet (Panicum sumatrense). 3 Biotech 7:80. DOI 10.1007/s13205-017-0656-2.
- Alagarsan G., Dubey M. and Chandel G. 2017. Genome wide identification of orthologous ZIP genes associated with Zinc & Iron translocation in Setaria italica. Frontiers in Plant Science 8:775.
- Shrinkhla Maurya, Ashish Kumar Vishwakarma, Mahima Dubey, Pankaj Shrivastava, Rajeev Shrivastava and Girish Chandel. Developing gene tagged molecular marker for functional analysis of OsZIP10 metal transporter gene in Rice. Accepted in Indian Journal of Genetics & Plant Breeding
- Mahima Dubey, Arun H. Patil and Girish Chandel. (2016). Excavation of Rice Ortholog of Metal Transporter Gene OsNAS2 in Micronutrient Dense Minor Millet Crops. Research Journal of Biotechnology Vol. 11 (4): 80-91.
- A. H. Patil, V Premi, V Sahu, M Dubey, G R Sahu and G Chandel. (2014). Identification of Elite Rice Germplasm Lines for Grain Protein Content, SSR Based Genotyping and DNA Fingerprinting”. International journal of plant animal and environmental sciences. Volume-4. Issue-3.
- Girish Chandel, Rakesh Kumar Meena, Mahima Dubey and Mamta Kumari. (2014). Unraveling the Nutritional properties of minor millets: neglected cereals with potentials to combat malnutrition. Current Science, VOL. 107, NO. 7.
- Girish Chandel, Mahima Dubey, A.R.Rao, Saurabh Gupta and Arun Patil (2015). Identification & Characterization of Rice Ortholog of Ferric Chelate Reductase (FRO2) Gene in Little Millet (Panicum sumatrense). Accepted in Indian journal of biotechnology.
- Shrinkhla Maurya, Mahima Dubey and Girish Chandel. (2015). Comparative expression analysis of metal homeostasis related genes in rice genotypes differing for grain micronutrient levels. Current Science 109: 12 (25).
- Aiyswarya, S., R.Saraswathi, S.Ramchander, N.Jaivel, D.Uma, D.Sudhakar and S.Robin. 2017. Evaluation of Rice (Oryza sativa L.) Germplasm for the Identification of High Folate Accession Using HPLC. Int. J. Curr. Microbiol.App. Sci. 6 (11): 5328-5346