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Activation tagging for mining novel genes in indica rice. In: Muralidharan K and Siddiq EA eds. 2013. International Dialogue on Perception and Prospects of Designer Rice. Society for Advancement of Rice Research

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Title Activation tagging for mining novel genes in indica rice. In: Muralidharan K and Siddiq EA eds. 2013. International Dialogue on Perception and Prospects of Designer Rice. Society for Advancement of Rice Research
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Creator Moin M, Bakshi A, Bharadwaj JP, Kumar ES, Kumar SV, Rao GSK, Kumar GR, Rao TB, Ramesh B, Rambabu B, Neetasri C, Mahendranath G, Rao KV, Balchandran SM, Sundaram RM, Anuradha G, Kumar MU, Siddia EA an Kirti PB
 
Subject Activation tagging
novel genes
 
Description Zeigler RS. Rice and the global economy: Designing rice to meet social, economic and environmental challenges; Wing RW et al The international - Oryza map alignment project: Development and analysis of a genus-wide comparative genomics platform to help solve the 9 billion people question; Agarwal P, Parida S, Kothari KS, Sharma G, Baranwal V, Kapoor S and Tyagi A. Transcriptome resources for function analysis and genetic enhancement of rice; Thomson MJ. Allele mining and deployment for rice improvement through sequencing and SNP genotyping: status and potential; Siddiq EA et al. Finding new yield thresholds through changing concept of plant type in rice; Fan Z et al. The nature of green revolution: A re-evaluation; Ali J et al. Breeding for yield potential and enhanced productivity across different rice ecologies through green super rice (GSR) breeding strategy; Viraktamath BC et al Breeding rice hybrids by design for future; Sarla N et al. Increasing rice yield using wild species. ;Singh AK et al Harnessing advances in rice genetics and genomics for unraveling genes and QTLs governing yield and yield components for developing designer rice; Vemireddy LR and Srividhya A. Designing high yield rice: Prospects and caveats; Hwang S-K et al Redesigning starch metabolism to increase rice yields. Madana MR et al. Designer rice: improvement of source to sink in rice for higher yields. Garg AK et al. Genetic modification of trehalose metabolism in cereal crops to improve grain yield. Mohapatra PK. A physiological approach to design rice panicle architecture in the quest for high grain yield. Raghavendra AS. Biosynthesis and modification of starch by genetic engineering with reference to rice. Goel S and Siddiqi I. Apomixis: current status and future prospects. Kumar V, Malik SK et al. SSH and microarray studies show strong association of heat shock proteins and other stress related transcripts with nucellar polyembryony in Citrus sinensis (L) Osb. Liu J and Wang G-L. New insights into rice blast resistance provide novel strategies for developing durable resistance to Magnaporthe oryzae. Roy-Barman S and Chattoo BB. Engineering disease resistance in rice. Sharma TR. Extensive variation in alleles of Pi54 makes this gene show broad-spectrum resistance to blast. Dasgupta I. Prospects of engineering virus resistance in rice: achievements and opportunities. Bentur JS et al. New genetic avenues for insect pest anagement in rice as revealed by studies on gall midge. Gayen S et al. Use of Vip3A-like insecticidal toxin gene from Bacillus thuringiensis to develop designer rice cultivars resistant to lepidopteran pests. Kumar SV et al Strategies for enhancement of resistance in rice to sucking pests through genetic engineering. Kohli A. Changing Honda and Toyota: innovative molecular paradigms for drought tolerance in rice. Gill SS et al. Salinity induced oxidative stress tolerance in rice (Oryza sativa L). Parida A and George S. Improving rice productivity under abiotic stress conditions. Tripathy MK et al. Towards developing transgenic rice for salinity and drought tolerance: role of Rab7. Neeraja CN et al. Molecular breeding for submergence tolerance in rice (Oryza sativa L). Reddy PM, et al. Predisposition and redesigning of genetic networks of rice for accommodating nitrogen-fixing rhizobial symbiosis. Ladha JK. Biological and synthetic sources of nitrogen – can they be complimentary? Sheshshayee MS et al Enhancing water use efficiency and effective use of water as a potential strategy to develop rice cultivars suitable for semi-irrigated aerobic cultivation. Moin M, Bakshi A, et al.Activation tagging for mining novel genes in indica rice. Zhu C et al. Development of rice and maize with multiple essential nutrients through simultaneous multi-pathway engineering. Fitzgerald M. Designer rice – designing cooking quality? Datta K et al Genetically engineered rice with iron and carotenoids. Narula K et al. Engineering crop plants with seed storage protein for improved nutritional quality. Rani NS. Perspectives towards designing rice grain quality. Babu VR. Improvement of iron and zinc in rice varieties through conventional and molecular approaches. Quick WP. Engineering a C4 rice. Mittal D and Grover A. Research for better rice to cope with heat stress. Voleti SR et al. Developing C4 rice: A physiological perspective in relation to climate change.
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Date 2024-06-11T15:31:06Z
2024-06-11T15:31:06Z
2013
 
Type Book chapter
 
Identifier Activation tagging for mining novel genes in indica rice. In Muralidharan K and Siddiq E, editors. 2013. International Dialogue on Perception and Prospects of Designer Rice. Society for Advancement of Rice Research, Directorate of Rice Research, Hyderabad 500030, India. 386 p.; 273-281
ISBN 978-81-926809-0-3
http://krishi.icar.gov.in/jspui/handle/123456789/83585
 
Language English
 
Relation Not Available;
 
Publisher Not Available