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Insights into the Genetic Improvement of Canola,n, and for industrial applications. Even its waste can be recycled and fed to animals or used as an ornamental crop. It is imperative to note that various genetic engineering tools and plant breeding technologies may play an essential role in developing climate-resilient canola with higher nutrient

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Genetic Improvement of Foxtail Millet (, L.),ian countries, although worldwide consumption has also increased in last few years. Among all millets, foxtail millet is a C4 Panicoid cereal with small grained, known for its resistance against various environmental stresses and high nutritional importance. It is a good model system for C4 Panicoid

neologism

Genetic Improvement of Groundnut,many developing nations. Nevertheless, the overall productivity of groundnuts is hindered by a range of biotic and abiotic stressors due to their geocarpic growth habit. Prior endeavours to tackle these challenges by creating enhanced groundnut cultivars and integrating resistance and tolerance mech

exostosis

Genetic Improvement of Jute: An Alternative for Plastic and Future Food,gh-yielding, disease-resistant jute varieties with improved fiber quality and nutritional traits. By leveraging conventional and modern biotechnological approaches, researchers enhance jute’s agronomic performance and nutritional value while minimizing its environmental impact. Jute serves as a rene

好色

Genome Editing: A Safe Alternative to Genetic Engineering of Crops,tic improvement, consists of a set of techniques, employed to add, delete, alter, or replace fragments of DNA in a specific genome location in an organism, thereby changing its genetic information. The major genome-editing technologies comprising of zinc finger nucleases (ZFNs), transcription activa

黄瓜

Transgenic and Genome-Edited Maize: Status and Prospect,ighest genetic yield potential. In the past two decades, effective utilization of transgenic technology has resulted in the creation of transgenic or genetically modified (GM) maize with enhanced productivity, and resilience to abiotic and biotic stresses, etc. To date, 244 transgenic events in maiz

Aggressive

Genome Editing for Trait Improvement in Potato (, L.), demand of the global human population. However, the crop frequently suffers from various biotic (insect pest and disease) and abiotic (heat, cold, drought, and salinity) stresses, which cause substantial yield losses. Thus, developing improved potato varieties with better disease tolerance, stress

Catheter

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