Biotechnological Approaches toward Blast Disease Resistance in Finger Millet

International Journal of Plant & Soil Science Pub Date : 2024-06-14 DOI:10.9734/ijpss/2024/v36i74749

Rushikesh Sanjay Mane, B. D. Prasad, S. Sahni, Zeba Quaiyum

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Abstract

Plant disease globally causes significant losses in crop production that hindering the urgent need for a 60% increase in food demand. The main impact is reduced food quantity and quality leading to compromised food safety from pesticides and toxins. Biotechnology is essential for protecting crop yield and enhancing sustainability in agriculture. Agricultural biotechnology has advanced offering options for understanding plant molecular mechanisms and breeding. The devastating finger millet blast disease caused by the fungus Magnaporthe oryzae affects crop growth and yield leading to instability due to breakdown of blast resistance. Novel strategies are essential for sustainable finger millet production focusing on breeding techniques such as molecular markers, expressed sequence tags (ESTs), gene expression profiling, genome-wide association studies, and genetic transformations to develop new disease-resistance varieties. This comprehensive review explores current breeding strategies and future directions that may offers insights for effective disease control and optimizing finger millet productivity.

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抗纤小指瘟的生物技术方法

全球植物病害给作物生产造成了巨大损失，阻碍了粮食需求 60% 增长的迫切需要。主要影响是粮食数量和质量下降，农药和毒素导致食品安全受损。生物技术对于保护作物产量和提高农业的可持续性至关重要。农业生物技术的发展为了解植物分子机制和育种提供了多种选择。由真菌 Magnaporthe oryzae 引起的破坏性粟瘟影响作物的生长和产量，导致粟瘟抗性失效，从而造成不稳定性。新策略对小米的可持续生产至关重要，重点是利用分子标记、表达序列标签（EST）、基因表达谱分析、全基因组关联研究和基因转化等育种技术来培育抗病新品种。本综述探讨了当前的育种策略和未来的发展方向，这些策略和方向可为有效控制病害和优化指粟产量提供启示。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Journal of Plant & Soil Science

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