在非洲栽培水稻O. glaberrima中应用生物技术干预的挑战和前景。

GM Crops & Food Pub Date : 2022-12-31 DOI:10.1080/21645698.2022.2149212

Gideon Sadikiel Mmbando

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引用次数: 1

摘要

非洲的人口增长速度是世界上最快的，这使得它很容易受到粮食短缺的影响。非洲种植两种水稻(亚洲水稻;水稻和非洲稻;选用glaberrima)。被称为O. glaberrima的非洲本土水稻具有一些有趣的特性，包括对非洲几种生物和非生物区域限制的抗性。然而，由于玉米产量低、倒伏、断粒、组织培养能力差等原因，玉米在非洲无法生长，因此仅将其作为提高玉米产量的工具。因此，加强光斑草的育种工作至关重要。然而，在转化和再生方面，大多是针对苜蓿的，而不是针对光斑苜蓿的。本研究探讨了非洲水稻品种在转化和再生方面存在的问题，以及利用现代育种方法对非洲水稻品种进行改造和再生的潜在解决方案。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Challenges and prospects in using biotechnological interventions in O. glaberrima, an African cultivated rice.

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Challenges and prospects in using biotechnological interventions in O. glaberrima, an African cultivated rice.

Africa has the world's fastest rate of population expansion, making it vulnerable to food shortages. Africa cultivates two types of rice (Asian rice; Oryza sativa and African rice; Oryza glaberrima). Native African rice called O. glaberrima has some intriguing characteristics, including resistance to several biotic and abiotic regional restrictions in Africa. However, O. glaberrima is solely employed as a tool to increase the production of O. sativa, which cannot grow in Africa, due to its low yield, lodging, grain breaking, and poor tissue culture ability. Enhancing breeding efforts for O. glaberrima is therefore critically important. The protocols for transformation and regeneration, however, are mostly for O. sativa and not O. glaberrima. This study examines the present problems with transformation and regeneration for African rice species as well as potential solutions for using modern breeding methods in O. glaberrima.

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GM Crops & Food

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