下一代作物改良计划:茶(Camellia sinensis (L.))的进展与展望o . Kuntze)

Anjan Hazra , Nirjhar Dasgupta , Chandan Sengupta , Sauren Das
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引用次数: 18

摘要

作物改良计划的新领域需要下一代基因组技术与高通量精确表型相结合。只有将统一的分子形态学方法有效地应用于培养过程中,最终对受益者产生积极的影响,才能实现统一分子形态学研究的目的和努力。开发有效和省时的工具来评估作物农艺性状的不同表达和了解其遗传背景是一个先决条件。最近,商业上重要的饮料作物茶(Camellia sinensis (L.))O. Kuntze),因为其有益健康的属性而至关重要。尽管存在一些遗传瓶颈,但一些先进的基因组学和表型组学技术已经在茶叶作物改良项目中得到应用。人们对其产量和品质性状相关标记的开发和下一代表型分析进行了尝试,认为这是科学研究的独特之处。此外,通过条形码技术,明确选择具有特定性状的茶叶品种,确保茶叶产品的优质和品牌。本文综述了近年来茶叶改良工程的研究进展,并对茶叶良种的生产和茶叶的真实性进行了展望。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Next generation crop improvement program: Progress and prospect in tea (Camellia sinensis (L.) O. Kuntze)

The new arena of crop improvement program requires next generation genomic technology in combination with a high throughput precised phenotyping. The aim and efforts of the research through unified molecular-morphological approach will be fulfilled only if they can be effectively employed in the cultivation process which ultimately would be positive to the beneficiaries. Development of competent and time saving tools for assessing the varying expression of agronomic traits of a crop and understanding its genetic background is a prerequisite. Recently, the commercially important beverage crop, tea (Camellia sinensis (L.) O. Kuntze), is of prime importance for its worthwhile health-benefit attributes. Although due to some inherited bottleneckness, several advanced genomics and phenomics technologies have already been utilized in tea for crop improvement program. Attempts have been made for its yield and quality trait associated marker development and next generation phenotyping considered to be the unique point of scientific interest. Moreover, definite selection of tea varieties with specific traits is being carried out for ensuring the premium tea products and brand by barcoding technology. This review summarises the concurrent advances of scientific research in tea improvement program as well as its prospects towards the production of superior cultivars and authenticity.

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