Transgressive segregation and generation mean analysis reveal the gene action underlying the inheritance of drought tolerance in rice

IF 2.2 Q3 GENETICS & HEREDITY Plant Gene Pub Date : 2024-10-22 DOI:10.1016/j.plgene.2024.100472
Kossi Lorimpo Adjah , Maxwell Darko Asante , Aboubacar Toure , Mawuli Aziadekey , Shailesh Yadav , Felix Frimpong , Francis Osei Amoako-Andoh , Daniel Dzorkpe Gamenyah
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Abstract

Climate change, an effective driver of unprecedented seasonal droughts, is greatly affecting rice production in Africa by threatening food security and safety. Rice, one of the major staple crops on the continent, can save the situation through the development of drought-tolerant cultivars, presenting a major challenge for future rice improvement programs as drought is regarded as a critical limitation in rain-fed ecosystems. This study sought to understand the genetic basis and inheritance behind the expression of tolerance of rice breeding lines to drought-stress through generation mean analysis. To achieve these objectives, two drought-sensitive genotypes (Jasmine 85 and CRI-Agrarice) were crossed with a drought-tolerant genotype (APO) to develop six populations (F1, F2, BC1, BC2, P1 and P2) under screenhouse drought-stress and non-stress evaluation. Data were collected on grain yield and yield-related traits among which the generation mean analysis was conducted. At least one transgressive phenotype was produced in the F2 population for each trait whether there is a significant difference or not among the parental lines under drought-stress. Under non-stress conditions, there was a significance for all six types of gene action for days to flowering in both crosses. Among both crosses and water-regimes, additive x additive gene interaction was significant for most of the traits even though the scaling tests were not significant indicating the effectiveness of selection in early generations. Therefore, either forward breeding or backcross breeding can be adopted as breeding strategies for rapid improvement for these lines to drought tolerance.

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转基因分离和世代平均数分析揭示了水稻耐旱性遗传的基因作用机制
气候变化是前所未有的季节性干旱的有效驱动因素,对非洲的水稻生产造成极大影响,威胁着粮食安全和保障。水稻是非洲大陆的主要主粮作物之一,可以通过培育耐旱栽培品种来挽救这一局面,但由于干旱被认为是雨水灌溉生态系统中的一个关键限制因素,这对未来的水稻改良计划提出了重大挑战。本研究试图通过世代平均数分析,了解水稻育种品系对干旱胁迫耐受性表达背后的遗传基础和遗传方式。为了实现这些目标,研究人员将两个对干旱敏感的基因型(Jasmine 85 和 CRI-Agrarice)与一个耐旱基因型(APO)杂交,在筛选室干旱胁迫和非胁迫评估条件下培育出六个群体(F1、F2、BC1、BC2、P1 和 P2)。收集了谷物产量和产量相关性状的数据,并对其中的世代平均数进行了分析。在干旱胁迫条件下,无论亲本品系之间是否存在显著差异,F2 群体中每个性状都至少产生一个转基因表型。在非胁迫条件下,两个杂交种的所有六种基因对开花天数的作用都具有显著性。在两个杂交种和水源条件下,尽管缩放检验不显著,但加性基因与加性基因的相互作用对大多数性状都有显著影响,这表明早期世代的选择是有效的。因此,可以采用正交育种或回交育种作为育种策略,以快速改良这些品系的抗旱性。
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来源期刊
Plant Gene
Plant Gene Agricultural and Biological Sciences-Plant Science
CiteScore
4.50
自引率
0.00%
发文量
42
审稿时长
51 days
期刊介绍: Plant Gene publishes papers that focus on the regulation, expression, function and evolution of genes in plants, algae and other photosynthesizing organisms (e.g., cyanobacteria), and plant-associated microorganisms. Plant Gene strives to be a diverse plant journal and topics in multiple fields will be considered for publication. Although not limited to the following, some general topics include: Gene discovery and characterization, Gene regulation in response to environmental stress (e.g., salinity, drought, etc.), Genetic effects of transposable elements, Genetic control of secondary metabolic pathways and metabolic enzymes. Herbal Medicine - regulation and medicinal properties of plant products, Plant hormonal signaling, Plant evolutionary genetics, molecular evolution, population genetics, and phylogenetics, Profiling of plant gene expression and genetic variation, Plant-microbe interactions (e.g., influence of endophytes on gene expression; horizontal gene transfer studies; etc.), Agricultural genetics - biotechnology and crop improvement.
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