Genetic diversity among early provitamin A quality protein maize inbred lines and the performance of derived hybrids under contrasting nitrogen environments.

IF 2.9 Q2 Biochemistry, Genetics and Molecular Biology

BMC Genetics Pub Date : 2020-07-18 DOI:10.1186/s12863-020-00887-7

Ebenezer Obeng-Bio, Baffour Badu-Apraku, Beatrice Elohor Ifie, Agyemang Danquah, Essie Takyiwaa Blay, Mustapha Abu Dadzie, Gilbert Tchala Noudifoulè, Abidemi Olutayo Talabi

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引用次数: 0

Abstract

Background: Information on population structure and genetic diversity of germplasm in a breeding programme is useful because it enhances judicious utilisation of genetic resources to achieve breeding objectives. Seventy early maturing provitamin A (PVA) quality protein maize (QPM) inbreds developed by the IITA- maize improvement programme were genotyped using 8171 DArTseq markers. Furthermore, 96 hybrids derived from 24 selected inbreds plus four checks were evaluated under low-N and optimal environments in Nigeria during 2016 and 2017. Genotypic and phenotypic data of inbreds and hybrids respectively, were analysed to (i) assess the level of genetic dissimilarities and population structure of the inbreds, and (ii) investigate the grain yield performance of derived hybrids under low-N, optimal and across environments.

Results: Genetic diversity among the seventy inbreds was high varying from 0.042 to 0.500 with an average of 0.357. Sixty-six inbred lines with probabilities ≥0.70 were assigned to a single group. The population structure analysis, the UPGMA phylogeny, and the principal Coordinate Analysis (PCoA) of the DArTseq markers revealed a clear separation of five groups and each followed pedigree records. Clustered inbreds displayed common characteristics including high PVA levels, and drought and low-N tolerance. The top performing hybrid, TZEIORQ 40 × TZEIORQ 26 out-yielded the best hybrid control, TZEIOR 127 × TZEIOR 57 by 8, 3, and 9% under low-N, optimal, and across environments, respectively. High repeatability estimates were detected for grain yield under each and across environments. Similarly, high breeding efficiency of 71, 70 and 72% were computed under low-N, optimal, and across environments, respectively.

Conclusions: The UPGMA clustering, the structure analysis, and the PCoA consistently revealed five groups which largely followed pedigree information indicating the existence of genetically distinct groups in the inbred lines. High repeatability and breeding efficiency values estimated for grain yield of hybrids under low-N, optimal and across environments demonstrated that high productive hybrids could be developed using inbreds from the opposing clusters identified by the DArTseq markers. The 15 top performing hybrids identified, particularly TZEIORQ 40 × TZEIORQ 26 and TZEIORQ 29 × TZEIORQ 43 should be further evaluated for release and commercialization in SSA.

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早期维生素 A 优质蛋白玉米近交系的遗传多样性以及衍生杂交种在不同氮环境下的表现。

背景：育种计划中种质资源的种群结构和遗传多样性信息非常有用，因为这些信息有助于明智地利用遗传资源来实现育种目标。利用 8171 个 DArTseq 标记对 IITA 玉米改良项目开发的 70 个早熟维生素 A（PVA）优质蛋白玉米（QPM）近交种进行了基因分型。此外，2016 年和 2017 年期间，在尼日利亚的低氮和最佳环境下，对源自 24 个选定近交系和 4 个对照的 96 个杂交种进行了评估。分别对近交系和杂交种的基因型和表型数据进行了分析，以(i) 评估近交系的遗传差异水平和种群结构，(ii) 研究衍生杂交种在低氮、最佳和跨环境下的谷物产量表现：七十个近交系的遗传多样性很高，从 0.042 到 0.500 不等，平均为 0.357。概率≥0.70的 66 个近交系被归入一个群体。种群结构分析、UPGMA 系统进化和 DArTseq 标记的主坐标分析（PCoA）显示，五个群体明显分离，且每个群体都遵循血统记录。聚类的近交系表现出共同的特征，包括高 PVA 水平、耐旱性和耐低氮性。表现最好的杂交种 TZEIORQ 40 × TZEIORQ 26 在低氮、最佳和跨环境条件下的产量分别比最佳杂交对照 TZEIOR 127 × TZEIOR 57 高出 8%、3% 和 9%。在每种环境和不同环境下，谷物产量的重复性估计值都很高。同样，在低氮、最优和跨环境条件下，育种效率分别为 71%、70% 和 72%：结论：UPGMA 聚类、结构分析和 PCoA 一致揭示了五个群体，这些群体基本遵循血统信息，表明近交系中存在不同的遗传群体。在低氮、最佳和跨环境条件下，杂交种谷物产量的重复性和育种效率值都很高，这表明可以利用 DArTseq 标记识别出的对立群中的近交系培育出高产杂交种。已鉴定的 15 个表现最好的杂交种，特别是 TZEIORQ 40 × TZEIORQ 26 和 TZEIORQ 29 × TZEIORQ 43，应进一步评估，以便在撒哈拉以南非洲地区推广和商业化。

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来源期刊

BMC Genetics 生物-遗传学

CiteScore

4.30

自引率

0.00%

发文量

审稿时长

4-8 weeks

期刊介绍： BMC Genetics is an open access, peer-reviewed journal that considers articles on all aspects of inheritance and variation in individuals and among populations.