数量性状基因座（QTL）研究下玉米（Zea mays）耳部扁化的遗传结构

Genetic Architecture of Ear Fasciation in Maize (Zea mays) under QTL Scrutiny.

作者信息

Mendes-Moreira Pedro, Alves Mara L, Satovic Zlatko, Dos Santos João Pacheco, Santos João Nina, Souza João Cândido, Pêgo Silas E, Hallauer Arnel R, Vaz Patto Maria Carlota

机构信息

Departamento de Ciências Agronómicas, Escola Superior Agrária de Coimbra, Instituto Politécnico de Coimbra, Coimbra, Portugal; Instituto de Tecnologia Química e Biológica António Xavier, Universidade Nova de Lisboa, Oeiras, Portugal.

Instituto de Tecnologia Química e Biológica António Xavier, Universidade Nova de Lisboa, Oeiras, Portugal.

出版信息

PLoS One. 2015 Apr 29;10(4):e0124543. doi: 10.1371/journal.pone.0124543. eCollection 2015.

DOI:10.1371/journal.pone.0124543

PMID:25923975

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4414412/

Abstract

MAIZE EAR FASCIATION

Knowledge of the genes affecting maize ear inflorescence may lead to better grain yield modeling. Maize ear fasciation, defined as abnormal flattened ears with high kernel row number, is a quantitative trait widely present in Portuguese maize landraces.

MATERIAL AND METHODS

Using a segregating population derived from an ear fasciation contrasting cross (consisting of 149 F2:3 families) we established a two location field trial using a complete randomized block design. Correlations and heritabilities for several ear fasciation-related traits and yield were determined. Quantitative Trait Loci (QTL) involved in the inheritance of those traits were identified and candidate genes for these QTL proposed.

RESULTS AND DISCUSSION

Ear fasciation broad-sense heritability was 0.73. Highly significant correlations were found between ear fasciation and some ear and cob diameters and row number traits. For the 23 yield and ear fasciation-related traits, 65 QTL were identified, out of which 11 were detected in both environments, while for the three principal components, five to six QTL were detected per environment. Detected QTL were distributed across 17 genomic regions and explained individually, 8.7% to 22.4% of the individual traits or principal components phenotypic variance. Several candidate genes for these QTL regions were proposed, such as bearded-ear1, branched silkless1, compact plant1, ramosa2, ramosa3, tasselseed4 and terminal ear1. However, many QTL mapped to regions without known candidate genes, indicating potential chromosomal regions not yet targeted for maize ear traits selection.

CONCLUSIONS

Portuguese maize germplasm represents a valuable source of genes or allelic variants for yield improvement and elucidation of the genetic basis of ear fasciation traits. Future studies should focus on fine mapping of the identified genomic regions with the aim of map-based cloning.

摘要

玉米穗畸形

了解影响玉米穗花序的基因可能有助于更好地进行谷物产量建模。玉米穗畸形被定义为具有高籽粒行数的异常扁平穗，是葡萄牙玉米地方品种中广泛存在的一种数量性状。

材料与方法

利用一个源于穗畸形对比杂交的分离群体（由149个F2:3家系组成），采用完全随机区组设计进行了两地田间试验。测定了几个与穗畸形相关的性状和产量的相关性及遗传力。鉴定了参与这些性状遗传的数量性状位点（QTL），并提出了这些QTL的候选基因。

结果与讨论

穗畸形的广义遗传力为0.73。发现穗畸形与一些穗和穗轴直径以及行数性状之间存在高度显著的相关性。对于23个产量和穗畸形相关性状，共鉴定出65个QTL，其中11个在两个环境中均被检测到，而对于三个主成分，每个环境中检测到五到六个QTL。检测到的QTL分布在17个基因组区域，分别解释了个体性状或主成分表型变异的8.7%至22.4%。提出了这些QTL区域的几个候选基因，如bearded-ear1、branched silkless1、compact plant1、ramosa2、ramosa3、tasselseed4和terminal ear1。然而，许多QTL定位到没有已知候选基因的区域，这表明潜在的染色体区域尚未成为玉米穗性状选择的目标。

结论

葡萄牙玉米种质是提高产量和阐明穗畸形性状遗传基础的基因或等位变异的宝贵来源。未来的研究应集中于对已鉴定基因组区域的精细定位，以期进行基于图谱的克隆。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/617c/4414412/c405c79309dd/pone.0124543.g001.jpg

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数量性状基因座（QTL）研究下玉米（Zea mays）耳部扁化的遗传结构

Genetic Architecture of Ear Fasciation in Maize (Zea mays) under QTL Scrutiny.

作者信息

机构信息

出版信息

MAIZE EAR FASCIATION

MATERIAL AND METHODS

RESULTS AND DISCUSSION

CONCLUSIONS

玉米穗畸形

材料与方法

结果与讨论

结论

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