利用高油玉米中两个关联 RIL 群体验证粒淀粉含量 QTL 及其与油含量的遗传相关性。

Verification of QTL for grain starch content and its genetic correlation with oil content using two connected RIL populations in high-oil maize.

机构信息

College of Agriculture, Henan Agricultural University, Key Laboratory of Physiological Ecology and Genetic Improvement of Food Crops in Henan Province, Zhengzhou, People's Republic of China.

出版信息

PLoS One. 2013;8(1):e53770. doi: 10.1371/journal.pone.0053770. Epub 2013 Jan 8.

DOI:10.1371/journal.pone.0053770

PMID:23320103

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3540064/

Abstract

Grain oil content is negatively correlated with starch content in maize in general. In this study, 282 and 263 recombinant inbred lines (RIL) developed from two crosses between one high-oil maize inbred and two normal dent maize inbreds were evaluated for grain starch content and its correlation with oil content under four environments. Single-trait QTL for starch content in single-population and joint-population analysis, and multiple-trait QTL for both starch and oil content were detected, and compared with the result obtained in the two related F(2∶3) populations. Totally, 20 single-population QTL for grain starch content were detected. No QTL was simultaneously detected across all ten cases. QTL at bins 5.03 and 9.03 were all detected in both populations and in 4 and 5 cases, respectively. Only 2 of the 16 joint-population QTL had significant effects in both populations. Three single-population QTL and 8 joint-population QTL at bins 1.03, 1.04-1.05, 3.05, 8.04-8.05, 9.03, and 9.05 could be considered as fine-mapped. Common QTL across F(2∶3) and RIL generations were observed at bins 5.04, 8.04 and 8.05 in population 1 (Pop.1), and at bin 5.03 in population 2 (Pop.2). QTL at bins 3.02-3.03, 3.05, 8.04-8.05 and 9.03 should be focused in high-starch maize breeding. In multiple-trait QTL analysis, 17 starch-oil QTL were detected, 10 in Pop.1 and 7 in Pop.2. And 22 single-trait QTL failed to show significance in multiple-trait analysis, 13 QTL for starch content and 9 QTL for oil content. However, QTL at bins 1.03, 6.03-6.04 and 8.03-8.04 might increase grain starch content and/or grain oil content without reduction in another trait. Further research should be conducted to validate the effect of these QTL in the simultaneous improvement of grain starch and oil content in maize.

摘要

一般来说，玉米籽粒的油分含量与淀粉含量呈负相关。本研究以一个高油玉米自交系和两个普通玉米自交系杂交衍生的 282 和 263 个重组自交系（RIL）为材料，在四个环境下评价了籽粒淀粉含量及其与油分含量的相关性。在单群体和联合群体分析中检测到了淀粉含量的单基因座 QTL，以及淀粉和油分含量的多基因座 QTL，并与两个相关 F2∶3 群体的结果进行了比较。总共检测到 20 个单群体籽粒淀粉含量 QTL。在所有 10 个案例中没有同时检测到 QTL。在两个群体和 4 个和 5 个案例中均检测到位于 bin5.03 和 9.03 的 QTL。在两个群体中，只有 2 个联合群体 QTL 具有显著效应。在 bin1.03、1.04-1.05、3.05、8.04-8.05、9.03 和 9.05 处的 3 个单群体 QTL 和 8 个联合群体 QTL 可以被认为是精细定位的。在群体 1（Pop.1）中观察到跨越 F2∶3 和 RIL 世代的共同 QTL 位于 bin5.04、8.04 和 8.05，在群体 2（Pop.2）中位于 bin5.03。位于 bin3.02-3.03、3.05、8.04-8.05 和 9.03 的 QTL 应集中在高淀粉玉米的育种上。在多性状 QTL 分析中，检测到 17 个淀粉-油 QTL，其中 10 个位于 Pop.1，7 个位于 Pop.2。在多性状分析中，22 个单性状 QTL 没有达到显著性，其中 13 个是淀粉含量 QTL，9 个是油分含量 QTL。然而，位于 bin1.03、6.03-6.04 和 8.03-8.04 的 QTL 可能会在不降低另一个性状的情况下增加籽粒淀粉含量和/或籽粒油分含量。应进一步研究这些 QTL 在玉米籽粒淀粉和油分含量同时提高中的作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4ad0/3540064/7991d39e02f5/pone.0053770.g001.jpg

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Theor Appl Genet. 1996 May;92(7):817-26. doi: 10.1007/BF00221893.

Joint QTL linkage mapping for multiple-cross mating design sharing one common parent.多个杂交组合设计共享一个共同亲本的联合 QTL 连锁作图。

PLoS One. 2011 Mar 15;6(3):e17573. doi: 10.1371/journal.pone.0017573.

J Genet. 2009 Apr;88(1):61-7. doi: 10.1007/s12041-009-0008-z.

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利用高油玉米中两个关联 RIL 群体验证粒淀粉含量 QTL 及其与油含量的遗传相关性。

Verification of QTL for grain starch content and its genetic correlation with oil content using two connected RIL populations in high-oil maize.

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