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Mapping of iron and zinc quantitative trait loci in soybean for association to iron deficiency chlorosis resistance

机译：大豆中铁和锌定量性状基因座与铁缺乏耐绿化性的关系

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Iron deficiency chlorosis (IDC) in soybean results in yield losses or in extreme cases death. Breeding for resistance has shown limited success with no cultivar having complete resistance. Mineral content of the soybean could be an indicator of the ability of the plant to withstand the effects of IDC. Iron (Fe) and zinc (Zn) concentration was examined in soybean seed and leaves. SSR, RFLP, and BARCSOYSSR markers were used to construct a linkage map used for mapping of Fe and Zn concentrations. The QTL analysis for the combined data identified one major QTL for seed Fe accumulation on chromosome 20 that explained 21.5% of the variation. This QTL was in the marker interval pa_515-1-Satt239, with marker pa_515-1 previously being used to map an Fe-efficiency QTL. This provides the first evidence of a potential genetic link between Fe-efficiency and Fe accumulation in the soybean seed.

机译：大豆中的缺铁性缺氯病（IDC）导致产量损失或在极端情况下死亡。抗性育种显示有限的成功，没有品种具有完全抗性。大豆中的矿物质含量可能是植物抵御IDC影响的能力的指标。检查了大豆种子和叶片中铁（Fe）和锌（Zn）的浓度。 SSR，RFLP和BARCSOYSSR标记用于构建连锁图，用于绘制铁和锌的浓度。对合并数据的QTL分析确定了一个主要的QTL，用于种子铁在20号染色体上的积累，解释了21.5％的变异。此QTL在标记间隔pa_515-1-Satt239中，而标记pa_515-1先前曾被用于绘制Fe效率QTL。这提供了铁效率与大豆种子中铁积累之间潜在的遗传联系的第一个证据。

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King Keith E.; Peiffer Gregory A.; Reddy Manju B.; Lauter Nick; Lin Shun Fu; Cianzio Silvia R.; Shoemaker Randy C.;
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年度 2013
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专利

1. MAPPING OF IRON AND ZINC QUANTITATIVE TRAIT LOCI IN SOYBEAN FOR ASSOCIATION TO IRON DEFICIENCY CHLOROSIS RESISTANCE [J] . King Keith E., Peiffer Gregory A., Reddy Manju, Journal of Plant Nutrition . 2013,第12a14期

机译：大豆中铁和锌定量性状的定位与铁缺乏耐氯性的关系
2. Association mapping of iron deficiency chlorosis loci in soybean (Glycine max L. Merr.) advanced breeding lines [J] . Wang J, McClean PE, Lee R, Theoretical and Applied Genetics: International Journal of Breeding Research and Cell Genetics . 2008,第6期

机译：大豆（Glycine max L. Merr。）高级育种系中缺铁性黄萎病位点的关联图谱
3. Association mapping of iron deficiency chlorosis loci in soybean (Glycine max L. Merr.) advanced breeding lines [J] . Ju Wang, Phillip E. McClean, Rian Lee, TAG Theoretical and Applied Genetics . 2008,第6期

机译：大豆（Glycine max L. Merr。）高级育种系中缺铁性黄萎病位点的关联图谱
4. Synthesis and Use of Iron Humates for Correction of Iron Deficiency Chlorosis in Higher Plants [C] . Tatiana A. Sorkina, Natalia A. Kulikova, Anna M. Necvetay International Meeting of the International Humic Substances Society . 2008

机译：铁腐蚀校正高等植物缺铁萎黄矫正的合成及用途
5. Association mapping of iron deficiency chlorosis loci in soybean. [D] . Ju, Wang. 2006

机译：大豆中缺铁性黄萎病位点的关联图谱。
6. Multi-Environment Quantitative Trait Loci Mapping for Grain Iron and Zinc Content Using Bi-parental Recombinant Inbred Line Mapping Population in Pearl Millet [O] . Tripti Singhal, C. Tara Satyavathi, S. P. Singh, 2021

机译：粮食铁和锌含量的多环境定量特质基因座在珍珠小米中使用双亲子重组近交线映射群
7. Mineral evaluation and Quantitative Trait Loci mapping in a soybean (Glycine max (L.) Merr.) population developed for iron deficiency chlorosis resistance [O] . King, Keith E. 2011

机译：针对铁缺乏耐缺氯性的大豆（Glycine max（L.）Merr。）种群的矿物质评估和数量性状位点作图
8. Correction of Lime-Induced Chlorosis in Soybeans in a Glasshouse with Sulfur and an Acidifying Iron Compound [R] . Wallace, A ., Samman, Y. S., Wallace, G. A. 1981

机译：用硫和酸化铁化合物校正玻璃温室大豆中石灰诱导的叶绿素

Mapping of iron and zinc quantitative trait loci in soybean for association to iron deficiency chlorosis resistance

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