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水稻数量性状基因座及数量性状基因座×环境对农艺性状和氮素吸收性状的影响

QTL and QTL x environment effects on agronomic and nitrogen acquisition traits in rice.

作者信息

Senthilvel Senapathy, Vinod Kunnummal Kurungara, Malarvizhi Palaniappan, Maheswaran Marappa

机构信息

Centre for Plant Breeding and Genetics, Tamil Nadu Agricultural University, Coimbatore 641003, India.

出版信息

J Integr Plant Biol. 2008 Sep;50(9):1108-17. doi: 10.1111/j.1744-7909.2008.00713.x.

DOI:10.1111/j.1744-7909.2008.00713.x
PMID:18844779
Abstract

Agricultural environments deteriorate due to excess nitrogen application. Breeding for low nitrogen responsive genotypes can reduce soil nitrogen input. Rice genotypes respond variably to soil available nitrogen. The present study attempted quantification of genotype x nitrogen level interaction and mapping of quantitative trait loci (QTLs) associated with nitrogen use efficiency (NUE) and other associated agronomic traits. Twelve parameters were observed across a set of 82 double haploid (DH) lines derived from IR64/Azucena. Three nitrogen regimes namely, native (0 kg/ha; no nitrogen applied), optimum (100 kg/ha) and high (200 kg/ha) replicated thrice were the environments. The parents and DH lines were significantly varying for all traits under different nitrogen regimes. All traits except plant height recorded significant genotype x environment interaction. Individual plant yield was positively correlated with nitrogen use efficiency and nitrogen uptake. Sixteen QTLs were detected by composite interval mapping. Eleven QTLs showed significant QTL x environment interactions. On chromosome 3, seven QTLs were detected associated with nitrogen use, plant yield and associated traits. A QTL region between markers RZ678, RZ574 and RZ284 was associated with nitrogen use and yield. This chromosomal region was enriched with expressed gene sequences of known key nitrogen assimilation genes.

摘要

由于过量施用氮肥,农业环境恶化。培育低氮响应基因型可以减少土壤氮输入。水稻基因型对土壤有效氮的反应各不相同。本研究试图量化基因型与氮水平的相互作用,并对与氮利用效率(NUE)及其他相关农艺性状相关的数量性状位点(QTL)进行定位。在一组源自IR64/阿苏西娜的82个双单倍体(DH)系中观察了12个参数。设置了三种氮处理水平,即自然水平(0千克/公顷;不施氮)、最佳水平(100千克/公顷)和高氮水平(200千克/公顷),每种处理重复三次作为试验环境。在不同氮处理水平下,亲本和DH系的所有性状均存在显著差异。除株高外,所有性状均表现出显著的基因型×环境互作。单株产量与氮利用效率和氮吸收呈正相关。通过复合区间作图法检测到16个QTL。11个QTL表现出显著的QTL×环境互作。在第3号染色体上,检测到7个与氮利用、单株产量及相关性状有关的QTL。标记RZ678、RZ574和RZ284之间的一个QTL区域与氮利用和产量有关。该染色体区域富含已知关键氮同化基因的表达基因序列。

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