首页> 外文期刊>Frontiers in Plant Science >Genetic Gains in Yield and Yield Related Traits under Drought Stress and Favorable Environments in a Maize Population Improved Using Marker Assisted Recurrent Selection
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Genetic Gains in Yield and Yield Related Traits under Drought Stress and Favorable Environments in a Maize Population Improved Using Marker Assisted Recurrent Selection

机译:利用标记辅助轮作选择改良干旱胁迫和有利环境下玉米群体的产量和相关性状的遗传增益

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The objective of marker assisted recurrent selection (MARS) is to increase the frequency of favorable marker alleles in a population before inbred line extraction. This approach was used to improve drought tolerance and grain yield (GY) in a biparental cross of two elite drought tolerant lines. The testcrosses of randomly selected 50 S_(1)lines from each of the three selection cycles (C_(0), C_(1), C_(2)) of the MARS population, parental testcrosses and the cross between the two parents (F_(1)) were evaluated under drought stress (DS) and well watered (WW) well as under rainfed conditions to determine genetic gains in GY and other agronomic traits. Also, the S_(1)lines derived from each selection types were genotyped with single nucleotide polymorphism (SNP) markers. Testcrosses derived from C_(2)produced significantly higher grain field under DS than those derived from C_(0)with a relative genetic gain of 7% per cycle. Also, the testcrosses of S_(1)lines from C_(2)showed an average genetic gain of 1% per cycle under WW condition and 3% per cycle under rainfed condition. Molecular analysis revealed that the frequency of favorable marker alleles increased from 0.510 at C_(0)to 0.515 at C_(2), while the effective number of alleles (N_(e)) per locus decreased from C_(0)(1.93) to C_(2)(1.87). Our results underscore the effectiveness of MARS for improvement of GY under DS condition.
机译:标记辅助轮回选择(MARS)的目的是在近交系提取之前增加种群中有利的标记等位基因的频率。该方法被用于提高两个优良耐旱品系的双亲杂交的耐旱性和谷物产量(GY)。从MARS种群的三个选择周期(C_(0),C_(1),C_(2))中的每一个中随机选择的50条S_(1)系的测交,亲本测交和两个亲本之间的杂交(F_ (1))在干旱胁迫(DS)和水分充足(WW)以及雨水条件下进行了评估,以确定GY和其他农艺性状的遗传增益。此外,使用单核苷酸多态性(SNP)标记对来自每种选择类型的S_(1)系进行基因分型。在DS下,源自C_(2)的测试杂交产生的籽粒场显着高于源自C_(0)的那些,每个周期的相对遗传增益为7%。同样,来自C_(2)的S_(1)品系的测试杂交表明,在WW条件下,每个周期的平均遗传增益为1%;在雨水条件下,每个周期的平均遗传增益为3%。分子分析表明,有利的标记等位基因频率从C_(0)的0.510增加到C_(2)的0.515,而每个基因座的有效等位基因数目(N_(e))从C_(0)(1.93)减少到C_(2)(1.87)。我们的结果强调了在DS条件下MARS改善GY的有效性。

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