Deciphering the genetic basis of novel traits that discriminate useful and non-useful biomass to enhance harvest index in wheat.

Dipendra Shahi,Jia Guo,Md Ali Babar,Sumit Pradhan,Muhsin Avci,Naeem Khan,Jordan McBreen,Smita Rayamajhi,Zhao Liu,Guihua Bai,Paul St Amand,Amy Bernardo,Matthew Reynolds,Gemma Molero,Sivakumar Sukumaran,John Foulkes,Jahangir Khan
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Abstract

Wheat (Triticum aestivum L.) production must be doubled in the next 25 years to meet the global food demand. Harvest index (HI) is an important indicator of efficient partitioning of photosynthetic assimilates to grains. Reducing competition from alternative sinks, such as stems, and deviating assimilates toward grain increase grain number (GN), HI, and grain yield (GY). Novel partitioning traits have great potential to be utilized in wheat breeding programs to increase HI. In this study, we evaluated 236 US facultative soft wheat genotypes for multiple stem and spike partitioning traits at 7 days after anthesis, and for GN, HI, and GY in two locations of Florida in 2016-2017 and 2017-2018 wheat growing seasons. The panel was genotyped with 20,706 single nucleotide polymorphisms generated by genotype-by-sequencing approach. Spike partitioning index (SPI) showed negative significant correlations with lamina partitioning index and true stem partitioning index. Internode 2 and 3 lengths and partitioning indices had significant negative correlations with SPI and HI. The results indicate enhanced competition for assimilates between spikes and second and third internodes during stem elongation. Genome-wide association study (GWAS) identified 114 unique significant marker-trait associations (MTAs) for 12 traits, and 58 MTAs were found within genes that encode different proteins related to biotic/abiotic stress tolerance and other functions. Significant MTAs identified in the GWAS were converted into kompetitive allele specific PCR markers. Some of the markers were validated and can be effectively employed in marker-assisted selection to improve HI, GY, and GN.
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破译区分有用和无用生物量的新型性状的遗传基础,以提高小麦的收获指数。
小麦(Triticum aestivum L.)产量必须在未来 25 年内翻一番,才能满足全球粮食需求。收获指数(HI)是光合同化物有效分配到谷物的重要指标。减少来自茎等替代吸收汇的竞争,并将同化物偏向谷粒,可增加谷粒数(GN)、收获指数(HI)和谷粒产量(GY)。在小麦育种计划中,利用新的分配性状来提高 HI 有很大的潜力。在本研究中,我们在 2016-2017 年和 2017-2018 年小麦生长季节,在佛罗里达州的两个地方评估了 236 个美国面软小麦基因型在花后 7 天的多个茎秆和穗分化性状,以及 GN、HI 和 GY。通过逐基因型测序方法产生的 20706 个单核苷酸多态性对该面板进行了基因分型。穗分化指数(SPI)与叶片分化指数和真茎分化指数呈显著负相关。节间 2 和 3 长度及分区指数与 SPI 和 HI 呈显著负相关。结果表明,在茎伸长过程中,穗与第二和第三节间对同化物的竞争加剧。全基因组关联研究(GWAS)为 12 个性状确定了 114 个独特的显著标记-性状关联(MTAs),在编码与生物/非生物胁迫耐受性和其他功能相关的不同蛋白质的基因中发现了 58 个 MTAs。在 GWAS 中发现的重要 MTAs 被转化为竞争性等位基因特异性 PCR 标记。其中一些标记已通过验证,可有效用于标记辅助选择,以提高 HI、GY 和 GN。
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