Dissecting genetic loci affecting grain morphological traits to improve grain weight via nested association mapping

Wang, Xiaoqian; Dong, Luhao; Hu, Junmei; Pang, Yongzhen; Hu, Li-Sheng; Xiao, Guilian; Ma, Xin; Kong, Xiuying; Jia, Jizeng; Wang, Hongwei; Kong, Lingrang

doi:10.1007/s00122-019-03410-4

Cited by 31 publications

(18 citation statements)

References 46 publications

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“…To date, a large number of QTLs for TKW and kernel morphological traits have been mapped in common wheat [ 45 , 48 ]. To investigate whether there were overlapping QTLs in different genetic backgrounds, we compared the QTLs interval in this study with those in the previous studies.…”

Section: Discussionmentioning

confidence: 99%

Identification and validation of quantitative trait loci for kernel traits in common wheat (Triticum aestivum L.)

Zhang

et al. 2020

BMC Plant Biol

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Background Kernel weight and morphology are important traits affecting cereal yields and quality. Dissecting the genetic basis of thousand kernel weight (TKW) and its related traits is an effective method to improve wheat yield. Results In this study, we performed quantitative trait loci (QTL) analysis using recombinant inbred lines derived from the cross ‘PuBing3228 × Gao8901’ (PG-RIL) to dissect the genetic basis of kernel traits. A total of 17 stable QTLs related to kernel traits were identified, notably, two stable QTLs QTkw.cas-1A.2 and QTkw.cas-4A explained the largest portion of the phenotypic variance for TKW and kernel length (KL), and the other two stable QTLs QTkw.cas-6A.1 and QTkw.cas-7D.2 contributed more effects on kernel width (KW). Conditional QTL analysis revealed that the stable QTLs for TKW were mainly affected by KW. The QTLs QTkw.cas-7D.2 and QKw.cas-7D.1 associated with TKW and KW were delimited to the physical interval of approximately 3.82 Mb harboring 47 candidate genes. Among them, the candidate gene TaFT-D1 had a 1 bp insertions/deletion (InDel) within the third exon, which might be the reason for diversity in TKW and KW between the two parents. A Kompetitive Allele-Specific PCR (KASP) marker of TaFT-D1 allele was developed and verified by PG-RIL and a natural population consisted of 141 cultivar/lines. It was found that the favorable TaFT-D1 (G)-allele has been positively selected during Chinese wheat breeding. Thus, these results can be used for further positional cloning and marker-assisted selection in wheat breeding programs. Conclusions Seventeen stable QTLs related to kernel traits were identified. The stable QTLs for thousand kernel weight were mainly affected by kernel width. TaFT-D1 could be the candidate gene for QTLs QTkw.cas-7D.2 and QKw.cas-7D.1.

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Section: Discussionmentioning

confidence: 99%

Identification and validation of quantitative trait loci for kernel traits in common wheat (Triticum aestivum L.)

Zhang

et al. 2020

BMC Plant Biol

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“…In the present study, stable stripe rust resistant germplasms were found among 213 Chinese endemic wheat accessions, and novel adult plant resistance loci for breeding and improvement of durable resistance in wheat were identified. Recent studies have indicated that the Chinese endemic wheat represents unique genetic resources with the potential to contribute novel alleles for broadening the current germplasm gene pools of breeding programs (Gu et al, 2015;Wang et al, 2019). However, a major disadvantage of Chinese endemic wheat is that they inevitably harbor genes that negatively impact agronomic traits, such as a brittle rachis, tough glume, and late maturation.…”

Section: Utilization Of Chinese Endemic Wheat In Resistance Breedingmentioning

confidence: 99%

Genome-Wide Association Study Reveals the Genetic Architecture of Stripe Rust Resistance at the Adult Plant Stage in Chinese Endemic Wheat

Yao

et al. 2020

Front. Plant Sci.

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Chinese endemic wheat, comprising Tibetan semi-wild wheat (Triticum aestivum ssp. tibetanum), Yunnan hulled wheat (T. aestivum ssp. yunnanense), and Xinjiang rice wheat (T. petropavlovskyi), are genetically and morphologically unique. To examine the adult plant resistance to stripe rust among Chinese endemic wheat germplasms, a panel of 213 accessions was inoculated with mixed virulent races of wheat stripe rust (Puccinia striiformis f. sp. tritici) in four different field environments. Four traits associated with stripe rust resistance, infection type, final disease severity, disease index, and area under the disease progress curve, were used to evaluate the accessions. The phenotypic datasets were used for 55K single-nucleotide polymorphism (SNP) arraybased genome-wide association studies to identify effective resistance loci. Eightynine accessions with stable resistance were identified in at least three of the four environments by phenotypic evaluation. Eleven markers located on chromosomes 1A, 2B, 5A, 5D, 7B, and 7D by the genome-wide association studies analysis showed significant associations with at least two resistance-associated traits in two of the environments. These loci, corresponding to seven genomic regions based on linkage disequilibrium decay distance, explained 9.3 to 26.0% of the total phenotypic variation. Five quantitative trait loci (QTLs) on chromosomes 1A, 2B, 7B, and 7D overlapped or were in close proximity to previously reported QTLs based on the consensus and physical maps using the reference sequence of bread wheat (IWGSC RefSeq v1.0). The other two QTLs were potential novel QTLs given their physical positions. Haplotype variants of QTL QYr.sicau-2BS showed subspecies-specific inheritance of the stripe rust resistance locus. Resistant loci among Chinese endemic wheat germplasms could be introduced into common wheat cultivars, and the high-confidence SNP markers will aid in marker-assisted selection in breeding for stripe rust disease resistance.

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“…Of which, a total of 201 QTLs were identified for TKW on all chromosomes of durum wheat (Arriagada et al, 2020). In addition, different QTLs for TKW were recently detected on chromosomes 2A, 3B, 4A, 5A, 6A and 7B (Guan et al, 2018;Su et al, 2018;Zhai et al, 2018;Golan et al, 2019;Guan et al, 2019;Sakuma et al, 2019;Wang et al, 2019;Arriagada et al, 2020;Fatiukha et al, 2020;Liu et al, 2020;Mir et al, 2021). The association between different SSR markers and TKW as an indicator for heat tolerance has been also reported in wheat (Ramya et al, 2010;Wang et al, 2012;El-Rawy, 2015;Amallah et al, 2016).…”

Section: Bulked-segregant Analysis (Bsa)mentioning

confidence: 99%

Phenotypic Selection and Bulked Sergeant Analysis for 1000-Kernel Weight under Heat Stress in Durum Wheat

Hassan

El-Rawy

2021

Journal of Agricultural Chemistry and Biotechnology

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Divergent phenotypic selection for 1000-kernel weight (TKW) was performed under heat stress in a population of 120 F7 recombinant inbred lines (RILs) of durum wheat. The direct response to selection for TKW and correlated response in grain yield per plant (GYP) were assessed under favorable and heat stress conditions. Considerable genetic variations were found among the tested RILs for TKW and GYP. Under heat stress, mean TKW of F7 RILs selected in the high and low directions were 62.28 and 34.42g, respectively. Positive and highly significant responses to selection were obtained for TKW in the high (14.92 and 16.29%) and low (20.78 and 26.88%) directions under favorable and heat stress conditions, respectively. Selection for higher TKW produced positive and highly significant correlated response in GYP under heat stress (11.05%), whereas selection for lower TKW produced positive and highly significant correlated responses in GYP under favorable (11.13%) and heat stress (19.33%) conditions. High realized heritability estimates were obtained for TKW (0.74 and 0.75) and GYP (0.65 and 0.71) under favorable and heat stress conditions, respectively. F8 RILs derived from selection for higher TKW showed higher heat tolerance index (averaged 1.20) than RILs selected for lower TKW (0.52), indicating the usefulness of selection for higher TKW in improving heat tolerance. Bulked segregant analysis with 40 simple sequence repeats (SSR) markers identified seven positives alleles located on 2A (1), 3B (2), 4A (1), 5A (1), 6A (1) and 7B (1) chromosomes that were associated with higher TKW as an indicator for heat tolerance.

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Dissecting genetic loci affecting grain morphological traits to improve grain weight via nested association mapping

Cited by 31 publications

References 46 publications

Identification and validation of quantitative trait loci for kernel traits in common wheat (Triticum aestivum L.)

Identification and validation of quantitative trait loci for kernel traits in common wheat (Triticum aestivum L.)

Genome-Wide Association Study Reveals the Genetic Architecture of Stripe Rust Resistance at the Adult Plant Stage in Chinese Endemic Wheat

Phenotypic Selection and Bulked Sergeant Analysis for 1000-Kernel Weight under Heat Stress in Durum Wheat

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