High‐Throughput Precision Phenotyping of the Oil Content of Single Seeds of Various Oilseed Crops

Melchinger, Albrecht E.; Böhm, J.; Utz, H. Friedrich; Müller, Joachim; Munder, Simon; Mauch, Franz J.

doi:10.2135/cropsci2017.07.0429

Cited by 22 publications

(23 citation statements)

References 37 publications

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“…The use of high-field NMR to screen seeds and grains based on their quality characteristics, that is, protein content and quality, is not always feasible due to complicated procedures required for sample preparation as well as the cost of the required instruments (Gouilleux, Marchand, Charrier, Remaud, & Giraudeau, 2018;Marcone et al, 2013). This technique has been mostly used for quality characterization and screening of oilseeds (Horn et al, 2011;Melchinger et al, 2017Melchinger et al, , 2018Pedersen, Munck, & Engelsen, 2000), although a few studies have been conducted to examine the possibility of using LF-NMR for cereal screening (Brusewitz & Stone, 1987;Rolletschek et al, 2015). This technique has been mostly used for quality characterization and screening of oilseeds (Horn et al, 2011;Melchinger et al, 2017Melchinger et al, , 2018Pedersen, Munck, & Engelsen, 2000), although a few studies have been conducted to examine the possibility of using LF-NMR for cereal screening (Brusewitz & Stone, 1987;Rolletschek et al, 2015).…”

Section: Resonance Spectroscopymentioning

confidence: 99%

“…Advantages of using NMR-based methods include precise quantification of wheat quality traits; NMR-based techniques that are being developed for protein content prediction of seeds are nondestructive, and require only small samples sizes, and finally the method is considered a rapid procedure with minimal sample handling and no need for chemical extractions (Dai et al, 2017;Horn et al, 2011;Jia et al, 2017;Melchinger et al, 2018;Pedersen et al, 2000;Rolletschek et al, 2015;Weir et al, 2005). Advantages of using NMR-based methods include precise quantification of wheat quality traits; NMR-based techniques that are being developed for protein content prediction of seeds are nondestructive, and require only small samples sizes, and finally the method is considered a rapid procedure with minimal sample handling and no need for chemical extractions (Dai et al, 2017;Horn et al, 2011;Jia et al, 2017;Melchinger et al, 2018;Pedersen et al, 2000;Rolletschek et al, 2015;Weir et al, 2005).…”

Section: Resonance Spectroscopymentioning

confidence: 99%

“…Hence, low-field (magnet field < 0.5 Tesla) proton NMR (LF-NMR) has been considered as the most widely used type of NMR spectroscopy in screening seeds and grains based on their different contents of water and fat (Jia, Wang, Li, & Liu, 2017;Krishnan, Singh, Verma, Joshi, & Singh, 2014;Moore, Richards, & Rebetzke, 2015;Niu, Li, Chen, & Xu, 2014;Todt, Guthausen, Burk, Schmalbein, & Kamlowski, 2006;Wang et al, 2016Wang et al, , 2017. This technique has been mostly used for quality characterization and screening of oilseeds (Horn et al, 2011;Melchinger et al, 2017Melchinger et al, , 2018Pedersen, Munck, & Engelsen, 2000), although a few studies have been conducted to examine the possibility of using LF-NMR for cereal screening (Brusewitz & Stone, 1987;Rolletschek et al, 2015). Pedersen et al (2000) examined the capability of a benchtop low-field 1 H NMR to discern differences between various types of protons, for example., protons attached to water, oil, and protein, in several varieties of mustard seed and rapeseed.…”

Section: Resonance Spectroscopymentioning

confidence: 99%

“…The information gained from the aforementioned research studies could be used to help develop an LF-NMR-based wheat screening method for performance quality. Advantages of using NMR-based methods include precise quantification of wheat quality traits; NMR-based techniques that are being developed for protein content prediction of seeds are nondestructive, and require only small samples sizes, and finally the method is considered a rapid procedure with minimal sample handling and no need for chemical extractions (Dai et al, 2017;Horn et al, 2011;Jia et al, 2017;Melchinger et al, 2018;Pedersen et al, 2000;Rolletschek et al, 2015;Weir et al, 2005). In summary, there is a need for a more comprehensive investigation of the potential of NMR-based methods, including LF-NMR, to screen wheat grains with respect to their protein content and composition, as the method is more precise due to its unique ability to measure changes in protonbased molecular mobility.…”

Section: Resonance Spectroscopymentioning

confidence: 99%

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Advancing the science of wheat quality evaluation using nuclear magnetic resonance (NMR) and ultrasound‐based techniques

et al. 2018

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Background and objectives The need for cost‐effective, fast, and reliable techniques to evaluate wheat protein content and quality has led to the modification of available methods as well as the development of new methods. This review provides information on two emerging methods, that is, low‐field nuclear magnetic resonance (LF‐NMR) and low‐intensity ultrasound, with potential for evaluating wheat protein content and quality. Findings New techniques with additional capabilities have been developed over the years to provide wheat researchers with information that could not be acquired by the use of conventional methods. LF‐NMR and low‐intensity ultrasound are two emerging techniques in the world of cereal science whose speed, ease of operation, and reliability could promote their applications to wheat screening research studies. This review of these two potential wheat protein quality evaluation methods highlights the necessity of developing such cutting‐edge tools which are advantageous over the conventional tools. Conclusions Easy‐to‐use LF‐NMR and low‐intensity ultrasound seem to have the potential to provide nondestructive, fast evaluation methods that are superior to the currently used techniques in terms of accuracy and cost, respectively. However, further investigations to achieve complete development of such methods are still required. Significance and novelty The potential of LF‐NMR and low‐intensity ultrasound as fast, accurate, and cost‐effective wheat screening tools was confirmed through critical discussions and comparisons of a variety of most widely used wheat quality evaluation techniques.

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Section: Resonance Spectroscopymentioning

confidence: 99%

Section: Resonance Spectroscopymentioning

confidence: 99%

Section: Resonance Spectroscopymentioning

confidence: 99%

Section: Resonance Spectroscopymentioning

confidence: 99%

See 2 more Smart Citations

Advancing the science of wheat quality evaluation using nuclear magnetic resonance (NMR) and ultrasound‐based techniques

et al. 2018

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“…However, the misclassification rates associated with this marker system can be quite substantial (≥30%) depending on the germplasm (Chaikam, Martinez, Melchinger, Schipprack, & Boddupalli, ; Prigge et al, ) or classification may even be impossible due to inhibitory genes such as C1‐I present in some source germplasm (Chaikam et al, ; Paz‐Ares, Ghosal, & Saedler, ). Development of inducers equipped with the red root marker (Chaikam et al, ) or high oil content of the seed (Melchinger, Schipprack, Würschum, Chen, & Technow, ) and sorting of seeds from induction crosses based on their oil content (Melchinger, Böhm et al, ; Melchinger, Munder et al, ) help to reduce the misclassification rates (Melchinger et al, ), but undesirable C seeds (=false positives) can still occur at considerable rates, depending on the source germplasm and inducer. As a result, varying proportions of C seeds are planted in the field after chromosome doubling and must be rogued later in the nursery.…”

Section: Introductionmentioning

confidence: 99%

Early diagnosis of ploidy status in doubled haploid production of maize by stomata length and flow cytometry measurements

et al. 2019

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Reliable discrimination of haploid (H), doubled haploid (DH) and crossing (C) plants in early growth stages could streamline DH production in maize. By detecting in early growth stages undesirable sterile H plants and undesirable heterozygous C plants, a large proportion of resources required for DH production could be saved. The goal of this study was to evaluate the effectiveness of early classification of plants in growth stages V3‐V4 as H, DH or C in the context of DH production using flow cytometry and stomata length. As the reference classification, we used a field score based on plant phenotype commonly applied in DH production and research. Our results show that identification of misclassified C seeds is possible because the overlap in distributions of stomata length between H&DH and C plants is small and the association between flow cytometry and the reference field score is high. In contrast, overlap between H and DH distributions is substantial. Consequently, the main application we see for these classification methods in early growth stages is the identification of C seedlings.

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First the seed: Genomic advances in seed science for improved crop productivity and food security

Dwivedi¹,

Spillane

Lopez

et al. 2021

Crop Science

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Seeds are valuable sources of carbohydrates, lipids, proteins, fibers, minerals, and vitamins. They provide energy and nutrition to germinating seedlings, food to humans, feed to livestock and feedstocks to industry. High-throughput analyses of gene expression in crops has identified many candidate genes associated with seed dormancy, longevity, germination, and vigor. In this review, we cover the latest research focusing on such key seed traits. Transcriptome analyses of time-courses of seed filling have identified sets of genes expressed at different stages of this process. The potential role of epigenetics (including seed-endosperm imprinted genes) in regulating seed development and chemistry is highlighted herein. We also discuss how advances in genomics and seed biology are facilitating the unravelling of associations between seed traits with genebank accessions and gene sequences, including how functional research can accelerate the discovery of allelic variants. Such knowledge of functional effects relating to gene variants is necessary for more efficient and cost-effective management of genetic resources or for redesigning crops with specific seed characteristics. For instance, genebank curators may assess seed viability by monitoring changes in gene expression of biomarker genes in dry seed samples to decide germplasm regeneration and assess genetic integrity of collections by monitoring changes in This article is protected by copyright. All rights reserved. diversity and allele frequencies between samples of same accession stored in genebanks. We highlight that resistance to preharvest sprouting can be enhanced through genomicsassisted breeding in otherwise nondormant rice and wheat cultivars, while pimt, another valuable marker for seed longevity, may be deployed to enhance seed vigor in crops.

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High‐Throughput Precision Phenotyping of the Oil Content of Single Seeds of Various Oilseed Crops

Cited by 22 publications

References 37 publications

Advancing the science of wheat quality evaluation using nuclear magnetic resonance (NMR) and ultrasound‐based techniques

Advancing the science of wheat quality evaluation using nuclear magnetic resonance (NMR) and ultrasound‐based techniques

Early diagnosis of ploidy status in doubled haploid production of maize by stomata length and flow cytometry measurements

First the seed: Genomic advances in seed science for improved crop productivity and food security

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