Search Results (95)

Interest in ancient wheat species is growing because of their unique agronomic and nutritional qualities, and they could be potential sources of antioxidants. The aim of this research was to determine the total, bound, and free phenolic content (TP, FP, BP), the bound and free phenolic acid (BPA, FPA) content, and the phenolic acid (PA) composition of einkorn and emmer cultivars sourced from a two-year pesticide-free organic variety trial. TPs, FPs, and BPs were analyzed using spectrophotometry, and PAs were determined using HPLC/MS/MS. The results showed that highest mean TP, FP, and BP contents were found in an emmer cultivar, while generally, einkorn varieties had lower phytonutrient values than emmer and bread wheat control. Emmer had the highest TPA, FPA, and BPA contents, followed by control wheat and einkorn landraces. Our gap-filling research was the analysis of the individual PA values in all free and bound fractions. Ferulic acid was the predominant phenolic acid, followed by p-coumaric acid, syringic acid, sinapic acid, and p-hydroxybenzoic acid, whereas salicylic acid and caffeic acid had the lowest concentrations. In the future, we propose to continue this research to gain deeper insights into the changes in phytonutrient properties related to the growing conditions of these cultivars. Full article

Blumeria graminis f. sp. tritici (Bgt), the causal agent of wheat powdery mildew, poses a significant threat to global wheat production. In this study, we identified and characterized a broad-spectrum powdery mildew resistance gene, PmL709, in a resistant cultivated emmer wheat (Triticum dicoccum) accession: L709. Using bulked segregant RNA sequencing (BSR-Seq) analysis and molecular markers, PmL709 was mapped to a 1.7 cM interval on chromosome arm 2BS, flanked by markers Xdw05/YTU95-04/YTU95-06/YTU95-08/Xdw10/Xdw11 and YTU692B-094, corresponding to a 21.82–25.94 Mb physical interval (cv. Svevo), using the segregated population crossed by L709 and a susceptible durum wheat cultivar, Langdon. Referring to the origin, the resistance spectra, and the physical position with known resistance genes on chromosome arm 2BS, PmL709 was likely to be an allele of Pm68. Transcriptomic analysis revealed 3923 differentially expressed genes (DEGs) between resistant and susceptible bulks, enriched in pathways such as phenylpropanoid biosynthesis, MAPK signaling, and plant–pathogen interactions. qRT-PCR validated the differential expression of nine candidate genes within the PmL709 interval, highlighting their potential roles in disease resistance. The flanking markers could accurately trace the presence of PmL709 from resistant accession L709 in a survey of 46 susceptible wheat accessions. These findings provide valuable insights into the genetic and molecular mechanisms of powdery mildew resistance in wheat and offer practical tools for marker-assisted breeding to develop resistant cultivars. Full article

In this study, the mitigating effects of CaO NPs obtained from pomegranate extract via environmentally friendly green synthesis on CdCl₂ stress in two varieties (Yolboyu and Kirac) of Turkish Kavilca wheat (Triticum dicoccum Schrank) under in vitro callus culture conditions were investigated. The calluses developed from embryos of both wheat varieties were exposed to either CaO NPs alone (1 and 2 mg/L), CdCl₂ alone (1 or 10 mM) or the different combinations of these two compounds in MS medium for 4 weeks. Changes in the expressions of two genes (Traes_5BL_9A790E8CF and Traes_6BL_986D595B9) known to be involved in wheat’s response to CdCl₂ stress were analyzed by qRT-PCR. Additionally, certain physiological parameters, such as lipid peroxidation (LPO), H₂O₂, proline and soluble sugar content, and SEM-EDX analysis were used to assess the response of calluses to the applications. The CaO NPs treatments alone generally upregulated the expression of the 5BL and 6BL genes, while the CdCl₂ applications decreased their expression in both cultivars. The CaO NPs reduced the proline content in both cultivars compared to the control. Co-treatment with CdCl₂ and CaO NPs increased the sugar content and decreased the MDA content, but did not cause a significant change in the H₂O₂ content. SEM analysis showed that when CdCl₂ and CaO NPs were applied to calluses together, the membranous and mucilaginous spherical structures were regained. The application of CaO NPs reduces the amount of cellular damage caused by CdCl₂ stress and improves gene expressions. Full article

In response to the growing genetic uniformity within wheat populations, developing efficient wheat–alien translocation strategies has become critically important. We observed that several offspring of the common wheat (Triticum aestivum L.)–wild emmer (Triticum turgidum L. var. dicoccoides) chromosome arm substitution line (CASL4AL) exhibited stunted growth, including significantly reduced plant height, spike length, spikelet number, and stem width compared to normal plants. Integrative transcriptomic analyses (RNA-Seq and BSR-Seq) revealed a statistically significant depletion (p < 0.01) of single nucleotide polymorphisms (SNPs) on chromosome 4B in compromised plants. Chromosome association analysis of differentially expressed genes (DEGs, up- or downregulated) revealed that downregulated genes were predominantly located on chromosome 4B. The 1244 downregulated DEGs on Chr4B were employed for Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) analyses, and RNA metabolic processes, DNA repair, and transport systems were significantly enriched by GO analysis; however, only the mRNA surveillance pathway was enriched by KEGG enrichment. Molecular marker profiling showed a complete absence of target amplification in the critical 0–155 Mb region of chromosome 4B in all weak plants. Pearson’s correlation coefficients confirmed significant associations (p < 0.01) between 4B-specific amplification and weak phenotypes. These results demonstrate that 4B segmental deletions drive weak phenotypes in CASL4AL progeny, and provide experimental evidence for chromosome deletions induced in wild emmer chromosome substitution lines. This study highlights the potential of wild emmer as a valuable tool for generating chromosomal variations in wheat breeding programs. Full article

To effectively mine and utilize the valuable genes of wild emmer wheat (Triticum dicoccoides, 2n = 4x = 28, AABB), this study conducted an investigation of agronomic traits using two sets of chromosome arm substitution lines (CASLs) of wild emmer wheat in the backgrounds of the common wheat varieties Bethlehem (BLH) and Chinese Spring (CS). The results indicated significant differences in growth parameters, including seedling agronomic traits, heading date (HD), and yield traits among the various CASLs in both the BLH and CS backgrounds. In both genetic backgrounds, the number of tillers in CASL7BS was significantly fewer than that of the parents. Additionally, the average leaf width of six CASLs (2BS, 1AL, 7AL, 5BS, 4AS, and 2BL) was significantly narrower compared to the parents. Among CASLs in the CS background, CASL2BS exhibited a significantly narrower average leaf width and shorter average plant height compared to both the parents and early-maturing CASLs. Conversely, CASL4AL exhibited significantly more tillers and a shorter average plant height than the other CASLs. In the BLH background, the spike phenotypes of all CASLs showed no significant differences from BLH. However, in the CS background, CASL6AS and CASL5AL demonstrated significantly longer spike lengths than CS. Moreover, CASL6BL had more spikelets per spike than CS. CASLs 4AS, 4AL, 6BS, and 6BL exhibited basal short awns and apical long awns, whereas the remaining CASLs displayed no awns, a pattern consistent with CS. We hypothesize that genes governing physiological traits such as seedling tiller number, leaf width, plant height, and spike traits are likely located on the corresponding chromosome arms. Full article

This study investigates the benefits of sourdough fermentation using ancient whole-wheat flours in the development of cookies, leveraging innovative rapid sensory evaluation methods to highlight their unique sensory attributes and potential health advantages. The spontaneous fermentation of wholegrain wheat, spelt, Khorasan, and emmer flour–water mixtures was monitored, focusing on odor development. Temporal Dominance of Sensations (TDS) was employed to track how sourdough odor unfolds over time while Check-All-That-Apply (CATA) and Hedonic tests were applied to capture the sensory characteristics of sourdough starter samples and consumer overall liking in order to identify sourdough with the most appealing odor for cookie preparation. Based on the result, spelt and Khorasan lyophilized sourdough were used for cookie preparation. Further, Rate-All-That-Apply (RATA) was applied to investigate the sensory profiles of the developed cookies and panelists’ hedonic perceptions and attitudes toward them. The resulting sourdough cookies exhibited higher fiber and comparable protein and fat content, lower energy value with sensory properties comparable to those of commercial samples. This research not only presents a comprehensive selection of sensory methodologies ideal for product development but also offers valuable insights into the sensory profile of sourdough-containing cookies, paving the way for enhanced formulation and strategic commercialization. Full article

Wild emmer wheat (Triticum turgidum ssp. dicoccoides) is the ancestral species of cultivated tetraploid wheat with BBAA genomes. Because of its full interfertility with domesticated emmer wheat, this wild species can serve as one of the most important genetic resources to improve durum and bread wheat. To clarify the magnitude of genetic diversity between and within populations of Turkish wild emmer wheat, 169 genotypes of ssp. dicoccoides selected from the 38 populations collected from the three sub-regions (East-1, West-1, and West-2) of the Southeast Anatolia Region of Turkey were molecularly and morphologically characterized. The populations showed significant variation in plant height, heading date, flag leaf area, spike length and number, spikelet, peduncle, lemma, palea, glume and anther lengths, glume hull thickness, anther width, and days to maturity. According to the results of nuclear-SSR analysis, the populations collected from the sub-regions East-1 and West-2 were the most genetically distant (0.539), while the populations collected from the sub-regions West-1 and West-2 were the most genetically similar (0.788) populations. According to the results of AMOVA, there was 84% similarity within the populations studied, while the variation between the populations of the three sub-regions was 16%. In the dendrogram obtained by using nuclear-SSR data, the populations formed two main groups. The populations from the sub-region East-1 were in the first group, and the populations from the sub-regions West-1 and West-2 were in the second group. From the dendrogram, it appears that the populations from the sub-region East-1 were genetically distant from the populations from the sub-regions West-1 and West-2. The results highlight the potential diversity in Southeast Anatolia for wild emmer discovery and utilization. Full article

Wild emmer is one of the progenitors of wheat, with a high genetic potential for breeding. Continuous evaluations of emmer and other progenitor species are necessary for long-term improvement in yield, agronomic, and stress-related traits. For this purpose, genetic diversity and relationships among 43 wild emmer (Triticum dicoccoides) and 5 durum wheat (Triticum durum) accessions were determined using two DNA marker systems, CAAT box-derived polymorphism (CBDP) and start codon targeted (SCoT) markers. CAAT and SCoT markers generated 63 and 76 polymorphic bands, averaging 9 and 7.6 bands per primer, respectively. The discriminating power, effective multiplex ratio, expected heterozygosity, mean heterozygosity, marker index, polymorphism information content, and resolving power parameters obtained for both marker systems showed the high efficiency of these markers in detecting genetic variation in wild emmer and durum wheat. The results showed that CAAT and SCoT markers with average polymorphism are suitable marker systems for detecting genetic variation between a pool of accessions or populations. These markers would be employed for gene-targeted breeding, and the results indicate that genetic analysis with these markers would be practicable for agricultural improvement and development initiatives. Full article

Powdery mildew, caused by Blumeria graminis f. sp. tritici (Bgt), is a disease that seriously harms wheat production and occurs in all wheat-producing areas around the world. Exploring Pm gene(s) and developing resistant cultivars are preferred to control the disease. Wild emmer wheat (Triticum dicoccoides, 2n = 4x = 28, AABB) has accumulated abundant gene resources for resistance to powdery mildew during the long process of natural evolution. In the current study, the WEW accession D430 was highly resistant to powdery mildew at the whole-growth stage. Genetic analysis showed that the powdery mildew resistance in D430 was conferred by a single dominant locus or gene by the cross of D430 and susceptible durum wheat 647, tentatively named PmD430. Combining BSR-Seq analysis, molecular mapping, and sequence alignment, PmD430 was finally mapped to Pm4 locus, and the sequence was identical to Pm4b. Subsequently, 1871 DEGs between resistant and susceptible bulks were annotated and analyzed by Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway enrichment. Eight disease-related genes were evaluated by qRT-PCR and exhibited a unique expression pattern when invaded by Bgt isolate E09 and was, therefore, presented as latent targets for regulating powdery mildew resistance in D430. Full article

Sustainable nutrition and food production involve dietary habits and farming systems which are eco-friendly, created to provide highly nutritious staple crops which could serve as a functional food at the same time. This research sought to provide a comprehensive analysis of whole-grain cereals, and some ancient grains toward important macro- (protein), micro-nutrients (mineral elements), and bioactive compounds, such as dietary fiber (arabinoxylan and β-glucan) and antioxidants (phytic acid, total glutathione, yellow pigment, and phenolic compounds) to provide functionality in a sustainable diet. Genotypes, such as durum wheat, triticale, spelt, emmer wheat, and barley, could be considered important and sustainable sources of protein (ranging 11.10–15.00%), as well as prebiotic fiber (β-glucan and arabinoxylan, ranging 0.11–4.59% and 0.51–6.47%, respectively), essential elements, and various antioxidants. Ancient grains can be considered as a source of highly available essential elements. Special attention should be given to the Cimmyt spelt 1, which is high in yellow pigment (5.01 μg·g⁻¹) and has a capacity to reduce DPPH radicals (186.2 µmol TE·g⁻¹), particularly Zn (70.25 mg·kg⁻¹). The presence of phenolics, dihydro-p-coumaric acid, naringin, quercetin, epicatechin in grains of oats (Sopot), as well as catechin in barley grains (Apolon and Osvit) underline their unique chemical profile, making them a desirable genetic pool for breeding genotypes. This research provides a comprehensive assessment of different nutritional aspects of various cereals (some of which are commonly used, while the others are rarely used in diet), indicating their importance as nutraceuticals. It also provides a genetic background that could be translated the genotypes with even more profound effects on human health. Full article

This study explored the potential of two forms of sourdough—native and lyophilised—obtained through the spontaneous fermentation of whole grain flours from ancient wheat varieties, for cookie production. The research involved evaluated the dough’s rheological properties through creep and recovery measurements and Mixolab analysis, assessing proximate composition, physical attributes, texture, colour, and sensory characteristics using the Rate-all-that-apply (RATA) method. The rheological analysis revealed that native sourdough significantly impacted dough behaviour, making it more challenging to process. Although differences were observed in the proximate composition, colour, and texture, these factors did not influence the samples as much as the rheological parameters. Sensory evaluation identified Khorasan lyophilised sourdough, along with its control sample, as the most promising, while modern wheat, spelt, and emmer exhibited potentially undesirable attributes. Based on these findings, it was concluded that lyophilised Khorasan sourdough was very favourable for cookie production and should be considered for further in-depth research and development. This suggests that the lyophilised forms of ancient wheats could offer valuable alternatives for cookie formulation, with implications for both the processing and sensory attributes of the final product. Full article

The transformation protocol based on the dual selection approach (fluorescent protein and herbicide resistance) has been applied here to produce transgenic plants of two cereal species, emmer wheat and bread wheat, with the goal of activating the synthesis of the stress hormone jasmonates by overexpressing ALLENE OXIDE SYNTHASE from Arabidopsis thaliana (AtAOS) and bread wheat (TaAOS) and OXOPHYTODIENOATE REDUCTASE 3 from A. thaliana (AtOPR3) under the strong constitutive promoter (ZmUbi1), either individually or both genes simultaneously. The delivery of the expression cassette encoding AOS was found to affect morphogenesis in both wheat species negatively. The effect of transgene expression on the accumulation of individual jasmonates in hexaploid and tetraploid wheat was observed. Among the introduced genes, overexpression of TaAOS was the most successful in increasing stress-inducible phytohormone levels in transgenic plants, resulting in higher accumulations of JA and JA-Ile in emmer wheat and 12-OPDA in bread wheat. In general, overexpression of AOS, alone or together with AtOPR3, negatively affected leaf lamina length and grain numbers per spike in both wheat species. Double (AtAOS + AtOPR3) transgenic wheat plants were characterized by significantly reduced plant height and seed numbers, especially in emmer wheat, where several primary plants failed to produce seeds. Full article

Spelt Triticum aestivum L. subsp. spelta (cv. Wirtas), einkorn Triticum monococcum L. (cv. Samopsza) and emmer Triticum dicoccum Schrank (Schuebl) (cv. Płaskurka biała and Płaskurka ciemna) spring wheat cultivars were analyzed and compared to common wheat Triticum aestivum L. subsp. aestivum (cv. Harenda, Kandela, Mandaryna, Serenada, Goplana, Kamelia, Nimfa, Rusałka, Struna, Zadra) cultivated in an organic production system. Moreover, the performance of four common wheat cultivars (cv. Harenda, Kandela, Mandaryna, Serenada) grown in organic, conventional and integrated production systems were compared. The UHPLC-DAD-MS and TLC-DPPH^• analyses of specific substances (phenolic acids and alkylresorcinols) were evaluated to ascertain the potential of spring wheat cultivars for promoting human health and suitability for cultivation in an organic production system. The highest yield was observed for the T. aestivum L. subsp. aestivum (modern hull-less) cv. Nimfa (4.45 t/ha), which also demonstrated the lowest resistance to Fusarium spp. infection. Among the contemporary hull-less cultivars, cv. Mandaryna and cv. Harenda exhibited the highest resistance to this pathogen (2.4% and 3.7% of grains infected by Fusarium, respectively), while simultaneously displaying the highest organic phenolic acid content (900.92 and 984.55 µg/g of the grain) and the highest antioxidant potential. It is noteworthy that the cereal hulls of T. monococcum L. (old hulled) (cv. Samopsza) exhibited a markedly elevated content of phenolic acids (approximately 4000 µg/g of the grain). This may have contributed to the reduced incidence of Fusarium infection (9.3% of grains infected) observed in the grains of this cultivar. Furthermore, the hulls proved to be a rich source of phenolics with high antioxidant activity, which is beneficial for human and animal health. Full article

Great attention has recently been dedicated to the use of non-Saccharomyces yeast strains for the development of new beer formulations. However, the effect of the Saccharomyces strain used in the refermentation of this type of beer has never been investigated. The research described aimed to optimize the quality of beers fermented by an oenological Schizosaccharomyces pombe strain alternately combined with two S. cerevisiae strains (WB06, commercial; 9502, of an oenological origin). The influence of both in-bottle refermentation (alternately carried out by one of the two Saccharomyces cerevisiae strains used in the sequential first fermentation) and starchy ingredients (three mixtures of 65% of malted barley alternately combined with 35% of unmalted common, durum, or emmer wheat) was studied. The beer formulation was optimized through a two-factor mixed three- and two-level design, where the two factors were the starchy ingredients and the refermenting S. cerevisiae. Beers from durum wheat beers refermented by WB06 had the highest alcohol contents. Common wheat beers refermented by 9502 showed the highest antioxidant activity values. The highest overall sensory score was assigned to the beers refermented by 9502. The fitted quadratic model had a good predictive ability for five physicochemical and fourteen sensory characteristics, with an R² often higher than 0.9. Full article

Over the years, alien chromosome substitution has attracted the attention of geneticists and breeders as a rich source of remarkable genetic diversity for improvement in narrowly adapted wheat cultivars. One of the problems encountered along this way is the coadaptation and realization of the genome of common wheat against the background of the introduced genes. Here, using RNA-Seq, we assessed a transcriptome response of hexaploid wheat Triticum aestivum L. (cultivar Chinese Spring) to a 5B chromosome substitution with its homolog from wild emmer (tetraploid wheat T. dicoccoides Koern) and discuss how complete the physiological compensation for this alien chromatin introgression is. The main signature of the transcriptome in the substituted line was a sharp significant drop of activity before the beginning of the photoperiod with a gradual increase up to overexpression in the middle of the night. The differential expression altered almost all biological processes and pathways tested. Because in most cases, the differential expression or its fold change were modest, and this was only a small proportion of the expressed transcriptome, the physiological compensation of the 5B chromosome substitution in common wheat seemed overall satisfactory, albeit not completely. No over- or under-representation of differential gene expression was found in specific chromosomes, implying that local structural changes in the genome can trigger a global transcriptome response. Full article