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2. Effect of cooking duration on carotenoid content, digestion and potential absorption efficiencies among refined semolina and whole wheat pasta products

Author

Hannah Oduro-Obeng, Franklin B. Apea-Bah, Kun Wang, Bin Xiao Fu, and Trust Beta

Subjects
Zeaxanthins, Flour, Lutein, Digestion, Cooking, General Medicine, Edible Grain, Carotenoids, Antioxidants, Triticum, Food Science
Abstract

The bioaccessibility of carotenoids varies among different foods due to factors such as food matrix composition and type or extent of processing. Hence it is important to understand the extent to which these factors influence carotenoid bioaccessibility after the consumption and digestion of food. This study evaluated the carotenoid content, micellization efficiency, digestive stability, antioxidant activity and bioaccessibility of carotenoids as impacted by wheat cultivar and cooking duration among whole wheat flour (WWF) and refined semolina (RS) pasta. WWF and RS pasta were processed from three durum wheat cultivars (AAC Spitfire, CDC Precision, and Transcend) and cooked to al dente (Al), fully cooked (FCT) or overcooked (OC). The study showed that the wheat cultivar and cooking duration were significant functions of bioaccessible lutein in RS samples while only the cultivar influenced the bioaccessibility of zeaxanthin and lutein in WWF samples. In both WWF and RS, the effect of the cultivar on the bioaccessibility of lutein and zeaxanthin was similar and was as follows: TranscendCDC PrecisionAAC Spitfire. Cooking to Al significantly caused an increment in bioaccessible lutein in RS samples regardless of the wheat cultivar. This influence of cooking duration (AlFCTOC) was inversely related to the lutein concentrations in undigested pasta (OC = FCTAl). DPPH scavenging activity among WWF samples was about 2-fold greater or more than that of RS samples regardless of the cultivar or cooking duration before and after digestion. Our data suggest that the effect of wheat cultivar and cooking duration modulates the bioaccessibility and antioxidant activity of RS and WWF pasta products.

Published
2022
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6. Effect of Kernel Size and Its Potential Interaction with Genotype on Key Quality Traits of Durum Wheat

Author

Kun Wang, Dale Taylor, Yuming Chen, Jerry Suchy, and Bin Xiao Fu

Subjects
kernel size, Health (social science), genetic structures, Chemical technology, genotype, food and beverages, durum wheat, Plant Science, TP1-1185, Health Professions (miscellaneous), Microbiology, milling quality, semolina quality, pasta color, Article, Food Science
Abstract

This study was conducted to evaluate the influence of kernel size and its potential interaction with genotype on durum wheat quality with emphases on kernel physical characteristics, milling performance, and color-related quality parameters. Wheat samples of seven genotypes, selected from the 2018 Canadian durum variety registration trial, were segregated into large (LK), medium (MK), and small-sized kernels (SK). In general, the kernel size greatly affected the durum wheat milling performance. Within a given size fraction, a strong impact of genotype was shown on the test weight of SK and the milling yields of MK and LK. Particularly, the MK fraction, segregated from the genotypes with superior milling quality, had a higher semolina yield than LK from the genotypes of inferior milling quality, inferring the importance of intrinsic physicochemical properties of durum kernels in affecting milling quality. SK exhibited inferior milling quality regardless of the genotypes selected. A strong impact of genotype was shown for the total yellow pigment (TYP) content and yellowness of semolina, while the kernel size had a significant impact on the brightness and redness of the semolina and pasta. Despite SK possessing much higher TYP, the semolina and pasta prepared from SK were lower in brightness and yellowness but with elevated redness.

Published
2021

8. Wheat Fusarium Protease Specificity and Effect on Dough Properties

Author

Bin Xiao Fu, Ray Bacala, Katherine Cordova, and Dave W. Hatcher

Subjects
0106 biological sciences, Fusarium, Health (social science), Starch, medicine.medical_treatment, Lysine, dough properties, TP1-1185, Plant Science, Biology, medicine.disease_cause, 01 natural sciences, Health Professions (miscellaneous), Microbiology, chemistry.chemical_compound, 0404 agricultural biotechnology, wheat, medicine, Food science, chemistry.chemical_classification, Protease, Toxin, Chemical technology, food and beverages, protease, 04 agricultural and veterinary sciences, biology.organism_classification, 040401 food science, Gluten, chemistry, Isoleucine, Digestion, 010606 plant biology & botany, Food Science
Abstract

Fusarium infection is a worldwide agricultural problem of billion dollar proportions globally, and it has increasingly threatened entire regional food supplies. In addition to the toxin deoxynivalenol (DON), Fusarium species express digestive enzymes that degrade starch and protein, affecting the quality of infected grains, especially wheat processing performance which depends largely on gluten proteins. In this study, the impact of Fusarium protease on the functionality of Canada Western Red Spring (CWRS) wheat was assessed by adding Fusarium-damaged kernels (FDK) to a FDK-free base wheat sample. Digestion of beta-casein by extracts of flours, milled from sound and FDK-spiked wheat samples, demonstrated elevated cleavage in FDK-spiked flour extracts as follows: N-terminal to lysine (eight-fold), N- and C-terminal to isoleucine (four-fold and three-fold, respectively), N-terminal to tyrosine (three-fold) and C-terminal to arginine at P1′ (five-fold). Comparison of abbreviated (45 min) and standard (135 min) extensigraph test results indicated that desirable increases in dough resistance to extension (Rmax) due to gluten re-polymerization after longer resting were partially to completely counteracted in FDK-spiked flours in a dose-dependent manner. Baking tests confirmed that while loaf volume is similar, proofed dough from FDK-spiked samples caused detectable loaf collapse at 3% FDK. Extensigraph Rmax and Fusarium protease levels were inversely related, and effected by both the extent and severity of infection. While the current FDK tolerances for grading Canadian wheat can effectively control protease damage, prevalence of deoxynivalenol (DON) weak- and non-producing Fusarium strains/species (e.g., F. avenaceum) in some growing regions must be considered to protect functionality if grading is solely based on DON content.

Published
2021
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9. Impact of Quality Improvement and Milling Innovations on Durum Wheat and End Products

Author

Ashok Sarkar and Bin Xiao Fu

Subjects
Health (social science), Plant Science, Health Professions (miscellaneous), Microbiology, Food Science
Abstract

There are long-standing established intrinsic quality requirements of end products made from durum wheat semolina, with color, textural, and cooking properties of pasta and couscous representing persistent key attributes for consumers. Over time, traditional efforts to advance development in these areas with respect to raw material, equipment, and process improvements have been influenced by growing awareness of issues around food safety, health and nutrition, and climate change, necessitating that development strategies incorporate specific considerations relating to safety, traceability, and sustainability. We examined improvements in durum wheat quality and innovations in milling and the resulting impact on product quality in light of these considerations, which are now fundamental to the planning and development of any food process, as required by consumers and regulators alike.

Published
2022
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11. Influence of cooking duration on carotenoids, physical properties and in vitro antioxidant capacity of pasta prepared from three Canadian durum wheat cultivars

Author

Hannah Oduro-Obeng, Trust Beta, and Bin Xiao Fu

Subjects
chemistry.chemical_classification, Lutein, Canada, Chemistry, Flour, food and beverages, General Medicine, Whole wheat, Carotenoids, Antioxidants, Analytical Chemistry, Zeaxanthin, Antioxidant capacity, chemistry.chemical_compound, Cultivar, Food science, Cooking, Carotenoid, Triticum, Food Science
Abstract

This study investigates the impact of different pasta cooking durations (al dente, fully cooked or overcooked) on the carotenoid content and physical properties of whole wheat and refined semolina pasta prepared from three Canadian durum wheat cultivars. Carotenoids were analyzed using HPLC and spectrophotometry. Generally increasing cooking duration non-significantly increased lutein, zeaxanthin, total carotenoids, significantly increased the cis carotenoids but decreased carotenoid retention and firmness regardless of flour type or wheat cultivar. Despite this decrease, whole wheat pasta was significantly firmer than semolina when overcooked regardless of wheat cultivar. Antioxidant capacity was highly influenced by flour type but did not show a clear trend with cooking duration. Overall analysis indicates that increasing cooking duration of whole wheat or semolina pasta above 7 or 8 mins respectively allows for the maximum extraction of carotenoids with possible accessibility by digestive enzymes when consumed but this affects cooking quality including high cooking loss.

Published
2020

12. Inter-Relationships between Test Weight, Thousand Kernel Weight, Kernel Size Distribution and Their Effects on Durum Wheat Milling, Semolina Composition and Pasta Processing Quality

Author

Bin Xiao Fu and Kun Wang

Subjects
0106 biological sciences, kernel size, Health (social science), kernel weight, Plant Science, lcsh:Chemical technology, 01 natural sciences, Health Professions (miscellaneous), Microbiology, Article, semolina, 0404 agricultural biotechnology, Animal science, pasta texture, lcsh:TP1-1185, milling quality, Kernel size, Mathematics, durum wheat, 04 agricultural and veterinary sciences, 040401 food science, Test weight, test weight, pasta color, Pasta processing, 010606 plant biology & botany, Food Science
Abstract

Although most of the durum wheat produced in the Canadian prairies in 2017 and 2018 met the test weight (TW) requirements for the top grades of Canada Western Amber Durum (CWAD), some samples of top grades were inferior in milling quality. To understand the abnormality, this study was conducted to investigate TW, thousand kernel weight (TKW) and kernel size distribution (KSD) in relation to durum milling potential, semolina composition and pasta quality. With reduction of kernel size, semolina and total milling yields decreased progressively, and kernels passing through no.6 slotted sieve had detrimental impact on milling. The overall relationship between TW and milling yields appeared to be genotype dependent. At similar TW, variety showed lower milling yields had greater proportion of smaller kernels. By account for the difference in KSD, greater relationships (R2 &gt, 0.91, p &lt, 0.001) were found for TKW and proportion of kernels passing No.6 slotted sieve with milling yields than TW (R2 = 0.75, p &lt, 0.001). This infers potential use of small kernels (passing No.6 slotted sieve) as a new objective grading factor for rapid prediction of milling quality of CWAD. Although small kernels exhibited much higher yellow pigment than the larger ones, pasta made from small kernels was duller, redder and less yellow, likely due to the higher semolina ash and protein contents, which adversely affected pasta color.

Published
2020

13. Gluten Aggregation Behavior in High-Shear-Based GlutoPeak Test: Impact of Flour Water Absorption and Strength

Author

Brigitte Dupuis, Bin Xiao Fu, and Kun Wang

Subjects
Peak area, Absorption (pharmacology), chemistry.chemical_classification, Farinograph, Absorption of water, Chemistry, Organic Chemistry, Wheat flour, 04 agricultural and veterinary sciences, 040401 food science, Gluten, Shear (sheet metal), 0404 agricultural biotechnology, Polymer chemistry, Food science, Maximum torque, Food Science
Abstract

Gluten aggregation behaviors of wheat flour were evaluated using a high-shear-based method with the GlutoPeak instrument and related to flour functional properties. GlutoPeak peak time (PT) and peak area (PA) were positively associated with gluten strength but negatively affected by farinograph absorption (FAB). GlutoPeak maximum torque (Tmax) was highly positively (P < 0.001) correlated with FAB regardless of gluten strength. PT and PA increased with the decrease of FAB. This could result in overestimation of gluten strength owing to water absorption. To account for the impact of FAB, a new parameter GlutoPeak strength index (GSI) was introduced for predicting gluten strength. GSI was obtained by multiplying Tmax and PA. This arithmetic product was found to provide greater correlation (r = 0.91) with dough strength than those of PA (r = 0.84) or PT (r = 0.57) based on the analysis of 56 advanced breeding lines with wide range of FAB. Moreover, significant relationships were found between GSI and flour mi...

Published
2017
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14. A rapid extensigraph protocol for measuring dough viscoelasticity and mixing requirement

Author

Brigitte Dupuis, Richard D. Cuthbert, Kun Wang, and Bin Xiao Fu

Subjects
0106 biological sciences, Farinograph, Absorption of water, Materials science, Mixing (process engineering), 04 agricultural and veterinary sciences, 040401 food science, 01 natural sciences, Biochemistry, Extensibility, Viscoelasticity, Fast evaluation, 0404 agricultural biotechnology, Food science, Composite material, Absorption (electromagnetic radiation), 010606 plant biology & botany, Food Science
Abstract

The extensigraph is particularly useful in characterizing dough viscoelastic properties; however, testing throughput for standard method is low due to the prerequisite for farinograph water absorption, long dough resting and milling to prepare large amounts of flour. Therefore, a rapid extensigraph method was developed that reduced sample size (165 g wheat) for milling and more than tripled throughput. Wheat is milled in Quadrumat Junior mill with a modified sieving system. The resulting flour (100 g) was mixed with a pin mixer at constant water absorption to allow the evaluation of wheat genotypes at the absorption level they are expected to perform. Dough was subsequently stretched by an extensigraph after 15 min of floor time and 30 min resting. Strong correlations for extensigram R max ( r > 0.93), extensibility ( r > 0.64) and area ( r > 0.88) were found for the proposed method compared to the standard method. Mixing parameters (time and energy) obtained during dough preparation provided further information about dough strength and mixing requirement. By significantly reducing sample size requirement and increasing testing throughput, this rapid extensigraph method can be widely adopted in milling and baking industry and meets the need for a fast evaluation of dough strength in breeding trials.

Published
2017
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15. Alternate Dough Preparation Protocol for Extensigraph Test of Dough Strength

Author

Bin Xiao Fu, Brigitte Dupuis, Jerry Suchy, and Jun Sakamoto

Subjects
0301 basic medicine, Farinograph, 030109 nutrition & dietetics, Absorption of water, Chemistry, Organic Chemistry, 04 agricultural and veterinary sciences, Molding (process), 040401 food science, Large sample, Fully developed, 03 medical and health sciences, 0404 agricultural biotechnology, Food science, Food Science
Abstract

The extensigraph is an internationally accepted method for measurement of physical properties of dough subjected to mechanical handling and resting. Standard extensigraph methods (AACC International Approved Method 54-10.01, ISO 5530-2) use the farinograph for the preparation of dough in the presence of 2% salt at reduced water absorption (farinograph absorption minus 2–3%). However, the dough so prepared is usually underdeveloped and drier than typically seen in common baking processes. In addition, the standard extensigraph test is time consuming and requires a large sample size. In this study, an alternate dough preparation protocol is proposed, consisting of a Swanson-type pin mixer at reduced salt (1%) and elevated water absorption (farinograph absorption plus 4%). With the alternate method, dough is fully developed and similar to bread dough in physical properties. AACCI Approved Method 54-10.01 is followed for dough rounding, molding, resting, and stretching by using the Brabender Extensograph-E in...

Published
2017
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16. A new lean no time test baking method with improved discriminating power

Author

Brigitte Dupuis and Bin Xiao Fu

Subjects
0301 basic medicine, 0106 biological sciences, Farinograph, chemistry.chemical_classification, 030109 nutrition & dietetics, business.industry, fungi, food and beverages, 04 agricultural and veterinary sciences, 040401 food science, 01 natural sciences, Biochemistry, Method development, Gluten, Test (assessment), Power (physics), 03 medical and health sciences, 0404 agricultural biotechnology, chemistry, Process engineering, business, 010606 plant biology & botany, Food Science, Mathematics
Abstract

In response to customer concerns related to gluten strength in commercial baking, the Canadian Grain Commission assessed whether the Canadian Short Process (CSP) test bake method was generating useful data related to intrinsic strength of wheat varieties. Assessment of CSP loaf volume data for Canadian variety trials spanning 2003 to 2013 showed very little correlation with dough strength parameters as measured by farinograph and extensigraph. A lean no time (LNT) test baking method was developed that can better discriminate genotypes and provide objective indicators of the effect of intrinsic dough strength on baking quality. From early method development, through method validation and verification using diverse sets of samples targeting different Canadian wheat classes and grown in three different crop years, results showed the LNT method to be more discriminating and easily adopted by other laboratories. In 2015, the LNT method was adopted as the method of choice in future Canadian variety registration trials. The LNT method is fast, simple and well-suited to high throughput test baking conditions encountered in the evaluation of large numbers of breeder lines. A new objective parameter, loaf top ratio, was also introduced and found to correlate well with dough strength and dough handling properties.

Published
2017
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17. High Throughput Testing of Key Wheat Quality Traits in Hard Red Spring Wheat Breeding Programs

Author

Kun Wang, Brigitte Dupuis, Richard D. Cuthbert, and Bin Xiao Fu

Subjects
chemistry.chemical_classification, Absorption of water, Breeding program, Early generation, chemistry, Wheat flour, Standard protocol, Food science, Throughput (business), Gluten, Mathematics
Abstract

Effective and efficient selection of key quality traits in early generations of a wheat breeding program is crucial when developing new wheat varieties with improved end-use quality. Here we propose and evaluate a screening protocol based on limited amounts of grain samples for early generation testing of wheat flour yield, flour water absorption and gluten strength. A modified protocol using the Quadrumat Junior (QJ) mill was developed to predict flour yield and compared to the standard protocol using the Buhler laboratory mill. The resulting flour samples (8 g) were tested with the GlutoPeak, a shear-based measuring device, to predict flour water absorption. Gluten strength was also assessed with the GlutoPeak and a rapid extensigraph method. Significant correlation (r = 0.90, p 0.91, p < 0.001) were found for GlutoPeak strength index and the maximum resistance to extension (Rmax) of the modified extensigraph method. Rmax that is conventionally used to evaluate lines in registration trials for dough properties in Canada. The mixing parameters obtained during dough preparation for the rapid extensigraph method provided additional information about dough strength and mixing requirements. With a four-fold increase in throughput, the proposed combination using QJ mill, GlutoPeak and rapid extensigraph methods requires as little as 200 g of wheat to predict milling performance, flour water absorption and gluten properties. This protocol can be widely adopted for screening key quality traits in wheat breeding programs.

Published
2020
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18. Fate of Ergot Alkaloids during Laboratory Scale Durum Processing and Pasta Production

Author

Bin Xiao Fu, Sheryl A. Tittlemier, Dainna Drul, Dave Turnock, Dale Taylor, and Mike Roscoe

Subjects
0106 biological sciences, Ergot Alkaloids, Food Handling, Health, Toxicology and Mutagenesis, bran, Ergocristine, lcsh:Medicine, Food Contamination, Laboratory scale, Toxicology, 01 natural sciences, complex mixtures, Article, Whole grains, mycotoxin, chemistry.chemical_compound, semolina, Ergot alkaloid, heterocyclic compounds, Food science, Mycotoxin, Triticum, cooking, Bran, Dietary exposure, 010401 analytical chemistry, digestive, oral, and skin physiology, lcsh:R, technology, industry, and agriculture, food and beverages, 0104 chemical sciences, dietary exposure, chemistry, milling, Edible Grain, Laboratories, 010606 plant biology & botany
Abstract

The fate of ergot alkaloids during the milling of durum and subsequent production and cooking of pasta was examined. Durum samples containing varying amounts of ergot sclerotia (0.01&ndash, 0.1% by mass) were milled, and all milling product was analyzed for 10 ergot alkaloids using liquid chromatography with tandem mass spectrometry. Spaghetti was prepared from the semolina obtained during milling. Ergocristine, ergocristinine, and ergotamine were the predominant ergot alkaloids observed in the milling fractions and spaghetti. Approximately 84% of the total ergot alkaloid mass of the whole grain durum resided in the milling product fractions associated with the outer kernel layers (bran, shorts, feeds). No consistent loss of ergot alkaloids was observed during the production or cooking of spaghetti. However, changes in the ratio of R- to S-enantiomers occurred during the milling and cooking of spaghetti. Products containing bran, shorts, and feeds, as well as cooked spaghetti, contained a higher proportion of the less biologically active S-enantiomers. The results of this study emphasize the need to monitor R- and S-enantiomers, and to consider food and feed products, as opposed to whole grain, when assessing any exposure of consumers to ergot alkaloids.

Published
2019
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19. Changes in Protein Non-Covalent Bonds and Aggregate Size during Dough Formation

Author

Bin Xiao Fu, Katsuyuki Hayakawa, Shiro Aono, Sonoo Iwaki, and Chikako Otobe

Subjects
non-covalent bond, Health (social science), Low protein, 030309 nutrition & dietetics, Plant Science, Protein aggregation, lcsh:Chemical technology, Health Professions (miscellaneous), Microbiology, Article, 03 medical and health sciences, chemistry.chemical_compound, 0404 agricultural biotechnology, wheat, mixing, Non-covalent interactions, lcsh:TP1-1185, chemistry.chemical_classification, dough, 0303 health sciences, Aggregate (composite), flour, High protein, fungi, aggregation, nutritional and metabolic diseases, food and beverages, 04 agricultural and veterinary sciences, Gluten Proteins, 040401 food science, Gluten, Monomer, chemistry, Biophysics, Food Science
Abstract

This research investigated changes in the amounts and sizes of monomeric proteins and protein aggregates during dough mixing, with a focus on the contribution of non-covalent bonds in the aggregation of gluten proteins. High protein flour (HF) and low protein flour (LF) were used in this study. As dough mixing progressed from flour to overmixed dough, the total amount of protein aggregates increased while the amount of monomeric protein decreased. Omega-gliadin was the major monomeric protein that decreased in quantity. Interestingly, the amount of larger-sized protein aggregates decreased and that of smaller-sized protein aggregates increased. The amount of gluten protein macro-polymer aggregated through strong non-covalent bonds decreased whereas aggregates formed with weaker non-covalent bonds increased. LF dough behaved similar to HF dough. Large-sized gluten protein aggregates disaggregated due to the weakening of non-covalent bonds and became smaller. Omega-gliadin was incorporated into gluten protein aggregates during dough mixing.

Published
2020
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20. C-terminal tyrosine removal from wheat low-molecular weight glutenin subunits (LMW-GS); biologically relevant or mistaken substrate?

Author

Bin Xiao Fu, Ray Bacala, Dave W. Hatcher, and Hélène Perreault

Subjects
0106 biological sciences, chemistry.chemical_classification, biology, Protein subunit, food and beverages, Peptide, 04 agricultural and veterinary sciences, Cleavage (embryo), 040401 food science, 01 natural sciences, Biochemistry, Amino acid, 0404 agricultural biotechnology, Glutenin, chemistry, Transcription (biology), biology.protein, UniProt, Tyrosine, 010606 plant biology & botany, Food Science
Abstract

By applying a high-resolution LC-MS method, proteoform profiling of wheat glutenin proteins has revealed numerous protein pairs differing by an average mass of 163 ± 1 Da. The most abundant of 21 such pairs, 40 344 Da and 40 181 Da (coded P40344 and P40181, respectively), were purified and subjected to peptide mapping. P40344 matched the calculated mature protein mass for Uniprot B2Y2Q7, an s-type low-molecular weight glutenin subunit (LMW-GS). The P40344 and P40181 digests differed by a single digest peptide, unambiguously matched to the C-terminus of the protein and differing by the loss of a tyrosine. Of 327 unique mature wheat LMW-GS sequences from 369 UNIPROT accessions, tyrosine is at the C-terminus in all but one accession with evidence of transcription. The C-terminal LMW-GS sequences are also highly conserved, with only 10 variants of the last six amino acids. This is the first observation of cleavage of a C-terminal tyrosine other than alpha-tubulin, and the first evidence of this post-translational modification in plants. The identification of this novel post-translational modifications in gluten proteins may provide new insights on the differential modulation of biological processes involved in seed maturation and their effect on functional properties.

Published
2020
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21. Quantitative LC-MS proteoform profiling of intact wheat glutenin subunits

Author

Bin Xiao Fu, Dave W. Hatcher, Ray Bacala, and Hélène Perreault

Subjects
0106 biological sciences, chemistry.chemical_classification, biology, Chemistry, Protein subunit, Differential regulation, 04 agricultural and veterinary sciences, Replicate, Computational biology, Plant biology, 040401 food science, 01 natural sciences, Biochemistry, Gluten, 0404 agricultural biotechnology, Glutenin, Liquid chromatography–mass spectrometry, biology.protein, Control sample, 010606 plant biology & botany, Food Science
Abstract

Methodology for the quantitative analysis of intact glutenin proteins by ESI-LC-MS was developed with 1 Da mass resolution, constituting the first published application of proteoform profiling to plant biology. Two parent lines and 28 F5 crosses were analyzed in two blocks, 14 months apart. Control sample data were used to align retention times and normalize abundance between sample sets. A total of 4622 observations of 347 distinct proteoforms between 17 899 and 88 744 Da were observed. Proteoform abundances spanned a 1000-fold range and were linear (r2 > 0.990) with dilution. A novel method for the objective elimination of low intensity, noise-dominated data using replicate variability within the dataset is presented. Two abundant PTMs were detected; one known but uncharacterized Bx and Dy high-molecular-weight glutenin subunit (HMWGS) PTM and the other in 24 low molecular weight proteoform pairs. Finally, 16 abundant proteoforms were detected in progeny but not in either parent. This application should increase the statistical power of correlations between gluten complement and functional data and drive the detection of novel PTMs that may indicate differential regulation of the cellular processes related to quality.

Published
2020
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22. Changes in Semolina Yellow Pigment Content and Carotenoid Composition During Pasta Processing

Author

Constance Chiremba, Curtis J. Pozniak, and Bin Xiao Fu

Subjects
chemistry.chemical_classification, Lutein, Organic Chemistry, food and beverages, Gene deletion, Pigment, chemistry.chemical_compound, chemistry, visual_art, visual_art.visual_art_medium, Pasta processing, sense organs, Food science, Carotenoid composition, Carotenoid, Food Science
Abstract

Changes in total yellow pigment (TYP) content and carotenoid composition were examined at different stages of pasta processing. Semolina samples were milled from durum genotypes with and without the Lpx-B1.1 gene deletion and then processed into dry pasta. Significant pigment loss (12.8–15.3%) based on TYP content was observed from semolina to dough in genotypes without the gene deletion. Such loss remained low (2.0–2.8%) for genotypes with the Lpx-B1.1 gene deletion. Extrusion and drying processes did not result in substantial pigment loss. The overall pigment loss (from semolina to dried pasta) of genotypes with the gene deletion was 9.1–12.8%, in comparison with 19.0–21.7% in genotypes without the deletion. Changes in carotenoids examined by ultra-performance liquid chromatography showed that lutein decreased gradually from representing 80% of total carotenoids to 70% of total carotenoids during pasta processing. The reduction of lutein was mostly during dough mixing, with a decrease of 16.7% in genoty...

Published
2015
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23. Effects of Monoglycerides of Varying Fatty Acid Chain Length and Mixtures Thereof on Sponge-and-Dough Breadmaking Quality

Author

Bin Xiao Fu, N. M. Edwards, Brigitte Dupuis, and Kazuki Hattori

Subjects
Cell diameter, chemistry.chemical_classification, Chromatography, food.ingredient, Food additive, Organic Chemistry, food and beverages, Fatty acid, chemistry.chemical_compound, Chain length, food, Volume (thermodynamics), chemistry, Stearate, lipids (amino acids, peptides, and proteins), Food quality, Food Science
Abstract

Monoglycerides are widely used in the baking industry because of their antistaling effects, mainly suppressing crumb firming. Commercial monoglycerides are normally prepared from hydrogenated fats, with stearate being the most common fatty acid. In a previous study, monoglycerides such as monopalmitate (C16) and monostearate (C18) had positive effects on Canadian short process bread but no improvements on sponge-and-dough process (SDP) bread. The objective of this study was to investigate the effects of saturated monoglycerides of varying fatty acid chain length (C14–C22) on SDP breadmaking quality by using volume judgment, crumb image analysis, and texture measurements. Higher levels (1.00–1.50%) of all monoglycerides (C14, C16, and C18) significantly (P < 0.05) increased loaf volume and cell diameter. The larger cell diameter with increasing levels of these monoglycerides may have resulted from softer, more extensible dough handling properties and greater gas cell stability during baking. Addition of C1...

Published
2015
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24. Total Phenolic and Yellow Pigment Contents and Antioxidant Activities of Durum Wheat Milling Fractions

Author

Kun Wang, Constance Chiremba, Curtis J. Pozniak, Bin Xiao Fu, and Shin Nam

Subjects
0106 biological sciences, Antioxidant, carotenoid and phenolic content, Physiology, medicine.medical_treatment, Clinical Biochemistry, antioxidant activity, 01 natural sciences, Biochemistry, High-performance liquid chromatography, Article, chemistry.chemical_compound, Pigment, 0404 agricultural biotechnology, Botany, medicine, Food science, Molecular Biology, Carotenoid, chemistry.chemical_classification, ABTS, Bran, Butanol, digestive, oral, and skin physiology, milling fractions, lcsh:RM1-950, food and beverages, durum wheat, 04 agricultural and veterinary sciences, Cell Biology, 040401 food science, Solvent, lcsh:Therapeutics. Pharmacology, chemistry, visual_art, visual_art.visual_art_medium, 010606 plant biology & botany
Abstract

The aim of this study was to investigate the distribution of total yellow pigments, total phenolic compounds, and their antioxidant activities in various durum wheat milling fractions. Carotenoid composition of yellow pigment extract was also examined using UPLC. The ABTS radical scavenging activity of the milling fractions decreased in the order of short bran/bran > feed flour > flour/semolina in both total phenolic and total yellow pigment extracts. Yellow pigments extracts from bran, short bran, and feed flour exhibited 5.6–15.4% higher antioxidant activity than those of total phenolic extracts from the corresponding milling fractions. The UPLC results showed a non-carotenoid peak at Rt 0.47 min which was present in fractions of the grain outer layers but absent in semolina and flour. This peak absorbed in the UV range of 271 to 327 nm. These observations suggest that the unknown peak could be composed of phenolic compounds co-extracted in their free form with carotenoids in the polar water-saturated butanol solvent. The compounds in this peak could result in overestimation of carotenoid content and antioxidant activity in bran, short bran and feed flour as the peak contributed to 18.3–26.0% of total carotenoids if it was taken into account.

Published
2017

25. Pigment loss from semolina to dough: Rapid measurement and relationship with pasta colour

Author

Curtis J. Pozniak, L. M. Schlichting, Asheesh K. Singh, and Bin Xiao Fu

Subjects
chemistry.chemical_classification, food and beverages, Biochemistry, Colour loss, Pigment, chemistry, Yellow colour, visual_art, Botany, visual_art.visual_art_medium, Pasta processing, Centrifugation, Screening tool, Food science, Carotenoid, Food Science, Enzymatic degradation
Abstract

The yellow colour of pasta is due largely to the presence of carotenoid pigments in semolina. Some of the carotenoids can be degraded during pasta processing through oxidation induced by lipoxygenase (LOX), resulting in pasta colour loss. Measurement of LOX activity is complex and not practical as a screening tool, so there is a need to develop a rapid, cost effective, high throughput method for routine measurement of colour loss in breeding programs and the durum milling and pasta processing industries. After establishing a rapid micro-scale pigment extraction procedure, this study developed a method to quantify pigment loss due to enzymatic degradation in semolina. It can be conducted in parallel with a simple and reliable micro-scale semolina pigment content assay utilizing water saturated 1-butanol extraction. Water (0.15 ml) was added to semolina (200 mg) in a micro centrifuge tube. The mixture was then homogenized to simulate the mixing and kneading processes in pasta-making, and allowed to rest for 1.0 or 2.0 h. Pigments in the resulting dough were extracted by adding 0.85 ml of 1-butanol, followed by homogenization, resting, and centrifugation. Absorption at 435 nm was recorded and converted to yellow pigment concentration. The pigment loss from semolina to dough was found to be genotype dependent. Durum genotypes with low loss (0–3.8%) were characterized by the absence of a LOX gene duplication at the Lpx-B1 locus, which was shown previously to be associated with a strong reduction in LOX activity in semolina. The loss was higher (5.5–21.8%) for genotypes carrying the LOX gene duplication. While the relationship between pigment content in semolina and pasta colour was significant ( r 2 = 0.55–0.61), the relationship between pigment content in dough after oxidative loss and pasta colour was stronger ( r 2 = 0.59–0.90). These results suggest that the method developed in this study could be used as a tool to select for reduced colour loss due to LOX activity.

Published
2013
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26. A Fast, Simple, and Reliable Method to Predict Pasta Yellowness

Author

Asheesh K. Singh, Curtis J. Pozniak, L. M. Schlichting, and Bin Xiao Fu

Subjects
Pigment, Early generation, Chemistry, Weak relationship, visual_art, Organic Chemistry, visual_art.visual_art_medium, food and beverages, Pasta processing, Carotenoid degradation, Food science, Food Science
Abstract

Pasta yellowness depends on the semolina carotenoid content, carotenoid degradation by lipoxygenase (LOX), and pasta processing conditions. In breeding programs, early generation lines are selected for high grain yellow pigment content with the intent to improve pasta color. This approach has been successful in increasing the grain yellow pigment of Canadian durum wheat in the last few decades. In recent years, however, a weak relationship between pasta yellowness (b*) as measured by a Minolta spectrophotometer and semolina yellow pigment content (r = 0.19–0.52) was noted in the Canadian durum wheat lines. Thus, total semolina yellow pigment content cannot effectively predict the yellowness of its pasta product. Therefore, a fast and simple method was developed to predict pasta yellowness by measuring semolina dough sheet color at different time intervals after sheeting (0.5, 2.0, and 24 hr). Spaghettis were processed from the semolina samples at two drying temperature cycles (70 and 90°C). There...

Published
2011
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27. Asian noodles: History, classification, raw materials, and processing

Author

Bin Xiao Fu

Subjects
chemistry.chemical_classification, Prima materia, Bran, Starch, fungi, Flavour, Wheat flour, food and beverages, Raw material, Shelf life, Gluten, chemistry.chemical_compound, chemistry, Food science, Food Science
Abstract

Noodles in various contents, formulations, and shapes have been the staple foods for many Asian countries since ancient time. They can be made from wheat, rice, buckwheat, and starches derived from potato, sweet potato, and pulses. Noodles based on wheat are prepared mainly from three basic ingredients; flour, water, and salt. There exist two distinct types of wheat flour noodles based on the presence and absence of alkaline salts, regular salted noodles, and alkaline noodles. The basic process of dough mixing, sheet forming, compounding, sheeting/reduction, and cutting are essentially constant for all machine-made noodles. Noodle strands coming out of cutting rolls can be further processed to produce different types of noodles. This article analyzed all the major processes involved from raw material to finished products in relation to noodle processing properties and cooked noodle texture. Different ingredients and their functionality in noodle processing were discussed as well. Guidelines were provided to select the right ingredients to produce high quality noodle products. Processing properties, appearance, and colour of noodles are the three key criteria used to judge a process and raw material quality. High quality noodles should be bright in colour with very slow discoloration, have an adequate shelf life without visible microbiological deterioration or oxidative rancidity, and have appropriate flavour and textural characteristics which will vary according to the noodle type and region. Flour plays a key role in all aspects of noodle quality. Protein content is positively correlated with noodle firmness and sometimes negatively correlated with elasticity. Therefore, a correct range of protein content is important for textural characteristics. Adequate gluten strength and extensibility is required in all noodle flours. Noodle dough must be strong enough to withstand sheeting, but not so strong as to cause tearing or difficulty in sheet reduction. A good level of dough extensibility ensures that dough sheets do not shrink back during successive roll passes. The importance of the pasting properties of starch to the texture of cooked noodles has been well-documented. The required soft, smooth, and elastic textural properties of certain types of white salted noodles can be best obtained from wheats with high starch paste viscosity and high swelling starch properties. Alkaline noodles do not have the same requirement for high starch swelling properties. Noodles made from flour with high swelling starches have softer texture than those with low swelling starch. Noodles should be bright and slow in discoloration with time after manufacturing. For white salted noodles, a white or creamy white colour is desirable. The level of natural yellow pigment levels (xanthophylls) in flour is highly correlated with noodle colour, and this is wheat variety dependent. For yellow alkaline noodles, a bright yellow colour is required, although the preference for the degree of colour development is regionally based. Noodle darkening increases with the increases of flour extraction rate. This is due to the action of polyphenol oxidase (PPO) enzymes which are largely located in the bran layer. Low flour extraction and ash levels are preferred for the manufacture of noodles with a clean and bright appearance. A relatively fine flour particle size enables even hydration during mixing and optimum, uniform gluten development during sheeting. Increased starch damage, however, is associated with poor noodle colour and undesirable high cooking loss and excessive surface swelling.

Published
2008
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