Effects of Variations in High Molecular Weight Glutenin Allele Composition and Resistant Starch on Wheat Flour Tortilla Quality

Jondiko, Tom Odhiambo

2010 December 1900

Tortilla sales are projected to exceed 9.5 billion by 2014. However, currently no wheat cultivars have been identified that possess the intrinsic quality attributes needed for the production of optimum quality tortillas. Tortillas made with refined wheat flour low in dietary fiber (DF) are popular in the United States due to their sensory properties. This study explored the use of wheat lines (WL) possessing variations in high molecular weight glutenin allele sub-units (HMW-GS) for production of tortillas and also investigated the use of corn based resistant starches (RS), type II (RS2) and wheat based RS type IV (RS4) to increase DF in tortillas. Tortillas were made with 0-15 percent RS and 100 percent whole white wheat (WW). Flour protein profiles, dough, and tortilla properties were evaluated to determine the effects of the allelic variations and RS substitution on tortilla quality. Sensory properties of tortillas with RS were determined. Variations in HMW-GS composition significantly affected the protein quality and tortilla properties. Flour from WL possessing allelic combinations (2*, 17+18, 7, 2+12), (1, 17+18, 5+10), (2*, 17, 2+12) and (1, 2*, 17+18, 2+12) had 12.8-13.3 percent protein. These WL had extensible doughs and produced large diameter tortillas with superior (greater than or equal to 3.0) flexibility after 16 days compared to control. However, WL with (17+18 and 5+10) and (2*, 17+7, 5) produced extensible doughs, large, but less flexible, tortillas compared to control. WL with (2*,17+18,5+10) and (1,2*,7+9,5+10) produced smaller diameter tortillas, but with superior flexibility compared to control. RS2, WW, and cross-linked-pre-gelatinized RS4 (FiberRite) produced hard, less-extensible doughs and thinner tortillas compared to control, due to high water absorption. Cross-linked RS4 (Fibersym) dough and tortillas were comparable to control. 15 percent of RS2 and RS4 increase DF in control to 6 and 14 percent respectively, compare to control (2.8 percent DF). WW tortillas were less acceptable than control in appearance, flavor and texture, while tortillas with 15 percent Fibersym had higher overall acceptability than control. RS2 negatively affected dough machinability and tortilla shelf stability. However, 15 percent RS4 improved the DF in refined flour tortillas to meet FDA's "good source of fiber claim," without negatively affecting dough/tortilla quality.

Tortillas

Tortilla

wheat

wheat gluten

glutenin

gliadin

High molecular weight glutenin sub-units

HMW-GS

Insoluble polymeric proteins

IPP

wheat lines

tortilla diameter

tortilla rollability

tortilla flexibility

resistant starch

dietary fiber

TDF

tortilla sensory properties

good source of fiber

tortilla quality

glutenin allele

dough extensibility

Porovnání dvou překladů knihy Tortilla Flat Johna Steinbecka / Comparison of two Czech translations of John Steinbeck's novella "Tortilla Flat"

Muchová, Marie

January 2014

This thesis aims to compare two Czech translations of John Steinbeck's novel Tortilla flat considering the theories of acknowledged translatologists (Levý, Knittlová, Krijtová). For Steinbeck's work differentiation of the language used in direct speech from the language used by the narrator by using colloquial and slang expressions is characteristic, so Steinbeck's translators were to cope with an uneasy task to find a functional equivalent of the different language layers in the target language. The thesis focuses among other on the means by which the differentiation was reached by two different translators considering the development of functional aspect in Czech translatology. A very significant element in Steinbeck's Tortilla Flat is the aim to outline the local atmosphere by using local names, facts and not translated Spanish expressions, which needs to be transferred to the target language considering the requirement both to preserve the local atmosphere in the translation and to create a translation, which is a valuable and understandable piece of literature in the target language.

A structural investigation of the Northern Tortilla Mountains, Pinal County, Arizona

Schmidt, Eberhard Adalbert, 1936-

January 1971

No description available.

Geology, Stratigraphic -- Precambrian.

Geology, Stratigraphic -- Cenozoic.

maps

Selecting wheat varieties for tortilla production

Dann, Orelia E.

January 1900

Master of Science / Department of Grain Science and Industry / Rebecca Miller / Wheat flour tortillas are the second most consumed bread product after white pan bread. Commercial tortillas are formulated with highly viscoelastic hard wheat flours selected and grown for breadmaking. However, the inherent properties of bread flours require costly formula adjustments to enhance dough extensibility necessary for tortilla production. The objective of this study was to identify the biochemical and physical factors in wheat affecting wheat tortilla quality. Six popular hard winter wheat cultivars (1863, Armour, Clara CL, Denali, Everest, Tiger) were grown in five locations in Kansas. Wheat and flour properties were characterized using approved AACCI methods. Protein composition was determined using size-exclusion high performance liquid chromatography. Flour particle size and starch granule size were measured with laser diffraction. Tortillas were made with a laboratory hot press method. Tortilla shelf-stability over 14 days, opacity, appearance, dough machinability and specific volume were measured. Data collected from flour and tortilla tests were analyzed using ANOVA and means were compared with Tukey-Kramer HSD. In general, the flours did not differ significantly in flour or tortilla properties. Regression analysis (Pearson) showed flour protein content was highly and significantly correlated with tortilla opacity (r=-0.81), L color value (r=-0.79), a color value (r=0.80), and day 14 shelf-stability (r=0.76). Flour water absorption showed highly significant correlations with tortilla opacity (r=-0.81), L color value (r=-0.79), a color value (r=0.77) and day 14 shelf-stability (r=0.73). Tortilla opacity was highly correlated with B-type starch granules (r=-0.83). This study showed that starch granule size, flour protein content and flour water absorption appeared to influence tortilla appearance. However, repeating the study with a larger and more diverse sample set is recommended.

Agriculture, General (0473)

Chemistry, Agricultural (0749)

Food Science (0359)

Folate Stability in Fortified Corn Masa Flour, Tortillas, and Tortilla Chips

Phillips, Renee

01 December 2015

Neural tube defects (NTDs) occur at higher rates in Hispanic populations in the USA. Such populations would benefit from folic acid fortification of corn masa flour (CMF). This study evaluated folate stability in fortified CMFs and products made from the flours, tortillas and tortilla chips. There was no significant loss of folate during the six-month shelf-life of fortified tortilla CMF and tortilla chip CMF. There was a 13% loss (P < 0.05) of folate during tortilla baking and no loss during tortilla chip frying. Both tortillas and tortilla chips showed significant folate losses over the two-month shelf-life for these products, with a 17% loss in fortified tortillas and 9% loss in tortilla chips. Folate in fortified CMFs, tortillas and tortilla chips is relatively stable and comparable to the stability of folate in wheat flour and breads.

corn

corn masa flour

folic acid

stability

fortification

tortilla

chip

Nutrition

Food quality and properties of quality protein maize.

Leal Diaz, Ana Maria

30 September 2004

Quality protein maize (QPM), high protein corn (HPC) and food grade maize (FGM) were processed into tortillas and direct expanded extruded snacks. QPM had similar test weight, density and kernel size with 45% more lysine and 38% more tryptophan compared to FGM. HPC had the largest kernel with density and test weight similar to FGM. During alkaline cooking, HPC absorbed water faster than QPM and FGM. White QPM required shorter cooking time and had less dry matter losses compared to FGM. All corn varieties had excellent pericarp removal at the optimum cooking time. Tortillas from QPM had better pliability and rollability after storage compared to FGM and HPC. HPC tortillas had lower rupture force after storage. The use of QPM for tortilla production may reduce energy and sewage cost, and could produce a tortilla with longer shelf stability with improved nutritional value. Decorticated and non-decorticated QPM, FGM and HPC grain were processed into corn meal and direct expanded snacks. A modified short scale dry milling system was used to produce the corn meal. QPM produced more coarse meal with greater fat content compared to FGM. Decortication decreased fiber content and coarse meal yield. Non-decorticated meal had greater protein, fiber and fat content compared to decorticated meal. The modified short flow milling system provides reduced lost fractions for extrusion into nutritionally improved products. Extrusion was performed in a low cost friction extruder. QPM extruded faster than FGM and HPC. FGM required greater specific mechanical energy than QPM. Extrudates from FGM were the most expanded followed by QPM and HPC. Extrudates from the three corn varieties were acceptable to the panelists and decortication did not affect acceptability. The improved nutritional value of QPM, was retained during dry milling and extrusion. Current QPM varieties can be processed into tortillas with longer shelf stability and meal for extrusion into a wide variety of snacks and other foods. These may have application in specialty health foods and in developing countries where maize is a staple food.

tortilla

nixtamalization

extrusion

maize

Quality protein maize

QPM

dry milling

high protein corn

extrudate

Food quality and properties of quality protein maize.

Leal Diaz, Ana Maria

30 September 2004

Quality protein maize (QPM), high protein corn (HPC) and food grade maize (FGM) were processed into tortillas and direct expanded extruded snacks. QPM had similar test weight, density and kernel size with 45% more lysine and 38% more tryptophan compared to FGM. HPC had the largest kernel with density and test weight similar to FGM. During alkaline cooking, HPC absorbed water faster than QPM and FGM. White QPM required shorter cooking time and had less dry matter losses compared to FGM. All corn varieties had excellent pericarp removal at the optimum cooking time. Tortillas from QPM had better pliability and rollability after storage compared to FGM and HPC. HPC tortillas had lower rupture force after storage. The use of QPM for tortilla production may reduce energy and sewage cost, and could produce a tortilla with longer shelf stability with improved nutritional value. Decorticated and non-decorticated QPM, FGM and HPC grain were processed into corn meal and direct expanded snacks. A modified short scale dry milling system was used to produce the corn meal. QPM produced more coarse meal with greater fat content compared to FGM. Decortication decreased fiber content and coarse meal yield. Non-decorticated meal had greater protein, fiber and fat content compared to decorticated meal. The modified short flow milling system provides reduced lost fractions for extrusion into nutritionally improved products. Extrusion was performed in a low cost friction extruder. QPM extruded faster than FGM and HPC. FGM required greater specific mechanical energy than QPM. Extrudates from FGM were the most expanded followed by QPM and HPC. Extrudates from the three corn varieties were acceptable to the panelists and decortication did not affect acceptability. The improved nutritional value of QPM, was retained during dry milling and extrusion. Current QPM varieties can be processed into tortillas with longer shelf stability and meal for extrusion into a wide variety of snacks and other foods. These may have application in specialty health foods and in developing countries where maize is a staple food.

tortilla

nixtamalization

extrusion

maize

Quality protein maize

QPM

dry milling

high protein corn

extrudate

An investigation of the effects of high molecular weight glutenin subunits on wheat tortilla quality

Pierucci, Valquiria Resende Malaspina

January 1900

Master of Science / Food Science Institute, Agriculture / Katherine A. Tilley / Michael Tilley / The wheat tortilla is a chemically leavened circular light colored flat bread. Desirable characteristics for good quality tortilla include large diameter, softness, flexibility and long shelf stability. Important components influencing quality are wheat flour properties, which have not been optimized for tortilla industrial production thus far. The studies presented here investigated the effects of high molecular weight glutenin subunits (HMW-GS) on tortilla quality. Two approaches were employed: biotypes derived from Centurk and OK102 cultivars expressing defined HMW-GS compositions and transgenic wheat lines over-expressing HMW-GS 10. Analysis of protein expression and protein extractability were conducted to characterize wheat flours and suitable assays carried out to determine the respective dough properties. Tortillas were prepared by the hot-press method and quality parameters were measured at days 0, 2, 4, 7 and 14. Tortillas derived from Centurk biotypes possessing HMW-GS 2*, 7+9, 2+12, 2*, 7+8, 5+10 and 2*, 7+9, 5+10 exhibited superior texture profiles over time, but smaller diameters than the biotype 2*, 7+8, 2+12. Tortillas containing HMW-GS 7+9 and 2+12 revealed a texture profile similar to tortillas containing 5+10. Tortillas from the OK biotype 2*, 7+9, 3+12 exhibited larger diameter and texture profiles equivalent to tortillas containing 5+10. Therefore, this biotype showed the best quality within this cultivar. Tortillas derived from transgenic flours over-expressing HMW-GS 10 exhibited an undesirable rough appearance with decreased diameter, greater thickness, lower rollability scores, lower stretchability and greater rupture force over time. Over-expression of HMW-GS 10 in a wheat line containing 1RS-translocation did not promote the same deleterious effects in tortilla quality as it did in transgenic lines without 1RS translocation.

High molecular weight glutenin subunits

HMW-GS

Wheat tortilla quality

Sin Maíz, No Hay País: Corn in Mexico under Neoliberalism, 1940-2008

Caire, Matthew S.

14 May 2010

No description available.

Latin American History

Mexico

corn

nationalism

identity

tortillas

neoliberalism

tortilla prices.

Prospective of biogas production in the Mexican agroindustry : the traditional tortilla manufacturing sector

Soria Baledón, Mónica

January 2011

This thesis presents an assessment of the availability and quality of biomass from the wastewaters in a traditional corn mill in Mexico City for biogas production. To date, these wastewaters (called nejayote) are discharged untreated to the sewer with a chemical composition that surpasses the maximum permissible levels of pollutants established in the Official Mexican Standards (NOMs). From the study case four scenarios were proposed to tackle this problem: 1) separate the suspended solids (SS) by sedimentation in order to reduce the organic content of nejayote, 2) recover a protein-rich microbial biomass for animal feed through the aerobic treatment of these wastewaters, 3) produce biogas to cover part of the energy demand of the corn mill under study, and 4) switch to the alkaline extrusion of corn as an alternative the traditional corn-cooking technique known as nixtamalization. Despite their environmental benefits, none of the proposed scenarios offer, separately, the economic incentives to change the business as usual in this traditional corn mill. Yet, biogas production can be combined with other alternatives like the alkaline extrusion of corn in a two-stage technological package. This processing technology would completely eliminate nejayote while preserving the nutritive value of the nixtamal dough and most importantly, the organoleptic uniqueness of the traditionally-made tortillas.

Biogas from wastewaters

nejayote

wastewater treatment

Mexico

Environmental Sciences

Miljövetenskap

Climate Research

Klimatforskning