HYDROLYZED GLUTEN-BASED DUSTER COMPOSITION FOR DEEP FRIED FOOD

Abstract

The invention relates to the deep-fried food, in particular in the use of hydrolyzed gluten in duster composition for deep fried food.

Claims

1-8. (canceled)

9. A duster composition for deep fried foods comprising between 1% and 65% of hydrolyzed gluten, preferably between 14% and 65% by weight of total dry weight of the duster.

10. The duster composition of claim 9 wherein hydrolyzed gluten wheat has a hydrolysis degree comprised between 0.5% to 5%.

11. The duster composition of claim 9 comprising native wheat gluten.

12. The duster composition according to claim 9 comprising wheat flour.

13. The duster composition according to claim 9 consisting of 1 to 65% of hydrolyzed gluten by weight of total dry weight and 35 to 99% native gluten by weight of total dry weight.

14. A method for producing a duster composition according to claim 9 comprising the steps of: 1) providing native wheat gluten; 2) hydrolyzing wheat gluten for obtaining a degree of hydrolysis (DH) between 0.5% and 5%; 3) mixing hydrolyzed wheat gluten with other compounds in order to have between 1% and 65% of hydrolyzed wheat gluten by weight of total dry weight 4) optionally drying the mix obtained in step 3.

15. A deep-fried food product comprising foodstuff coated with a duster composition according to claim 9.

16. A method of preparing a deep-fried food comprising the steps of: coating a food product with a pre-dust composition according to claim 9, coating the duster-coated food product with a batter composition, coating the batter-coated food product with a breading composition.

Description

BRIEF DESCRIPTION OF THE FIGURES

[0023] FIG. 1 represents the photos of deep-fried food obtained with the different compositions of dusters. Coating condition and coating texture description of the deep-fried foods are indicated under the photos.

[0024] FIG. 2 represents the photos of the deep-fried food obtained with duster comprising different amounts of hydrolyzed gluten wheat.

[0025] FIG. 3 represents the photos of the deep-fried food obtained with gluten and hydrolyzed gluten mix duster and wheat flour duster.

[0026] FIG. 4 represents the photos of the deep-fried food obtained with gluten and hydrolyzed gluten mix duster and wheat flour duster after storage under a hot showcase at 60° C. during 4.5 h.

[0027] FIG. 5 represents the photos of the deep-fried food obtained with gluten and hydrolyzed gluten mix duster and wheat flour duster rapidly frozen, at −40° C. for 1 h and reheat with a conventional oven at 220° C. during 10 min.

DETAILED DESCRIPTION OF EMBODIMENTS

[0028] A first embodiment is a duster composition for deep fried foods comprising between 1% and 65%, preferably between 14% and 65% of hydrolyzed gluten by weight of the total dry weight of the duster. As demonstrated in the examples, inventors have demonstrated that the use of hydrolysed gluten in the duster of the invention, even in very small quantities of around 1%, improves the texture and color of the deep fried foods.

[0029] In this application “duster” must be understood as a blend or pure powder, composed of finely ground material. It is usually applied as the first layer in a coating system as it prepares the surface of the substrate to allow the remainder of the coating system to be ‘built’ on top of it. Pre-dusts may be off-the-shelf commodity items or tailor-made for a particular product or process. They are usually flour based but may contain additional agents to help coatings bind better to the substrate. Typical dusters used in the food industry are wheat flour, rice flour, tapioca flour, maize starch or potato starch.

[0030] In this application “hydrolyzed gluten” must be understood as vital wheat gluten (see below its definition), that have been hydrolyzed, which must be understood as a reduction of molecular weight of proteins constituting wheat gluten. In order to hydrolyze wheat gluten, man skilled in the art can choose between all process known as of today, including chemical process e.g. acid hydrolysis or alkaline hydrolysis or biochemical process e.g. proteases, peptidases.

[0031] In a preferred embodiment, hydrolyzed wheat is characterized by a degree of hydrolysis (DH) from 0.5% to 5%, preferably from 1% to 4%, more preferably from 2% to 3%. The degree of hydrolysis is defined as the proportion of cleaved peptide bonds in a protein hydrolysate. The degree of hydrolysis can be easily known using well-known protocols like o-phthaldialdehyde (OPA) or tri nitrobenzenesulfonic acid (TNBS) colorimetric methods. In this present application, preferred method is OPA. In a preferred embodiment, the duster composition also includes wheat gluten, preferably only wheat gluten and hydrolyzed wheat gluten excluding others compounds.

[0032] In this application “wheat gluten” must be understood as native wheat gluten which is one of the most abundant proteins in wheat crops, constituted by gliadine and glutenines. Native gluten must be understood as gluten obtained by a process which do not denaturate wheat gluten and keep its viscoelastic properties. In other terms, native wheat gluten is also known as vital gluten.

[0033] In another preferred embodiment, duster will also include wheat flour.

[0034] In this application “wheat flour” must be understood as wheat seeds that have been milled in order to reduce particle size. Wheat flour can be process internally or buy on commercial market.

[0035] A second embodiment is a process for producing the duster as described previously comprising the steps of: 1) providing wheat gluten; 2) hydrolysing wheat gluten in order to reach DH between 0.5% to 5%, preferably from 1% to 4%, more preferably from 2% to 3%; 3) mixing hydrolyzed wheat gluten with other compounds in order to have a content between 1% and 65%, preferably 14 to 65%; 4) Optional drying of the mix;

[0036] The first step consists in providing wheat gluten. Wheat gluten can be bought in commercial market. It can be native or vital. Wheat gluten can also be extracted from wheat seeds. In order to extract native gluten, man skilled in the art uses commonly known processes.

[0037] The second step consists in hydrolyzing wheat gluten. A first solution can be the use of acid or alkaline reagent in order to reduce size of gluten. A second solution, more preferred, can be the use of proteases and/or peptidases. Enzymes cut selectively amino acids bonds and reduce protein molecular weight. In a preferred embodiment, enzyme is a Neutrase, which is a protease produced from Bacillus amyloliquefaciens liquid. Hydrolysis protocol consists in 1) adding a selected quantity of protease to native gluten, 2) adjusting temperature and pH at enzyme optimum, 3) executing hydrolysis by homogenizing gluten/enzyme mix and checking hydrolysis degree, 4) stopping reaction when hydrolysis degree is reached by adjusting pH far from optimum pH;

[0038] The third step consists in mixing hydrolyzed wheat gluten with other compounds. Other compounds can be chosen preferably in the list of wheat gluten, wheat flour. In a more preferred embodiment, other compounds consist of gluten and/or wheat flour.

[0039] The mix can be done in a wet way with enough stirring and homogenizing power. It can also be done in a dry way with the help of well-known selected devices.

[0040] In the mix, hydrolyzed wheat gluten represents between 1% to 65% of the total dry matter of the duster composition, preferably between 14% and 65%.

[0041] The fourth optional step consists in optional drying in order to remove residual water and optimize shelf life stability. This step is needed in particular if mix is done in a wet way. Dry matter of the mix needs to be rised above 80%, preferably above 85%, more preferably above 90%.

[0042] Another embodiment is the industrial use of such duster for deep fried food cooking. The present invention also relates to a deep-fried food product comprising foodstuff coated with a duster composition as previously defined and a method for preparing a deep-fried food comprising the steps of: coating a food product with a duster composition as defined previously, coating the duster-coated food product with a batter composition and coating the batter-coated food product with a breading composition.

[0043] Invention will be better understood with the help of the following detailed description of embodiments.

EXAMPLES

[0044] In the examples below, commercial hydrolyzed wheat gluten from Roquette Frères is used. It contains 88.5% of proteins (N 6.25 method) with a DH of 2.5 (OPA method)

Example 1: Effect of Use of Hydrolyzed Wheat Gluten in Duster on Deep Fried Food Quality

[0045] Different products listed in Table 1 used as dusters are compared.

TABLE-US-00001 TABLE 1 Different duster types compositions Wheat flour Corn Starch Rice flour Amusko Ki Wheat Flour + Viten + 8% Nutralys W Nutralys W Oil coated Mix of Mix of wheat tapioca starch wheat flour gluten with 8% with 8% of of hydrolyzed hydrolyzed wheat wheat gluten gluten (Roquette (both from freres) Roquette freres)

[0046] As a second layer, the batter composition of the Table 2 below is used for all samples.

TABLE-US-00002 TABLE 2 Batter cornposition % CLEARAM LG0005 (starch from Roquette) 81.1 Tackidex B735 (dextrin from Roquette) 12 Salt 5 Sodium bicarbonate 0.9 SAPP (dissodium dihydrogen pyrophosphate) 0.9 Xanthan gum 0.1

[0047] Water is added to powder in a ration 1.5/1 and the mix is homogenized

[0048] As a third layer, the breader composition of the Table 3 below is used for all samples

TABLE-US-00003 TABLE 3 Breader composition control PREGEFLO MI20A 75.6 Salt 8 Sugar 9 Black pepper 2 MSG (monosodiium gultamate) 2 Garlic powder 1.4 Ginger powder 1 Paprika powder 1

[0049] The process to obtain deep-fried chicken meat is the following: [0050] Dust each material listed in Table 1 on a surface of piece of chicken meat. [0051] Dip them into a batter and then dust breader on a surface [0052] Deep fry for 5 min at 180° C. [0053] Stock under hot showcase (60° C.) from 0 to 9 hours.

[0054] Photos are taken and coating condition/texture are evaluated (FIG. 1).

[0055] The use of hydrolyzed gluten at 8% in wheat flour improves duster properties. The adhesion and the coating texture are similar to oil coated starch (Amusko KI) duster condition. The use of a mix of gluten and hydrolyzed gluten can also give good results, allowing removal of all starch from duster (FIG. 1).

[0056] Table 4 below summarizes results:

TABLE-US-00004 TABLE 4 variation of texture under hot showcase storage from 0 to 9 hours. 0 H 1 H 2.5 H 4 H 5 H 6 H 7 H 8 H 9 H Wheat Flour ++ ++ + − − − − − − Corn starch ++ − − − − − − − − Rice flour ++ ++ + − − − − − − Amusko KI ++ + − − − − − − − Wheat Flour + 8% ++ ++ ++ ++ ++ + + + − Nutralys W Viten + 8% Nutralys W ++ ++ ++ ++ ++ + + + − The variation of texture under hot showcase storage (70° C.) from 0 hours to 9 hours is evaluated and ranked: ++: no texture change; +: slight change but still OK; −: heavy change.

[0057] The introduction of hydrolyzed gluten in duster allows to deep fried chicken meat to keep its initial texture under hot showcase storage. Time storage is multiplied by 4.

Example 2: Effect of Hydrolyzed Wheat Gluten Dosage on Deep Fried Food Quality

[0058] Different dosages of hydrolyzed wheat gluten (Nutralys® W from Roquette) in wheat flour are compared as dusters:

TABLE-US-00005 TABLE 5 Duster compositions with different amounts of hydrolyzed wheat gluten. Wheat Flour (W) 0.9% W 2% W 4% W 8% W 14% W 24% W Wheat 100 99.11 98 96 92 86 76 Flour Nutralys — 0.89 2 4 8 14 24 W 39% W 44% W 50% W 60% W 70% W 80% W 90% W Wheat 61 56 50 40 30 20 10 Flour Nutralys 39 44 50 60 70 80 90 W

[0059] Batter and Breader recipes are the same than in example 1

[0060] The process to obtain deep fried chicken meat is the following: [0061] Dust each material on a surface of chicken evenly. [0062] Dip them into a batter and then dust breader on a surface. [0063] Deep fry for 5 min at 180° C.

[0064] Photos are taken and coating condition and texture are evaluated after storage under hot showcase (60° C.) for 2.5 H (FIG. 2).

[0065] Texture and color are ranked and summarized in the Table 6 below:

TABLE-US-00006 TABLE 6 Texture and color of deep-fried food after 2.5 hours of storage at 60° C. comprising duster with different amount of hydrolyzed gluten. 0.9% 2% 4% 8% 14% 24% 39% 44% 50% 60% 70% 80% 90% Flour W W W W W W W W W W W W W Texture − + + + + + + + + + + + − − Color + + + + + + + + + + + − − −

[0066] A dosage comprised between around 1% and 60% of hydrolyzed wheat gluten in dusters allows reaching a good texture and color for deep fried chicken. Surprisingly the use of a very small amount of hydrolysed gluten (around 1%) in the duster allows an improvement in the texture.

Example 3: Performance of a Gluten and Hydrolyzed Gluten Mix Duster Versus Flour Duster

[0067] Different powder mixes listed in the Table 7 below are compared as dusters:

TABLE-US-00007 TABLE 7 Different power Mixes (Flour and Viten + Mix) Flour Viten Viten + W W Wheat Flour 100 — — — Viten — 100 50 — Nutralys W — — 50 100

[0068] Batter and Breader recipes are the same than in example 1

[0069] The process to obtain deep fried chicken meat is the following: [0070] Dust each material on a surface of chicken evenly. [0071] Dip them into a batter and then dust breader on a surface. [0072] Deep fry for 5 min at 180° C.

[0073] For the deep-fried food using flour and duster useful to the invention, photos are taken, coating condition and texture are evaluated just after being deep fried (FIG. 3). The yield rate, percentage of variation of weight of meat piece before and after being deep fried, are also calculated.

[0074] [1] Photos are then taken and coating condition/texture are evaluated after storage under hot showcase 60° C. during 4.5 h (FIG. 4). Variation of weight is also tracked and expressed as percentage (1=100%): compared to the deep fried food using flour as a duster, the ones using duster of gluten and/or hydrolysed glutens are improved regarding the conservation under heat. Moreover, the deep fried food using duster comprising the combination of gluten and hydrolysed gluten is the closest to the control: the coating is not too coarse and the food inside is as juicy as the control.

[0075] Deep fried chicken meat are also rapidly frozen at −40° C. for 1 h and reheat with conventional oven at 220° C. 10 min.

[0076] With a gluten/hydrolyzed gluten mix as a duster, less juice is release by deep fried chicken when it is frozen/reheated (FIG. 5): compared to the deep fried food using flour as a duster, the one of the invention has better mouth melting and the coating is good and not too thick. The issue of the deep fried food using duster of gluten is that it gives also a bad organoleptic experience in the mouth due to a feeling of thin film coating on the food. The deep fried food using duster of hydrolysed gluten is too dry and separates too easily from the food resulting also in bad organoleptic sensation.