Food or edible material: processes – compositions – and products – Dormant ferment containing product – or live microorganism... – Yeast containing
Reexamination Certificate
2001-01-22
2003-06-17
Hendricks, Keith (Department: 1761)
Food or edible material: processes, compositions, and products
Dormant ferment containing product, or live microorganism...
Yeast containing
C426S019000, C426S027000
Reexamination Certificate
active
06579547
ABSTRACT:
SUMMARY OF THE INVENTION
The invention relates to novel dough compositions, especially compositions adapted for storage under refrigerated conditions, a method for preparing the dough compositions, and baked products containing the dough composition. In particular, the present invention pertains to a refrigeratable dough composition for use in preparing edible baked goods, which maintains its capability to provide baked goods having excellent texture and flavor even after being stored for a prolonged period of time.
BACKGROUND OF THE INVENTION
A variety of different refrigeratable dough products are currently available to consumers to produce different sorts of baked products. Products containing ordinary baker's yeast, however, may only be stored for quite a limited period of time since, even under conditions of low temperature, the yeast shows substantial activity resulting in a consistent production of carbon dioxide. This continuous development of gas eventually results in leavening of the dough during storage, i.e., in the refrigerator. Moreover, the continued activity of the yeast beyond the desired degree of proofing deleteriously affects the organoleptic and rheological properties of the dough, resulting in final baked products that are unacceptable.
For this reason most of the commercial dough compositions do not contain yeast to leaven the dough. Rather they contain chemical agents, so that they may be stored for a prolonged period of time without occurrence of the known detrimental effects of yeasts. The advantage of such chemical leavening agents is that their behavior is based on a predictable chemical reaction, thus, allowing control of the volume of carbon dioxide produced to leaven the dough. Although the storage lifetime of products leavened by means of chemical agents may be extended, the final baked goods obtained therewith are known to be inferior compared to products leavened by means of baker's yeast. In particularly, the texture of the products is often not acceptable to customers. The products also lack flavorings produced by the yeast during its activity.
Another approach to avoid the problems encountered with the use of yeast in dough compositions under long term storage at refrigeration conditions, is to store the yeast containing dough, optionally in pre-baked form, at freezing temperatures of about −20° C. to reduce the activity of the yeast to a minimum. To this end U.S. Pat. No. 5,385,742 teaches the use of a dough composition that utilizes the substrate limiting concept. Accordingly, a dough is leavened with a maltase negative yeast and is subsequently frozen for long term storage.
This approach, however, has also been shown to be unsatisfactory in that products prepared from frozen dough compositions are not as convenient for the consumer as are refrigerated dough products. The frozen dough has to be thawed and, in most instances, pre-proofed prior to baking. Furthermore, the pre-proofing has to be monitored by the consumer to avoid extensive proofing of the dough. Moreover, the texture of the final baked product derived from frozen dough has been shown to be inferior to products produced from non-frozen dough. Furthermore, the characteristic flavor associated with yeast leavening is inferior or often completely lacking.
Recently low temperature inactive strains of baker's yeast (lti-strains) have been developed. These yeast strains are essentially inactive at low temperatures, but retain their activity when brought to higher temperatures.
U.S. Pat. No. 5,399,492 describes a process for constructing yeast strains having the lti-property, wherein a strain of
Saccharomyces cerevisiae
is subjected to a mutagenic treatment, at least one mutant having an lti-property is selected and is backcrossed at least once with a wild type haploid strain of
Saccharomyces cerevisiae
having an opposite mating type, at least two backcross segregants having an lti property and opposite mating types are then selected and are crossed at least once, and a diploid strain having a growth potential, a lti-property, and the ability to raise a dough is selected.
The construction of different lti-derivatives has also been described. In U.S. Pat. No. 5,776,526 there is described a process for constructing lti-strains that react more slowly with the maltose contained in the dough. These strains may be obtained by crossing a haploid
Saccharomyces cerevisiae
having an lti-property with a haploid
Saccharomyces cerevisiae
strain having an active maltase gene, that is under catabolic repression, subsequently crossing the segregants and selecting a diploid strain showing an lti-property, an active Mal-phenotype (Mal
(+)
expressing the gene coding for maltase either inducible (wild-type) or constitutively), and having growth potential.
For a dough composition to be stored at refrigerator conditions and to eventually result in a baked product having the desired texture and excellent flavoring the activity of the yeast in the dough must be carefully controlled. To this end the activity should not be entirely null during storage, since otherwise an unacceptable texture will be formed and no flavorings will be produced. An extensive activity of the yeast, however, is known to lead to excessive leavening of the dough during storage with the flavor deteriorating with continuing metabolic action of the yeast.
With regard to using current yeast-strains having an lti-property, these strains have been found to produce dough with good texture and flavor properties only in a time range of refrigerated storage between 2 and 3 weeks. The dough tends to be underdeveloped in the first week and overdeveloped or even deteriorated between 4 and 5 weeks.
To date scientists have not been able to develop dough compositions that provide the desired properties, over the entire shelf life of the dough, i.e., to provide a yeast containing dough composition having an activity that is necessary to provide baked products having the same or a similar texture and flavor as compared to products prepared from freshly prepared dough.
SUMMARY OF THE INVENTION
The present invention relates to a dough composition for the preparation of yeast leavened products. The dough composition includes at least one strain of a lti-yeast and one or more sugars fermentable by the lti-yeast in an amount sufficient such that the dough composition produces about 50 to 250 ml CO
2
/100 g dough within a time period not exceeding 1 week after the dough is prepared and not more than about 400 ml of CO
2
/100 g dough during a 5 week period after the dough is prepared to facilitate storage of the dough at refrigeration temperatures.
The lti-yeast may constitutively expresses maltase and in one embodiment the maltase expression is repressed by glucose. The sugar may be glucose, fructose, saccharose, maltose, or mixtures thereof. The amount of sugar may be from about 0.5 to 5.6 mMol/100 g dough. The sugar may be saccharose in an amount of about 1 to 5.6 mMol/100 g dough or the sugar may be glucose in an amount of about 1 to 2.6 mMol/100 g dough.
The amount of CO
2
produced during the time period not exceeding 1 week after the dough is prepared may be about 100 to 250 ml/100 g dough and the amount of CO
2
produced during the 5 week period after the dough is prepared may be about 300 ml/100 g dough. The amount of CO
2
produced by the dough may be determined at a temperature between about 4° C. and 13° C.
The present invention also relates to a method for producing the dough of the invention. The method involves mixing water, flour, at least one strain of a lti-yeast, and one or more sugars fermentable by the lti-yeast to provide a dough composition wherein the water, flour, at least one strain of a lti-yeast, and one or more sugars fermentable by the lti-yeast are present in amounts sufficient to enable the dough composition to produce about 50 to 250 ml CO
2
/100 g dough within a time period not exceeding 1 week after the dough is prepared and not more than about 400 ml of CO
2
/100 g dough during a 5 week
Gysler Christof
Niederberger Peter
Hendricks Keith
Nestec S.A.
Winston & Strawn
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