Bleaching enzymes

Details Bleaching enzymes Bleaching enzymes

1998-06-15

2001-04-17

Soderquist, Arlen (Department: 1743)

Cleaning compositions for solid surfaces, auxiliary compositions

Cleaning compositions or processes of preparing

For cleaning a specific substrate or removing a specific...

C510S300000, C510S320000, C510S321000, C510S374000, C510S392000, C510S393000, C510S530000, C424S094100, C252S186100

Reexamination Certificate

active

06218350

ABSTRACT:

TECHNICAL FIELD
The present invention generally relates to bleaching enzymes. More in particular, it relates to bleaching enzymes capable of generating a bleaching chemical and having a high binding affinity for stains present on fabrics. The invention also relates to a detergent composition comprising said enzymes and to a process for bleaching stains present on fabrics.
BACKGROUND AND PRIOR ART
Detergent compositions comprising bleaching enzymes have been described in the prior art. For instance, GB-A-2 101 167 (Unilever) discloses an enzymatic bleach composition in the form of a hydrogen peroxide-generating system comprising a C
1
-C
4
alkanol oxidase and a C
1
-C
4
alkanol. Such enzymatic bleach compositions may be used in detergent compositions for fabric washing, in which they may provide a low-temperature enzymatic bleach system. In the wash liquor, the alkanol oxidase enzyme catalyses the reaction between dissolved molecular oxygen and the alkanol to form an aldehyde and hydrogen peroxide. In order to obtain a significant bleach effect at low wash temperatures, e.g. at 15-55° C., the hydrogen peroxide must be activated by means of a bleach activator. Today, the most commonly used bleach activator is tetra-acetyl ethylene diamine (TAED), which yields peracetic acid upon reacting with the hydrogen peroxide, the peracetic acid being the actual bleaching agent.
Although this and several other enzymatic bleach systems have been proposed, there is still a need for alternative or improved enzymatic bleach systems. In particular, the enzymatic bleach system should be capable of bleaching stains which are otherwise difficult to remove, the so-called “problem stains” such as tea, blackberry juice, or red wine. Such stains would require a significant amount of bleaching for their removal, which might negatively affect the colours of the garment.
In conventional laundry bleach systems, fabrics are uniformly exposed to the same concentration of bleach, whether “problem stains” are present or not. Moreover, damage to garments (such as the fading of dyes) can be caused by repeated washing with conventional bleach systems, which may contain relatively high concentrations of bleach.
It is therefore an object of the present invention to provide alternative or improved enzymatic bleach systems which, in particular, should be capable of bleaching stains which are otherwise difficult to remove, and should preferably be more selective in its bleaching action. It is a further object of the present invention to provide an alternative or improved enzymatic bleach process.
We have now surprisingly found that it is possible to control the enzymatic bleaching reaction by using the bleaching enzyme according to the invention, which is capable of generating a bleaching chemical and has a high binding affinity for stains present on fabrics. Preferably, the enzyme comprises an enzyme part capable of generating a bleaching chemical, coupled to a reagent having a high binding affinity for stains present on fabrics.
The new bleaching enzyme is particularly attractive for treating “problem stains” which occur only occasionally, such as tea, red-wine, and blackberry juice. These stains are not present on most garments and when they are present they are likely to be present in different positions than habitual stains such as those found on collars and cuffs. According to the invention, it is possible to optimise the in-use concentration of the new bleaching enzyme so that threshold concentrations of bleach are only reached if stain is present and the new bleaching enzyme binds to and accumulates on said stain.. When this happens, the high local concentration of enzyme generates a high local concentration of bleach near to the stain and thereby exerts a selective bleaching action where it is required. Therefore, the unstained part of the garment (typically the majority) is not exposed to high levels of bleach and thereby this fabric is protected from bleach-associated damage. Moreover, the next time the same garment has a stain such as blackberry, tea, wine, etc. it is likely to be in a different position on the garment. Therefore, a different position on the garment will be exposed to high levels of bleach. Therefore, problems associated with several washes in conventional bleaching systems, such as dye-fade, will be reduced or eliminated altogether. This is in stark contrast to conventional bleaching systems where all garments are uniformly exposed to high concentrations of bleach, in every wash, regardless of whether problem stains are present or not.
DEFINITION OF THE INVENTION
According to a first aspect of the invention, there is provided a bleaching enzyme capable of generating a bleaching chemical and having a high binding affinity for stains present on fabrics. Preferably, the enzyme comprises an enzyme part capable of generating a bleaching chemical, coupled to a reagent having a high binding affinity for stains present on fabrics.
According to a second aspect, there is provided an enzymatic bleaching composition comprising one or more surfactants and the bleaching enzyme according to the invention.
According to a third aspect, there is provided a process for bleaching stains present of fabrics, wherein stained fabrics are contacted with an a solution comprising the bleaching enzyme of the invention.
DESCRIPTION OF THE INVENTION
1. The Bleaching Enzyme
In its first aspect, the invention relates to a bleaching enzyme which is capable of generating a bleaching chemical and has a high binding affinity for stains present on fabrics. Preferably, the enzyme comprises an enzyme part capable of generating a bleaching chemical which is coupled to a reagent having a high binding affinity for stains present on fabrics.
1.1 The Enzyme Part, Capable of Generating a Bleaching Chemical
The bleaching chemical may be enzymatically generated hydrogen peroxide. The enzyme for generating the bleaching chemical or enzymatic hydrogen peroxide-generating system may in principle be chosen from the various enzymatic hydrogen peroxide-generating systems which have been disclosed in the art. For example, one may use an amine oxidase and an amine, an amino acid oxidase and an amino acid, cholesterol oxidase and cholesterol, uric acid oxidase and uric acid or a xanthine oxidase with xanthine. Alternatively, a combination of a C
1
-C
4
alkanol oxidase and a C
1
-C
4
alkanol is used, and especially preferred is the combination of methanol oxidase and ethanol. The methanol oxidase is preferably isolated from a catalase-negative
Hansenula polymorpha
strain. (see for example EP-A-244 920 (Unilever)). The preferred oxidases are glucose oxidase, galactose oxidase and alcohol oxidase.
A hydrogen peroxide generating enzyme could be used in combination with activators which generate peracetic acid. Such activators are well-known in the art. Examples include tetraacetylethylenediamine (TAED) and sodium nonanoyloxybenzenesulphonate (SNOBS). These and other related compounds are described in fuller detail by Grime and Clauss in Chemistry & Industry (Oct. 15, 1990) 647-653. Alternatively, a transition metal catalyst could be used in combination with a hydrogen peroxide generating enzyme to increase the bleaching power. Examples of manganese catalysts are described by Hage et al. (1994) Nature 369, 637-639.
Alternatively, the bleaching chemical is hypohalite and the enzyme part is then a haloperoxidase. Preferred haloperoxidases are chloroperoxidases and the corresponding bleaching chemical is hypochlorite. Especially preferred chloroperoxidases are Vanadium chloroperoxidases, for example from
Curvularia inaegualis.
Alternatively, peroxidases or laccases may be used. In this case the bleaching molecule is derived from an enhancer molecule that has reacted with the enzyme. Examples of laccase/enhancer systems are given in WO-A-95/01426. Examples of peroxidase/enhancer systems are given in WO-A-97/11217.
1.2 The Part Having the High Binding Affinity
The new bleaching enzyme has a high binding affinity for stains present on fabrics. I

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