NL1008781C2 - Method for combating bacterial spot disease in edible mushrooms. - Google Patents

Description

METHOD FOR PREVENTING THE BACTERIA STAIN ON EDIBLE MUSHROOMS

The present invention relates to a method for combating bacterial spot disease in edible mushrooms, to the result of the method and to products for use in the method.

5 Edible mushrooms are products about which most consumers have a strong opinion. For example, mushrooms should be mainly white and undamaged. Infection with Pseudomonas tolaasii results in pits and brown spots, which affect the appearance of white mushrooms in particular, such as mushrooms. This means that on average 10-15% of the harvest must be rejected, classified lower or processed into canned goods.

Pseudomonas tolaasii is actually always present in the compost on which mushrooms are grown.

When the amount of bacteria exceeds a certain threshold value, the problem of the formation of spots and pits on the mushrooms arises. Diluted bleach is currently being sprayed on the culture bed. However, bleach is environmentally unfriendly, consumer-friendly and difficult to dose. The use thereof should therefore preferably be avoided.

It is therefore the object of the present invention to provide a method with which to combat bacterial blotch disease in edible mushrooms.

This object is achieved by the invention by a method comprising treating the mushrooms with one or more lipodepipeptides having a β structure.

Lipodepipeptides are molecules which partly consist of a peptide structure, which contain a lipid part and which have a lactone ring. One of the best known lipodepipeptides is the so-called "White Line Inducing Principle" or WLIP. This is a substance found in the white line created when saprophytic Pseudomonas species, collectively referred to as P. reactans. together with Pseudomonas tolaasii.

1008781 2 the causative agent of the spot disease, grown in agar. The structure of WLIP is given in Figure 1. The official name of WLIP is β-hydroxydecanoyl-LLeu-DGlu-D, allo-Thr-DVal-DLeu-DSer-LLeu-DSer-LIle. In addition to WLIP, there is another lipodepsipeptide bearing the name viscosine, which differs from WLIP only in the chirality of Leu5, which has the L configuration for viscosine and the D configuration for WLIP. Viscosine is produced by Pseudomonas viscosa.

In addition to WLIP and viscosine, other lipodepipeptides can also be used according to the invention, provided they have a β-structure.

According to the invention, crude preparations of the lipodepipeptides and purified forms thereof can be used for the treatment of the bacterial spot disease.

In principle, the method according to the invention is suitable for all edible fungi that show bacterial blotch disease. Because the lipodepipeptides are white in color, they can therefore be used as such for treating white mushrooms, such as Agaricus bisporus (mushroom), Aqaricus arvensis (anise mushroom), Agaricus bitorauis (street mushroom), and Flamulina velutioes and Pleurotus spec, (white oyster-25 mushroom).

For the treatment of differently colored mushrooms, such as Shiitakes, a dilute solution is preferably used or a colorant is added to the lipodepsipeptides preparation, because otherwise the treatment would produce white spots.

The treatment of the mushrooms can be done at different times and in different ways. A solution of one or more of the lipodepipeptides can be atomized or sprayed over the culture bed. Furthermore, the culture bed can be poured with a solution containing the compound (s). These treatments take place before harvest.

1008781 3

However, it is also possible to combat the bacterial spot after harvest. It is of course important that the damage has not already been done and that the mushrooms are still intact and undamaged. The post-harvest treatment may, for example, consist of spraying or spraying with a solution containing one or more lipodepipeptides.

The compound (s) can be administered at a concentration between 1 mg / l and 1 g / l, preferably 10 0.1 g / l. For example, 10 ml of the compound is administered per kilogram of mushrooms.

The invention further relates to edible mushrooms, which are the result of a method according to the invention.

In addition, the invention relates to a composition of one or more lipodepipeptides for the treatment of bacterial blotch disease in edible fungi.

The present invention will be further elucidated by the following examples, which are intended to be illustrative only and in no way limit the invention.

EXAMPLES 25 EXAMPLE 1

Inhibition of browning by WLIP at different concentrations of P.tolaasii

A WLIP preparation was prepared by an overnight culture of Pseudomonas reactans. grown in a suitable medium, by centrifugation. The supernatant was stored frozen. After thawing, the supernatant was filtered and acidified. The resulting precipitate was collected and resuspended in water.

The pH of the solution was made slightly alkaline, and the preparation was filtered. The filtrate was then acidified again. The resulting precipitate was collected and dried. This is called "crude extract of WLIP".

1008781 4

Hats of the common mushroom (A. bisoorus UI) were treated with water (dark bars) or with the crude extract of WLIP (light bars) at a concentration of 6.6 mg / ml. The hats were then infected with different concentrations of Pseudomonas tolaasii. The browning was measured with a Minolta colorimeter and observed after 2 days incubation at 18 ° C. The degree of browning was calculated by deriving AE from the changes in the L, a and b parameters according to the formula: _____ ^ AE = VUL) 2 + (Aa) 2 + Ub) 2.

The results are shown in Fig. 2.

EXAMPLE 2

15 Inhibition of brown discoloration by different concentrations of WLIP

Hats of the common mushroom (A. bisporus UI) were treated with different concentrations of a crude extract of WLIP. Subsequently, the hats were infected with Pseudomonas tolaasii at a concentration of 5.5 x 107 cells per ml (dark bars) or 1.3 x 107 (light bars) and the browning was observed after 2 days incubation at 18 ° C . The results are shown in Fig. 3.

25 EXAMPLE 3

Inhibition of browning by WLIP in the time

Hats of the common mushroom (A. bisporus UI) were treated with water (solid line) or a crude extract of WLIP at a concentration of 6.6 mg / ml (dotted line). Subsequently, the hats were infected with 4.6 x 107 (Fig. 4a) or 1.3 x 107 (Fig. 4b) Pseudomonas tolaasii. incubated at 18 ° and the browning was monitored for 4 days.

35 1008781 5 EXAMPLE 4

Inhibition of brown discoloration by WLIP at different temperatures

Hats of the common mushroom (A. bisporus UI) 5 were treated with water (dark bars) or a crude extract of WLIP at a concentration of 2.4 mg / ml (light bars). The hats were then infected with different concentrations of Pseudomonas tolaasii. Incubation took place for 2 days at 4 ° C (Fig. 5b) or 18 ° C (Fig. 5a). The brown discoloration was then determined.

EXAMPLE 5

Inhibition of brown discoloration by different concentrations of WLIP

Hats of the common mushroom (A. bisporus UI) were treated with different concentrations of pure WLIP.

Pure WLIP was prepared from the preparation described in Example 1. To this end, this preparation was taken up in an alcohol, dried, taken up again in this alcohol and the precipitate was collected and dried. The WLIP preparation was taken up in water and stored frozen.

Subsequently, the hats were infected with Pseudomonas tolaasii at a concentration of 7.6 x 106 cells per ml and the browning was observed after 2 days incubation at 18 ° C. The results are shown in Fig. 6.

It appears that in all cases the browning of the hats treated with WLIP is significantly lower than that of the hats treated with water.

.1 0 0 8781

Claims (13)

A method for combating bacterial blotch disease in edible fungi, comprising treating the fungi with one or more lipodepsi peptides. Method according to claim 1, characterized in that the lipodepipeptides are selected from WLIP and viscosine. 3. Method according to claim 1 or 2, characterized in that the treatment is effected by spraying a solution of the lipodepsipeptide (s) on the mushrooms. Method according to claims 1 or 2, characterized in that the treatment is effected by spraying the mushrooms with a solution of the lipodepipipeptide (s). Method according to claims 1 or 2, characterized in that the treatment is effected by administering the lipodepsipeptide (s) in the irrigation water of the mushrooms. Method according to claims 1-5, characterized in that the treatment takes place before the harvesting of the mushrooms. 7. Method according to claims 1-4, characterized in that the treatment takes place after the harvesting of the mushrooms. Method according to claims 1-7, characterized in that the lipodepsipeptide (s) is administered in a concentration between 1 mg / l and 1 g / l. 9. A method according to claim 8, characterized in that about 10 ml of a solution of the lipodepsipeptide (s) is administered per kilogram of mushrooms. Method according to claims 1-9, characterized in that the mushrooms are selected from the species 35 Agaricus bisoorus. Aaaricus arvensis. Aqaricus bitorauis. Flamulina velutipes. Pleurotus spec. 1008781 « A method according to claims 1-9, characterized in that a colorant is added to the lipodepsipeptide (s) and the mushrooms are selected from non-white species, such as Shiitake. Edible mushroom, which is the result of a method according to claims 1 to 11. 13. Solution of one or more lipodepipeptide (s) for use in combating bacterial blight disease in edible fungi. 1008781