RU2227503C1 - Method for cryoconservation of juicy plant raw material - Google Patents

Abstract

FIELD: agriculture, food industry. SUBSTANCE: the present innovation deals with cryoconservation technology of juicy plant raw material due to freezing. Before freezing plant raw material should be treated with preparation obtained out of Mortierella spinosa micromycete biomass by the preset technology. Then plant raw material should be kept for about 2-5 h. EFFECT: more prolonged ultimate terms of storage.

Description

The invention relates to the technology of preserving juicy plant materials by freezing.

There is a method of cryopreservation of juicy plant material, providing for its freezing and storage at freezing temperature (Frampolskaya TV, Biochemical substantiation of the technology of cold preservation of vegetable pepper (Capsicum L.) sweet varieties. Abstract of dissertation, Ph.D. - Krasnodar: KPI , 1993).

The disadvantages of this method are a significant drop in the water-holding ability of the raw material, which impedes its industrial processing, and a short shelf life.

The technical result of the invention is to reduce the drop in the water-holding ability of raw materials and increase the maximum shelf life.

This result is achieved by the fact that in the method of cryopreservation of juicy plant materials, which involves freezing and storing them at a freezing temperature, according to the invention, before freezing, the raw materials are treated with a preparation obtained by sequential extraction of biomass of micromycete Mortierella spinosa with a non-polar extractant in a supercritical state, water, alkali, , acid, water, alkali and water, followed by combining the first extract with a solid residue, in an amount of 1-1 · 10 ⁴ mg / t and having stood ayut 2-5 hours

The method is implemented as follows.

The dry biomass of the micromycete Mortierella spinosa is extracted with a non-polar extractant, for example carbon dioxide or hexane, in a supercritical state. At this stage, the first extract is separated, which is used later in the preparation. Next, the biomass is sequentially extracted with water, alkali, water, acid, water, alkali and water. The solid residue obtained after completion of all the extraction steps listed above is combined with the first extract. The composition of the obtained preparation consists mainly of chitosan and higher polyunsaturated fatty acids, including arachidonic and eicosapentaenoic, and does not include toxic, carcinogenic, mutagenic and anti-nutritional substances, which allows the use of the preparation for processing raw materials for food purposes.

Succulent plant materials are treated with the obtained preparation in the amount indicated above and incubated for 2-5 hours. Neither chitosan, nor any of the aforementioned acids interact with the receptors of higher plants and integrate into their membranes, with up to 90% of exogenously added acids being detected within the first hour in the lipids of plant materials, mainly in its phospholipids, and the main part of chitosan and the residue of acids are immediately assimilated. Since the combination of the listed acids with chitosan is a synergistic elicitor, and the composition of the biomass micromycete Mortierella spinosa does not include substances that can inhibit this type of activity, their assimilation leads to the formation of an immunization signal at the cellular level, which plant tissues realize after 2-5 hours from the introduction of the mixture. As a result, ultrastructural restructuring of plant tissues occurs, aimed at increasing the strength of cell membranes and the accumulation of native cryoprotectants. As a result, cryo dehydration is reduced during the subsequent freezing of raw materials. Exogenously introduced acids and chitosan held by phospholipids under the action of native enzymes of plant materials are gradually released and maintain the immune status of the raw materials for at least 4 months, which prevents destructive processes in the raw materials during cold storage and stabilizes its water-holding ability for this period. With further storage for about 2 months, the raw material gradually leaves the immunization state with a gradual increase in the rate of decrease in water holding capacity to the level characteristic of the same raw material, frozen and stored under the same conditions without preliminary treatment with exogenous elicitors. As a result, the shelf life of raw materials processed by the proposed method is increased by at least 4 months compared with the closest analogue.

To obtain correct comparative data, the proposed technology was tested on the same sweet pepper varieties that are described in the closest analogue: Gift of Moldova, Wax-shaped Senyushkina, Kapitoshka, hybrid 2a-744 and Cross 533 hybrid in the technological and biological stage of maturity. The experimental batches were treated with the preparation obtained from the biomass of the micromycete Mortierella spinosa using carbon dioxide as the non-polar extractant, as caustic soda and hydrochloric acid, or hexane, ammonium hydroxide and propionic acid, respectively, in amounts corresponding to the boundaries of the specified interval. The fruits in the technological stage of maturity after processing before freezing were kept for 2 hours, and in the biological stage of maturity for 5 hours. None of the tested varieties of sweet pepper processed according to the proposed method, after freezing, the water-holding capacity did not fall below 55%, while at freezing without processing in the closest analogue, such a result was achieved only for the Gift of Moldova variety at the biological stage of maturity when freezing to minus 9 ° С. During storage, the experimental samples retained their water-holding ability at a stable level for 4 months, regardless of the stage of maturity, and control samples only at the stage of biological maturity. With further storage, it was found that in the pepper of the technological stage of maturity of experimental batches starting from 5 months of storage, the water-holding ability begins to decrease at an increasing rate, which excludes the possibility of its industrial processing starting from 8 months. In pepper of the biological stage of maturity, a similar trend was observed from 8 months, but the increase in the rate of decrease in water-holding ability occurred faster, which limits its processing time to 11 months of storage.

Qualitatively similar results were obtained when freezing and storing Veneta and Podarok tomatoes, Belorusskaya sweet, blackcurrant, Obilnaya cherry plum, Kent and Komsomolskaya cherries, and Tuleugrass plums.

Thus, the proposed method can reduce the loss of water-holding ability and increase the shelf life of raw materials.

Claims (1)

The method of cryopreservation of juicy plant materials, providing for their freezing and storage at freezing temperature, characterized in that before freezing, the raw materials are treated with a preparation obtained by sequential extraction of biomass of micromycete Mortierella spinosa non-polar extractant in a supercritical state, water, alkali, water, acid, water, alkali, water and water, followed by combining the first extract with a solid residue, in an amount of 1-1 · 10 ⁴ mg / t and incubated for 2-5 hours