SU1325072A1 - Strain of micromicetes trichoderma harzianum vkpm f-319 as producer of feed protein - Google Patents

Abstract

This invention relates to the microbiological industry and relates to a new micromycete strain that can be used in the production of feed protein on corn stalks. The aim of the invention is to obtain a new strain of micromycete, which has a high level of protein biosynthesis in the process of bioconversion of lignocellulose-containing raw material without its preliminary processing. The strain Trichoderma harzianum VKPM F-319 (QC) was obtained by natural selection of microorganisms capable of growing on a mineral medium containing corn cobs. During surface fermentation, the culture is able to synthesize up to 21% of the protein in the finished substance. 1 tab. (L with ECA: d vj to

Description

This invention relates to the microbiological industry and relates to a new micromycete strain that can be used in the production of feed protein on corn stalks.

The aim of the invention is to obtain a new strain of micromycete, which has a high level of protein biosynthesis in the process of bioconversion of lignocellulose-containing raw material without its preliminary processing.

The Trichoderma harzianum VKPM F-319 (QC) strain is obtained during the natural selection of microorganisms capable of growing on a mineral medium in which ground corn stalks are contained as the sole carbon source.

The resulting strain has the following culture: 20, it is capable of synthesizing properties.

Macromorphology. The colonies on the wort agar are green, relatively dense, with concentric zones. The colonies on Czapek's agar are relatively dense, separate pads loom.

Micromorphology. Hyphae of mycelium are colorless, with septa, conidia-bearing branches, 40-60 microns. Conidia are crowded in heads (10–20 µm), round or oval, smooth 2.5–3.5 µm, dark green.

Physiological and biochemical features. Obligate aerobic, optimum temperature 26-23 s, optimum pH 5.5-7.0, Growth factors are not required, but the culture accelerates growth if autolysate is added to the synthetic medium

Laboratory

Crushed corn stalks, g3,2

Salt solution ((NH) d 80 .3%; Kj, HPO 0.3%; tap water), mg 8

Crushed corn stalks, G2.9

Wheat bran, g

yeast, wheat bran, organic plant juice, i.e. substrates containing sources of organic nitrogen and biofactors of growth.

1 1 Tamm is a producer of cellulase and is able to transform cellulose lignin agricultural waste into protein. The process of proteinization proceeds well on corn plants.

scaffolds by the surface method of cultivation of the producer.

The product synthesized by the strain is a protein-containing feed additive based on corn stalks,

When testing for mice, the strain after 14 days does not cause adverse effects in the body,

In the process of bioconversion of corn stalks at the surface fer

eat up to 21% protein, i.e. the protein content in the feed additive is seven times higher than untreated corn stalks.

In laboratory conditions, the culture of Trichoderma harzianum QC is grown on spit wort agar for 3–4 days at 28i C, which is further used as a seed.

30 materials (2 ml of suspension of culture on one Petri dish).

The process of bioconversion of corn stalks is carried out on Pe cups; three on nutrient medium containing

35 corn stalks, nitrogen source and growth biofactors.

The composition of the medium is presented in the table.

35.7

0.3 13.3

47.0

Tap water ml8

Ground Corn

cabbage sticks, g3.0

Cornmeal, r0,2

Tap water, ml8,0 Crushed corn

cabbage stalks, wheat bran, g

Brown plant juice, ml

Tap water, ml 4.0

Semi-conditions

Ground Corn

cabbage sticks, kg1,1

Wheat bran, kg 0.5 17.9 Piped water, l 4.0

Ground Corn

stalk 3.0

The culture on the Petri dishes is grown in a thermostat for 3-4 days.

According to the table it can be seen that the rate of protein synthesis depends on the composition of the nutrient medium. The best results on protein synthesis are obtained on a nutrient medium containing corn stalks, 10% wheat bran and 4% brown plant juice. In this embodiment, the protein content is 20.6% and feed digestibility is 64.0%, t, e, protein content seven times more and the digestibility of food is six times higher compared to untreated corn stalks.

Table continuation

15.5

63.0

2.2 1.0

4.0 20.6

6A, 0

60.0

9.6

Under semi-extruded conditions, the seed of Trichoderma harzianum QC is grown on etri plates in a nutrient medium containing 20% ground corn stalks, 9% wheat bran and 71% tap water. Seed material is grown in a heat chamber at 28 -1 C for 3-4 days.

The main fermentation was carried out on cuvettes of size 0, 5 m for 4 days at room temperature, followed by drying the fermentation mass at a temperature not higher than EO C to a moisture content not higher than 10%.

513250726

Claims (1)

The resulting feed contains 18% pro formula of thein invention and is characterized by six times Increased digestibility in comparison with strains of micromycete Trichoderma harmony with untreated corn zianum VKPM F-319 - producer of bark cells.