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Method for preparing oligomeric acid potassium or oligomeric acid ammonium and application thereof

A technology of potassium polyacid and oligomeric acid, which is applied in the direction of oligosaccharides, disaccharides, fermentation, etc., can solve the problems of oligomeric acid salts, and achieve easy control of reaction conditions, strong growth regulation function, and low price Effect

Active Publication Date: 2009-09-16
王士奎
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

At present, there are many research reports on oligosaccharides at home and abroad, but there are no related reports on oligosaccharides used to regulate the metabolic activities of plants or animals.

Method used

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  • Method for preparing oligomeric acid potassium or oligomeric acid ammonium and application thereof
  • Method for preparing oligomeric acid potassium or oligomeric acid ammonium and application thereof
  • Method for preparing oligomeric acid potassium or oligomeric acid ammonium and application thereof

Examples

Experimental program
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Effect test

Embodiment 1

[0057]Take 100 kg of dextran into a 300-liter reactor, add 150 kg of water, stir well, add 2 kg of glucosidase, adjust the pH value to 5.5, control the temperature at 40 ° C, stir and hydrolyze for 10 hours, and detect the molecular weight of 5000 Stop the reaction after about 10 minutes, filter to remove impurities, add 1% potassium permanganate to the filtrate, react at 80°C for 5 hours, stop the reaction with 1% vitamin C, remove impurities by sodium filtration and ion exchange, control the temperature below 10°C, add 5% potassium hydroxide, stop the salt-forming reaction when the pH value reaches 7.0, and spray dry to form solid yellow potassium oligoacid powder. The yield is greater than 85%.

[0058] The prepared potassium oligoacid was analyzed by infrared spectrum and nuclear magnetic resonance.

[0059] 1. Infrared spectral analysis:

[0060] The infrared spectrum analysis chart is attached figure 1 .

[0061] as attached figure 1 As shown, at 3416.80cm -1 The h...

Embodiment 2

[0069] 1. Select cellulose, lignin and hemicellulose as raw materials for extracting dextran, and grind the raw materials to 50 mesh;

[0070] 2. Acid leaching: Soak the pulverized dextran raw material with 0.5% sulfuric acid with a mass percentage concentration of 5 times that of the dextran raw material at a temperature of 25°C for 24 hours, and soak the dextran after acid leaching Wash with water until the pH value is neutral, and dry at 60°C;

[0071] 3. Alkali leaching: add sodium hydroxide with a mass percentage concentration of 20%, the weight of sodium hydroxide is 8 times that of dextran, soak at 40°C for 20 hours; wash the dextran after alkali leaching with water until the pH value is neutral , drying at 60°C;

[0072] 4. 200-mesh crushing to obtain clean dextran;

[0073] 5. Add the pretreated dextran to the water with the same weight as the dextran to moisten and soak, adjust the pH value to 4, add 1% dextran by weight to the dextran, and react at 30°C for 20 hou...

Embodiment 3

[0078] 1. Select beer yeast cell wall polysaccharide as the raw material for extracting glucan, and grind the raw material to 100 mesh;

[0079] 2. Acid leaching: soak the pulverized dextran raw material with 10% hydrochloric acid with a mass percentage concentration of 4 times that of the dextran raw material at a temperature of 50°C for 3 hours; wash with water until the pH value is neutral, Dry at 80°C;

[0080] 3. Alkaline leaching: add sodium hydroxide with a concentration of 50% by mass and 7 times the weight of dextran, soak at 90°C for 8 hours; wash with water until the pH value is neutral, and dry at 80°C;

[0081] 4. 300 mesh crushed to obtain clean dextran;

[0082] 5. Soak the pretreated glucan in water with a weight ratio three times that of the dextran, adjust the pH to 7, add glucan sidase with a weight of 5% of the dextran, and react at 50°C for 3 hours. Heat up to 100°C for 2 hours to terminate the reaction, filter, concentrate the oligosaccharide concentrat...

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Abstract

The invention relates to a method for preparing oligomeric acid potassium or oligomeric acid ammonium, in particular to a method for preparing the oligomeric acid potassium or the oligomeric acid ammonium through the biological decomposition and the oxidation of dextran. The method decomposes the dextran into oligosaccharide through glucosidases and then produces the oligomeric acid potassium or oligomeric acid ammonium through oxidation and salt-forming reaction. The oligomeric acid potassium or oligomeric acid ammonium produced by the method is a novel substance, is not easy to be decomposed in natural state and has strong stability, thus the oligomeric acid potassium or the oligomeric acid ammonium has strong function in growth regulation. The method combines a biological engineering technique and a fine chemical industrial technique, has simple operation, and is suitable for large-scale industrial production.

Description

technical field [0001] The invention relates to a method for preparing potassium oligoacid or ammonium oligoacid, in particular to a method for preparing potassium oligoacid or ammonium oligoacid from dextran through biodegradation and oxidation. Background technique [0002] There are a large number of glucan resources based on plants and microorganisms in nature, which can be degraded into low-molecular substances with strong biological activity through physical, chemical or biological engineering methods, especially regulators that can regulate plant growth , is of great significance in agricultural production. [0003] Oligosaccharides regulate the growth and development of plant seeds such as germination, rooting, growth, flowering, fruiting, aging, shedding, dormancy, etc., and their content in plants is very small, but they play very important physiological functions. All life activities of plants are inseparable. open their participation. The research and applicati...

Claims

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Application Information

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IPC IPC(8): C12P19/14C08B37/02C07H3/06C07H3/04
Inventor 王士奎
Owner 王士奎
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