WO2016161549A1 - 一种使用自溶工艺生产好氧型单细胞蛋白的方法 - Google Patents
一种使用自溶工艺生产好氧型单细胞蛋白的方法 Download PDFInfo
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- WO2016161549A1 WO2016161549A1 PCT/CN2015/075972 CN2015075972W WO2016161549A1 WO 2016161549 A1 WO2016161549 A1 WO 2016161549A1 CN 2015075972 W CN2015075972 W CN 2015075972W WO 2016161549 A1 WO2016161549 A1 WO 2016161549A1
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- A—HUMAN NECESSITIES
- A23—FOODS OR FOODSTUFFS; TREATMENT THEREOF, NOT COVERED BY OTHER CLASSES
- A23J—PROTEIN COMPOSITIONS FOR FOODSTUFFS; WORKING-UP PROTEINS FOR FOODSTUFFS; PHOSPHATIDE COMPOSITIONS FOR FOODSTUFFS
- A23J1/00—Obtaining protein compositions for foodstuffs; Bulk opening of eggs and separation of yolks from whites
- A23J1/008—Obtaining protein compositions for foodstuffs; Bulk opening of eggs and separation of yolks from whites from microorganisms
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K1/00—General methods for the preparation of peptides, i.e. processes for the organic chemical preparation of peptides or proteins of any length
- C07K1/14—Extraction; Separation; Purification
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- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12N—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
- C12N1/00—Microorganisms, e.g. protozoa; Compositions thereof; Processes of propagating, maintaining or preserving microorganisms or compositions thereof; Processes of preparing or isolating a composition containing a microorganism; Culture media therefor
- C12N1/06—Lysis of microorganisms
Definitions
- the present invention relates to the field of single cell protein processing technology, and more particularly to a method for producing aerobic single cell protein using an autolytic process.
- Single cell protein also known as microbial protein or bacterial protein, uses industrial wastewater, waste gas, natural gas, petroleum alkanes, agricultural and sideline products, and organic waste as medium to culture yeast and non-pathogenic sources.
- Single-cell organisms such as bacteria, micro-bacteria, and fungi, which are then purified and dried, are important sources of protein for the food industry and the feed industry.
- Single-cell protein products are rich in protein, and the proportion of amino acids is appropriate.
- Single-cell proteins are also rich in fats, carbohydrates, nucleic acids, vitamins and inorganic salts, and contain mineral elements such as calcium, phosphorus, potassium, iron, magnesium, sodium and manganese, as well as a variety of enzymes.
- Yeast and yeast hydrolysate have been successfully used in animal feed for the replacement of fish meal protein, animal immunity enhancement, and improvement of feed taste.
- Nucleotides and their derivatives in single-cell proteins have very important physiological and biochemical functions. The main functions are: as a raw material for RNA and DNA synthesis; as a regulator of metabolism; as a component of coenzymes, such as coenzyme A; An important intermediary for glycoprotein synthesis, it is also a mediator of phospholipid synthesis, activating intermediates; participating in the transmission of genetic information; ATP is the direct energy of life processes; AMP regulates the contractility of smooth muscle and regulates blood flow; A donor of methyl or the like.
- the single-cell protein products that have been or are undergoing industrial development are currently less diverse, mainly focusing on the cultivation and production of single-cell proteins using products or by-products with low safety risks and from the food industry as raw materials.
- the wine needs to meet strict food safety standards during production, and the biological, chemical and physical hazards of the organic by-products and yeast proteins produced by the wine are minimized, thus providing a reliable safety guarantee for the application of the feed industry.
- the invention patent WO2009059163A1 provides a method for culturing a single cell protein, and the cultured single cell protein can be used as a high quality protein source in animal feed, which uses a waste water produced by a food or beverage processing factory such as a brewery as a bacterial culture.
- Liquid medium Beverage wastewater is rich in nutrients such as organic matter, nitrogen and phosphorus, and there is no pollution of harmful microorganisms and toxic chemicals. Although these wastewaters have no value for beverage factories, the treatment of wastewater containing organic matter and nitrogen and phosphorus will pay a large amount. Cost, from the perspective of microbial culture, nutrients in wastewater can be a nutrient-rich medium that can be used to produce specific single-cell proteins.
- the invention patent WO2009059163A1 can produce a single-cell protein product with high protein content and high nutritional value by regulating the proportion of various nutrients in the wastewater and using genetically modified bacteria, the single-cell protein is a mixture of bacteria, mainly containing Aerobic bacteria such as micrococci, Bacillus, nitrifying bacteria, and Alcaligenes.
- Aerobic bacteria such as micrococci, Bacillus, nitrifying bacteria, and Alcaligenes.
- the nutrient content of the beverage wastewater will decrease after the cultivation of microorganisms, which reduces the degree of water pollution.
- the patented technology can achieve high-quality protein production and reduce the concentration of organic matter in the wastewater to below the legal standard, thereby having economical and The dual value of environmental protection, so the technology has very good industrialization prospects.
- the single cell protein cultured by the invention patent WO2009059163A1 has been found to contain a large amount of endogenous enzymes, including nucleases, proteases and lysozyme. These enzymes can decompose macromolecular nutrients, so endogenous enzymes using autolysis technology bacteria can enzymatically resolve a variety of active substances, such as free amino acids, nucleotides, monosaccharides and the like.
- the existing process is directly dried and microwave sterilized after dehydration, which destroys most of the endogenous enzymes, and thus does not produce active substances;
- the single-cell protein has a high content of nucleic acid, and the ordinary process does not decompose the nucleic acid into nucleotides and is still in the cell, and the nucleic acid can be decomposed into nucleotides by a certain method to apply the single-cell protein to the animal. Feed has two distinct effects of attracting and immunizing, and the current process does not consider how to decompose nucleic acids into high-value nucleotides.
- the Chinese patent No. 201410055658.2 discloses a method for preparing single cell protein powder by using biological mud, which is a resource recovery method for producing single cell protein (SCP) by using biological mud, and concentrating biological sludge discharged from the biological aquaculture system. After that, after centrifugation dehydration, hot air instantaneous drying, rapid cooling of the airflow, and microwave sterilization, a single cell crude protein powder can be obtained.
- This patent is a prior application of the Division, but due to the lack of autolysis process, cellular protein utilization efficiency is low.
- Autolysis refers to the hydrolysis of high molecular substances in bacteria into amino acids and nucleotides by their own endogenous enzymes (protease, nuclease, lysozyme, etc.). When the process of small molecules such as sugar.
- the autolysis process is a more complex process and is affected by many factors, including bacterial species, moisture content, temperature, pH, time, and endogenous enzyme species. More importantly, under natural conditions, autolysis is not a single process. It is the former process of organisms' corruption after death. Macromolecules are autolyzed and decomposed into amino acids, nucleotides and other nutrients. This is a spoilage microorganism. Growth provides an important source of nutrition. Therefore, the results of autolysis are also largely different due to microbial species, autolytic conditions, target products, etc., and failure of autolysis causes spoilage products such as ammonia, hydrogen sulfide, trimethylamine, and the like.
- Patent Nos. 2008800240991 and 2011102810796 disclose that the yeast is treated with an autolysis process to produce yeast autolysate to enhance the flavor of the product.
- the raw materials used in this patent application are anaerobic bacteria.
- the bacterial characteristics are quite different from those of aerobic bacteria.
- the way of autolysis is also very different. For example, the time of autolysis of anaerobic bacteria is more Long, need to add enzymes to promote autolysis, anaerobic autolysis has more restrictions on the reaction vessel, water content, pH, temperature, etc., and the product is difficult to control, easy to produce high levels of spoilage products.
- the object of the present invention is to remedy the above-mentioned shortcomings and defects in the preparation of single cell proteins, and to provide a high quality, active ingredient-rich method for producing aerobic single cell proteins using an autolytic process.
- a method for producing aerobic single cell protein using an autolytic process including a precipitation concentration step, a centrifugal dehydration step, a drying step, a sterilization step, and a pulverization packaging step, which is obtained after the centrifugal dehydration step, is designed.
- the material having a moisture content of % to 85% is subjected to a drying step after the autolysis step, and the autolysis step is as follows:
- the autolytic equipment is heated by heating to the twin-screw hollow blade to reach the temperature requirement of self-dissolving, and the time requirement of autolysis is achieved by designing and adjusting the volume of the cavity matched with the feeding speed;
- the 1/4 to 1/2 segment of the twin-screw hollow blade of the autolytic device is a heating section, the purpose is to heat the material to the temperature required for autolysis, and the remaining segment is a heat preservation section to keep the material self-dissolving Temperature
- the temperature requirement for autolysis is: the temperature of the heated material is maintained at 65 ° C ⁇ 95 ° C;
- the time requirement for autolysis is: the heating section should heat the material to the target temperature for less than 30 minutes, and the autolysis time of the holding section should be 30 minutes to 360 minutes;
- the moisture requirement of the self-dissolving material is: the moisture content of the material after autolysis is not less than 70%;
- the sterilization step is performed by microwave sterilization.
- the heated material temperature is maintained at 65 ° C to 80 ° C, and the autolysis time is 1 to 3 hours.
- Precipitation concentration the bacterial protein produced by the bioreactor is discharged into the sedimentation concentration tank through the pipeline, and the bacterial protein is precipitated at the bottom of the conical concentration tank, and the moisture content of the bottom material is reduced to below 97%, and the subsequent dehydration can be performed.
- Centrifugal dehydration solid-liquid separation is carried out using a spiral horizontal centrifugal device. After centrifugation, the moisture content of the material is reduced to 78%-85%, and the material is wet mud; the water removed by centrifugation is extracellular to the bacterial protein. Moisture, intracellular water still remains in the cells, which creates conditions for autolysis of endogenous enzymes in the cells. After centrifugation, materials with 78% to 85% moisture content can be autolyzed;
- the autolytic equipment is heated by heating to the twin-screw hollow blade to reach the temperature requirement of self-dissolving, and the time requirement of autolysis is achieved by designing and adjusting the volume of the cavity matched with the feeding speed;
- the autolytic device uses a heat transfer oil or steam to heat the hollow blade
- the temperature requirement for autolysis is: the temperature of the heated material is maintained at 65 ° C ⁇ 95 ° C;
- the time requirement for autolysis is: the heating section should heat the material to the target temperature for less than 30 minutes, and the autolysis time of the heat preservation section should be 30 minutes to 360 minutes;
- the moisture requirement of the self-dissolving material is: the moisture content of the material after autolysis is not less than 70%;
- the dried material is transported to the tunnel type microwave drying and sterilizing equipment through the airflow lifting device for sterilization; the moisture content of the material after the microwave sterilization is 5% to 10%;
- Crushing packaging The sterilized materials are pulverized and packaged into finished products.
- a method for producing aerobic single cell protein using an autolysis process comprising a plurality of pre-processing units and a post-processing unit, the pre-processing unit comprising a precipitation concentration step, a centrifugal dehydration step and a transport step, each of the pre-processing units
- the material of 78%-85% moisture content obtained after the centrifugal dewatering step is cooled and transported to the post-processing unit for centralized treatment, and the post-processing unit comprises a self-dissolving step, a drying step, a sterilization step and a pulverizing packaging step.
- the autolysis steps described are as follows:
- the material from the pre-processing unit is transported to the holding silo and then transported to the autolytic equipment for autolysis treatment;
- the autolysis device raises the temperature by heating the twin-screw hollow blade to reach the temperature requirement of self-dissolving, and achieves the time requirement of autolysis by designing and adjusting the volume of the cavity matched with the feeding speed;
- the 1/4 to 1/2 segment of the twin-screw hollow blade of the autolytic device is a heating section, the purpose is to heat the material to the temperature required for autolysis, and the remaining segment is the heat preservation section to keep the material self-dissolving temperature;
- the temperature requirement for autolysis is: the temperature of the heated material is maintained at 65 ° C ⁇ 95 ° C;
- the time requirement for autolysis is: the heating section should heat the material to the target temperature for less than 30 minutes, and the autolysis time of the heat preservation section should be 30 minutes to 360 minutes;
- the moisture requirement of the self-dissolving material is: the moisture content of the material after autolysis is not less than 70%;
- the sterilization step is performed by microwave sterilization.
- the heated material temperature is maintained at 65 ° C to 80 ° C, and the autolysis time is 60 to 180 minutes.
- the specific method steps are as follows:
- Precipitation concentration the bacterial protein produced by the bioreactor is discharged into the precipitation concentration tank through a pipeline, and the bacterial protein is precipitated at the bottom of the conical concentration tank, and the moisture content of the bottom material is reduced to 97% or less, and the subsequent dehydration process can be performed;
- Centrifugal dehydration solid-liquid separation is carried out using a spiral horizontal centrifugal device. After centrifugation, the moisture content of the material is reduced to 78% to 85%, and the material is in a wet mud state; the water removed by centrifugation is a cell of cell protein. External moisture, intracellular water still remains in the cells, which creates conditions for autolysis of endogenous enzymes in the cells; 78% to 85% moisture content of the material after centrifugation can be autolyzed;
- the material after centrifugation is cooled and transported to the post-processing unit for centralized treatment; the cooling is to cool the material to below 10 °C after centrifugation; the transportation is the wet mud produced by the pre-processing unit by the insulated truck
- the material is shipped to the post-processing unit for subsequent processing; the transportation time should be within 0 to 12 hours, and the material temperature of the processing unit after the material arrives is not higher than 5 ° C when the material temperature leaves the pre-processing unit;
- Autolysis The material from the pre-processing unit is transported to the thermal storage silo, and then transported to the auto-dissolving equipment for autolysis treatment; the auto-dissolving equipment is heated by supplying heat to the twin-screw hollow blade to reach the autolysis temperature requirement.
- the time of autolysis is determined by designing and adjusting the volume of the cavity matched with the feed rate; the 1/4 to 1/2 segment of the twin-screw hollow blade of the autolytic device is a heating segment, and the purpose is The material is heated to the temperature required for autolysis, the remaining segment is the heat preservation section, and the material autolysis temperature is maintained; the temperature requirement of the autolysis is: the temperature of the heated material is maintained at 65 ° C to 95 ° C; the time of autolysis is required : The heating section should heat the material to the target temperature for less than 30 minutes, and the autolysis time of the thermal insulation section should be 30 minutes to 360 minutes; the moisture content of the autolyzed material is: the moisture content of the self-dissolving material should not be lower than 70%;
- the autolyzed material is sent to the airflow flash drying equipment for drying through the Qualcomm feeder;
- the flash dried material contact temperature should be lower than 100 ° C, and the moisture content of the dried material should be 10% to 40%;
- the dried material is transported to the tunnel type microwave drying and sterilizing equipment through the airflow lifting device for sterilization; the moisture content of the material after the microwave sterilization is 5% to 10%;
- crushing packaging the sterilized materials are pulverized and packaged into finished products.
- the above two kinds of autolysis equipment include: pulley, reducer, transmission gear, cover plate, feed inlet, heating hollow blade, insulated hollow blade, overflow plate, discharge port, steam inlet and outlet, motor, main engine
- the casing and the transmission main shaft are provided with a cover plate at the top of the main casing, and a transmission main shaft is arranged in the main casing, the twin-screw hollow blade is arranged on the transmission main shaft, the feeding port is arranged on the cover plate, and the bottom of the main casing is provided
- the material inlet has an overflow plate near the discharge port in the main casing, and one end of the transmission main shaft is connected with the transmission gear, and the transmission gear meshes with the output end gear of the reducer, and the input end of the reduction gear is connected to the motor output end through the pulley, and the other end of the transmission main shaft is connected.
- Steam or heat transfer oil inlet and outlet, the 1/4 to 1/2 segment of the twin-screw hollow blade is a heating section, and the remaining section
- a method for producing aerobic single-cell protein by using an autolysis process comprising a precipitation concentration step, a drying step, a sterilization step, and a pulverization packaging step, and discharging the bacterial protein produced by the bioreactor into a sedimentation concentration tank through a pipeline, and the bacteria
- the body protein is precipitated at the bottom of the conical concentration tank, and the moisture content of the bottom material is reduced to 97-98%.
- the bottom material of the concentration tank is sent to the autolysis apparatus using a pump to perform the autolysis step.
- the dissolution steps are as follows:
- the autolytic device is a vertical enzymatic reaction tank, and is rapidly heated by introducing steam into the interlayer of the enzymolysis tank, and is heated to be infused with low pressure steam for heat preservation and autolysis reaction;
- the autolytic device is stirred using a frame type, paddle type or propelled blade and the temperature in the tank is kept uniform;
- the temperature requirement for autolysis is: the temperature of the heated material is maintained at 65 ° C ⁇ 95 ° C;
- the time requirement for autolysis is: the heating section should heat the material to the target temperature for less than 30 minutes, and the autolysis time of the holding section should be 30 minutes to 360 minutes;
- the sterilization step is performed by microwave sterilization.
- the heated material temperature is maintained at 65 ° C to 80 ° C, and the autolysis time is 60 to 180 minutes.
- the autolysing step may be additionally added with an enzyme preparation to promote autolysis and increase the content of the autolyzed product, and the enzyme preparation is protease, and the added amount is 0.5% to 2.0% of the dry matter of the enzymatic decanting material.
- Precipitation concentration the bacterial protein produced by the bioreactor is discharged into the sedimentation concentration tank through the pipeline, and the bacterial protein is precipitated at the bottom of the conical concentration tank, and the moisture content of the bottom material is reduced to 97-98%, which can be followed.
- the autolytic equipment is a vertical enzymatic reaction tank, which is rapidly heated by introducing steam into the interlayer of the enzymolysis tank, and is heated to be infused with low pressure steam for heat preservation and autolysis reaction;
- the autolytic device is stirred using a frame type, paddle type or propelled blade and the temperature in the tank is kept uniform;
- the temperature requirement for autolysis is: the temperature of the heated material is maintained at 65% to 95 ° C;
- the time requirement for autolysis is: the heating section should heat the material to the target temperature for less than 30 minutes, and the autolysis time of the holding section should be 30 minutes to 360 minutes;
- the autolyzed material is transported to a drying device by a transfer pump for drying, the drying device may be a spray drying device, the moisture content of the dried material is 10 to 20%;
- the dried material is transported to the tunnel type microwave drying and sterilizing equipment through the airflow lifting device for sterilization, and the moisture content of the material after the microwave sterilization is 5% to 10%;
- the autolysis step is added to the enzyme preparation to promote autolysis and increase the content of the autolysate, and the enzyme preparation is protease, and the addition amount is 0.5% to 2.0% of the dry matter of the enzymatic solution material.
- An aerobic single cell protein prepared by the above three methods, having a moisture content of aerobic single cell protein of 5.0% to 10.0% using a bacterial protein having a protein content of 33% to 60%; protein The content is 33.0%-60.0%; the free nucleotide of the unit protein is not less than 1.40%; the free base of the unit protein is not higher than 0.90%; the ratio of free base to free nucleotide should be in the range of 0-0.60.
- the autolysis process is used.
- the autolysing enzyme fully decomposes the macromolecular nutrients and the cell wall, and the autolysate can produce a higher content of free amino acids and free nucleotides, and at the same time, the cell wall polysaccharide is decomposed and the cells are made. Produces permeability to ensure that the active substance can flow out of the cell, so that it can be directly absorbed and utilized by the animal;
- the autolysis process does not require the extracellular water of the bacterial protein, and the endogenous enzyme can function in the microenvironment of the cell. Therefore, autolysis is performed after centrifugal dehydration to ensure high efficiency of autolysis. It can also reduce the moisture content required for the drying process after autolysis, thereby reducing the drying cost;
- the self-dissolving equipment used has a fast heating temperature, easy temperature control, and the residence time of the material in the equipment is controllable, which can ensure that the bacterial protein is autolyzed under the optimum parameter conditions;
- the manufactured product is not only a functional protein feed material with high protein content and multiple active ingredients and various physiological functions.
- the physiological functions include: attracting food and improving feed intake, taste, odor improvement, immune function , liver and liver protection, anti-stress, prevent diarrhea, high quality, high efficiency rate of protein; in animal experiments have better performance than non-autolyzed bacterial protein;
- the new process takes into account that the productivity of post-processing autolysis, drying and other processes is significantly higher than that of single-cell protein culture and dehydration capacity, and the entire processing process is divided into two sections, assisted by efficient temperature-controlled transportation methods. By connecting the entire process, it is possible to produce the productivity of all processing equipment, significantly increase productivity, and reduce equipment duplication of investment and thus reduce costs.
- Figure 1 is a chromatogram of a free nucleotide standard in Example 1 of the present invention.
- Figure 2 is a chromatogram of a free base standard in Example 1 of the present invention.
- Figure 3 is a schematic view showing the steps of a method for processing aerobic single cell protein in Example 2 of the present invention.
- Figure 4 is a schematic view showing the steps of a method for processing aerobic single cell protein in Example 3 of the present invention.
- Figure 5 is a schematic view showing the steps of a method for processing aerobic single cell protein in Example 4 of the present invention.
- Figure 6 is a graph showing the measurement of autolysis bases and nucleotides at 60 °C in Examples 2 and 4 of the present invention.
- Figure 7 is a front elevational view of the autolysis apparatus in Embodiments 2 and 3 of the present invention.
- Figure 8 is a side view of the autolysis apparatus in Embodiments 2 and 3 of the present invention.
- Figure 9 is a plan view of the autolytic device in Embodiments 2 and 3 of the present invention.
- FIG. 3 is designated as an abstract drawing of the present invention.
- Example 1 Establishment of a method for detecting free nucleotides and free bases
- Free nucleotides and free bases were used as the main indicators for the adjustment of the autolysis process parameters and the comparison before and after the product autolysis.
- the principle is: yeast, bacterial protein and other raw materials will contain free nuclei after autolysis or enzymatic hydrolysis.
- Glycosyl acid and base the sample extracted by aqueous solution is analyzed by high performance liquid chromatography. The C18 column, UV detector and buffer salt are used as the mobile phase. Five nucleotides and five nucleosides can be used by external standard method. And 5 bases for quantitative determination.
- Free nucleotide refers to the sum of 5 nucleotides and 5 nucleosides, including cytosine, uridine, guanylate, inosine, adenosine, cytidine, uridine, inosine, bird Glycosides, adenosine.
- a free base refers to the sum of five nucleobases, specifically including cytosine, uracil, guanine, thymine, and adenine.
- Single-cell protein products are rich in nucleotides, and yeast products on the market are the main nucleotide providers in the feed industry. Due to the characteristics of the process, products such as autolyzed yeast, enzymatic yeast, and hydrolyzed yeast contain more free nucleic acid hydrolyzates. Many yeast products have been found to contain both free nucleotides and high bases. Free nucleotides can be rapidly absorbed by animals and exert important physiological functions, and bases can adversely affect the liver and kidney of animals. Too much base content means that nucleotides with important nutritional value in the production process are enzymatically hydrolyzed, hydrolyzed or metabolized by microorganisms.
- the reagents used in this method are of analytical grade, and the water is deionized water, in accordance with GB/T 6682.
- Acetonitrile chromatographically pure.
- 20% w/v potassium hydroxide solution 100 g of potassium hydroxide was weighed, dissolved in 500 ml of water, and stored in a volumetric flask.
- Mobile phase A 0.1 M potassium dihydrogen phosphate solution, weighed 27.2 g of potassium dihydrogen phosphate, dissolved in 1000 ml of water, added 1.0 ml of 20% potassium hydroxide solution, and made up to 2 liters with water. The 0.45 um aqueous filter was filtered and used.
- Mobile phase B 25% methanol solution, 250 ml of methanol was dissolved in 750 ml of water, stirred and mixed, and filtered through a 0.45 um organic filter membrane for use.
- Adenylate AMP sigma #A2252.
- Cytidine CMP sigma #C1131.
- Inosinic acid IMP sigma #I2897.
- Disodium guanylate GMP sigma #G8377.
- Uric acid UMP sigma #U1752.
- Adenosine Adenosine sigma #A9251.
- Cytidine Cytidine sigma #C122106.
- Inosine sigma #I4125.
- Uridine Uridine sigma #V900421.
- nucleotide mixture standard solution uric acid, adenylate, disodium guanylate, cytidine, Inosine, guanosine, adenosine, uridine, inosine, cytidine to prepare a mixed standard solution
- each nucleotide concentration is 20.000 ug / ml, 20.000 ug / ml, 20.000 ug / ml, 20.000 ug / ml, 20.00 ug / ml, 10.000 ug / ml, 10.000 ug / ml, 10.000 ug / ml, 10.000 ug / ml, 10.000 ug / ml, 10.000 ug / ml is dispensed into a 0.5 ml cryotube, and stored at -20 ° C, valid for one year.
- Cytosine Cytosine sigma #V900462.
- Thymine Thymine sigma #V900437.
- Adenine Adenine sigma #V900471.
- Preparation of base mixing standard solution sequentially using cytosine, uracil, guanine, thymine, adenine to prepare a mixed standard solution, the concentration of the mixed standard solution base is accordingly 16.00ug/ml, 16.00ug/ml, 20.00ug /ml, 16.00ug/ml, 16.00ug/ml. Dispense into 0.5ml cryotubes, store at -20 °C, valid for one year.
- High performance liquid chromatography system (gradient elution, UV detection, controlled column temperature); column: Athena C18, 4.6 ⁇ 150mm; analytical balance; centrifuge; ultrasonic cleaner; 1mL disposable syringe; 0.45um disposable water Phase filter; 0.5 ml centrifuge tube; 100 ml volumetric flask; 250 ml volumetric flask; 40 ml capped glass tube; 1000 ul pipette; 5000 ul pipette; 15 mL plastic centrifuge tube.
- the sample was measured by high performance liquid chromatography using the following chromatographic conditions:
- the content of free bases and nucleotides in the sample was determined by an external standard method.
- the base, nucleoside, and nucleotide content ⁇ in the sample are identified by mass fraction, and the value is expressed in %, which is calculated according to the formula:
- A The peak area of the sample nucleotide and base
- nucleotide or nucleoside, or base
- results of the measurements are expressed as the arithmetic mean of the parallel measurements, with 2 significant digits retained.
- the content of free nucleotides and free bases of the autolyzed process product measured by the above measurement method is shown in Table 2 below. It can be seen that the product can produce higher content of nucleotides after autolysis, and is high. Commercially available yeast products.
- the autolytic production process and product developed by the present invention are single cell protein products prepared by the culture technique of the invention patent WO2009059163A1, but are not limited thereto, and are also applicable to the processing of three aerobic single cell protein products similar to the invention. .
- the processing method of the first aerobic single-cell protein product specifically comprises the following steps:
- Precipitation concentration The bacterial protein produced by the bioreactor is periodically discharged into the sedimentation concentration tank through a pipeline, and the bacterial protein is precipitated at the bottom of the conical concentration tank, and the moisture content of the bottom material is reduced to 97% or less, and the subsequent dehydration process can be performed. .
- the volumetric single screw pump is used to transport the bottom material of the concentration tank to the centrifugal dewatering equipment.
- Centrifugal dehydration solid-liquid separation using a spiral horizontal centrifugal device. After centrifugation, the moisture content of the material is reduced to 78% to 82%, and the material is wet mud.
- the centrifuge in the present embodiment has a material handling capacity of 10-30 cubic meters per hour, a working speed of 2000-3200 rpm, a discharge amount of 1.5 tons/hour, and a feed solid content ratio of 3.0-5.0%. .
- the solid content of the supernatant is ⁇ 0.2%, and the material recovery rate is ⁇ 95%.
- the self-dissolving equipment of the embodiment is improved by the twin-screw hollow blade dryer, and the temperature is increased by heating to the hollow blade to achieve the temperature requirement of self-dissolving.
- the volume of the chamber is 5.5 cubic meters, and the effective volume is At 3 to 5.0 cubic meters, the effective volume is controlled using the height of the overflow plate.
- the first 1/3 segment of the two twin-screw hollow blades of the autolysis apparatus of the present embodiment is a heating section, and the temperature is raised by using steam of a pressure of 0.5-0.6 Mpa.
- the remaining section is the heat preservation section, and the heat is maintained by using 0.1 Mpa of low pressure steam and steam condensed water heated in the previous stage to maintain the autolysis temperature.
- the temperature requirement for autolysis in this embodiment is that the temperature of the heated material is maintained at 68 ° C to 80 ° C, and the preferred autolysis temperature is 70 ° C.
- the time requirement for autolysis in this embodiment is that the heating section should raise the temperature of the material to the target temperature for less than 20 minutes.
- the autolysis time of the heat preservation section should be 160 to 200 minutes.
- the moisture requirement of the self-dissolving material in this embodiment is: the moisture content of the material after autolysis is not less than 70%.
- the above optimum autolysis temperature range was obtained by gradient test.
- the test parameters were: protein content of bacterial protein 35.00%, autolysis equipment was constant temperature water bath, material moisture content was 82%, autolysis time was 120 minutes, autolysis temperature See the gradient range in the table below. After autolysis, the material is microwave sterilized and dried and stored in a refrigerator at -20 °C for testing.
- the contact temperature of the flash-dried material in this embodiment should be lower than 100 °C.
- the moisture content of the dried material in this embodiment should be 15% to 30%.
- Sterilization The dried material is transported to a tunnel type microwave drying and sterilizing device through a gas flow lifting device for sterilization.
- the moisture content of the material after microwave sterilization is 5% to 10%.
- the single cell protein produced by the above production process should have the following quality indicators:
- the free nucleotide content of the unit protein should be higher than 1.40%
- the free base content of the unit protein should be less than 0.90%
- the ratio of free base to free nucleotide should be in the range of 0 to 0.60.
- Another method for processing aerobic single-cell protein products is to divide the processing into two major parts, each of which is completed by a different production unit, the first of which is a pre-processing unit that includes the completion of single-cell protein culture. After the concentration from the precipitation to the process of centrifugal dewatering.
- a plurality of pre-processing units can be provided, for example, 2 to 10 are possible.
- the second part is the post-processing unit, which contains the operations of autolysis, drying and sterilization.
- the first part to the second part are implemented by means of transportation. In this section, set up a post-processing unit.
- the pre-processing unit is one
- the pre-processing unit and the post-processing unit can be combined into one.
- the pre-processing unit and the post-processing unit are separated from each other.
- the distance between the pre-processing unit and the post-processing unit is 0 to 500 km, preferably within 400 km.
- Precipitation concentration The bacterial protein produced by the bioreactor is periodically discharged into the sedimentation concentration tank through a pipeline, and the bacterial protein is precipitated at the bottom of the conical concentration tank, and the moisture content of the bottom material is reduced to 97% or less, and the subsequent dehydration process can be performed. .
- the volumetric single screw pump is used to transport the bottom material of the concentration tank to the centrifugal dewatering equipment.
- Centrifugal dehydration solid-liquid separation using a spiral horizontal centrifugal device. After centrifugation, the moisture content of the material is reduced to 78% to 82%, and the material is wet mud.
- the centrifuge in the present embodiment has a material handling capacity of 10-30 cubic meters per hour, a working speed of 2000-3200 rpm, a discharge amount of 1.5 tons/hour, and a feed solid content ratio of 3.0-5.0%. .
- the solid content of the supernatant is ⁇ 0.2%, and the material recovery rate is ⁇ 95%.
- the material is cooled to below 5 °C before transportation.
- the wet mud material produced by the pre-processing unit is shipped to the post-processing unit for subsequent processing by the insulated truck.
- the three pre-processing units are less than 300 km away from the post-processing unit, and the transportation time is within 4 hours. After the material arrives, the material temperature of the processing unit is not higher than 4 ° C when the material is removed from the pre-processing unit.
- the transport time is determined by tests that treat the sample at different temperatures and at different times.
- the self-dissolving material has a protein content of 50% and a water content of 82%.
- the samples were stored at different test temperatures and different storage times, followed by autolysis.
- the conditions for autolysis were: temperature 70 ° C, time is 180 minutes.
- the results of the test are shown in the table below:
- the self-dissolving equipment of the present embodiment is improved by a twin-screw hollow blade dryer, and the temperature is increased by heating to the hollow blade to achieve the temperature requirement of autolysis, and the volume of the chamber is 7.5 cubic meters, and the effective volume is At 5.0 to 7.0 cubic meters, the effective volume is controlled by the height of the overflow plate, and the equipment can satisfy the material production of the three pre-processing units of the embodiment.
- the first 1/3 segment of the two twin-screw hollow blades of the autolysis apparatus of the present embodiment is a heating section, and the temperature is raised by using steam of a pressure of 0.5-0.6 Mpa.
- the remaining section is the heat preservation section, and the heat is maintained by using 0.1 Mpa of low pressure steam and steam condensed water heated in the previous stage to maintain the autolysis temperature.
- the temperature requirement for autolysis in this embodiment is that the temperature of the heated material is maintained at 68 ° C to 80 ° C, and the preferred autolysis temperature is 70 ° C.
- the time requirement for autolysis in this embodiment is that the heating section should raise the temperature of the material to the target temperature for less than 20 minutes.
- the autolysis time of the heat preservation section should be 60 to 90 minutes.
- the moisture requirement of the self-dissolving material in this embodiment is: the moisture content of the material after autolysis is not less than 70%.
- the contact temperature of the flash-dried material in this embodiment should be lower than 100 °C.
- the moisture content of the dried material in this embodiment should be 15% to 30%.
- Sterilization The dried material is transported to a tunnel type microwave drying and sterilizing device through a gas flow lifting device for sterilization.
- the moisture content of the material after microwave sterilization is 5% to 10%.
- the single cell protein produced by the above production process should have the following quality indicators:
- the free nucleotide content of the unit protein should be higher than 1.40%
- the free base content of the unit protein should be less than 0.90%
- the ratio of free base to free nucleotide should be in the range of 0 to 0.60.
- the processing method of the third aerobic single cell protein product comprises the following steps:
- Precipitation concentration The bacterial protein produced by the bioreactor is periodically discharged into the sedimentation concentration tank through a pipeline, and the bacterial protein is precipitated at the bottom of the conical concentration tank, and the moisture content of the bottom material is reduced to 98% or less, and the subsequent dehydration process can be performed. .
- the autolysis apparatus of this embodiment is a vertical enzymatic reaction tank.
- the temperature requirement for autolysis in this embodiment is that the temperature of the material after the temperature rise is maintained at 65 ° C to 95 ° C, the preferred autolysis temperature is 65 ° C to 80 ° C, and the further preferred autolysis temperature is 70 ° C.
- the time requirement for the autolysis is that the temperature of the target temperature after the material is pumped into the enzymatic decanting tank should be less than 30 minutes, preferably less than 20 minutes.
- the autolysis time during the incubation period should be 90 minutes.
- the above optimum autolysis temperature range was obtained by gradient test.
- the test parameters were: protein content of bacterial protein 35.00%, autolysis equipment was constant temperature water bath, material moisture content was 82%, autolysis time was 120 minutes, autolysis temperature See the gradient range of Table 3. After self-dissolving, the materials are microwave-sterilized and dried and stored in a refrigerator at -20 °C for testing.
- the drying device can be a spray drying device.
- the moisture content of the dried material is 10-20%.
- Sterilization The dried material is transported to a tunnel type microwave drying and sterilizing device through a gas flow lifting device for sterilization.
- the moisture content of the material after microwave sterilization is 5% to 10%.
- the single cell protein produced by the above production process should have the following quality indicators:
- the free nucleotide content of the unit protein should be higher than 1.40%
- the free base content of the unit protein should be less than 0.90%
- the ratio of free base to free nucleotide should be in the range of 0 to 0.60.
- Digestibility is the percentage of feed ingredients ingested by an animal, and the percentage of digestible nutrients in the feed nutrient.
- the indicator method is to use an indicator present in the feed or artificially uniformly incorporated.
- the digestibility was calculated from the amount of unit indicator contained in the unit feed and feces after feeding the fish. Formulating according to the digestible value of the nutrients of the feed ingredients is of great significance for improving the digestion and utilization rate of the compound feed and reducing the pollution of the feed material to the culture water environment.
- the raw materials were evaluated: the bacterial proteins having a protein content of 50% were autolyzed according to the methods of Examples 2 to 4, and the same batch of single-cell proteins having the same unautolyzed protein content of 50% were used.
- the test feed consisted of “70% basic feed + 30% raw material to be tested”.
- the test feed was added with 0.01% cerium oxide as an indicator and uniformly mixed into the feed powder by a stepwise diffusion method.
- all the raw materials were passed through 40 mesh, and a pelletized feed having a particle size of 3 mm was prepared by a granulator.
- the test was carried out in a 145 liter plastic aquarium, the water source was aerated tap water, the aquarium was inflated with an oxygenation pump, and each aquarium was heated using a heating rod. Change water 2/3 every day to keep the water clean.
- the water temperature during the test was 15 ⁇ 1°C, pH 6.5-7.5, and dissolved oxygen>4.0mg/l.
- the test fish is rainbow trout.
- the basic feed and the two test feeds were divided into three test groups, each with 3 replicates and a total of 9 aquaria. Put 50 fish per box.
- test feed was fed and the formal test was started 7 days later.
- the food was fed twice a day (8:30; 15:30), and the bait was sucked out with a siphon after 0.5 hours of feeding.
- the feces were collected every day during the peak period of the test fish excretion, and the feces were taken out in time with a dense mesh. Then the whole fecal pellets were picked up in a petri dish with tweezers and dried in a 70 ° C oven to constant weight. The feces are then placed in a desiccator for analysis until the feces are sufficient for detection.
- a and B are the content of a nutrient and strontium oxide in the feed, respectively, and A' and B' are respectively a corresponding nutrient component and strontium oxide content in the feces.
- DT and DR are the digestibility of the nutrients of the test feed and the basic feed, respectively.
- Tables 10 to 12 are the digestibility test data tables for the three processing methods.
- Piglet double-slot model tests can determine piglets' preference for specific flavors. For piglets, feeding their preferred feeds can increase feed intake and increase growth rate.
- the protein was 50% autolyzed single cell protein, and the common non-autolyzed protein content was 50% of the single cell protein.
- the basal diet is commercially available weaned piglet feed, and the test feed mix is shown in Table 8 below.
- Test animals 45 weaned piglets with normal weaning age and close weight were selected and randomly divided into 3 groups.
- the test is carried out continuously for 3 to 4 times, with 3 to 4 repetitions each time. A total of 3 to 5 days, or the end of a feed intake.
- a dietary partial eclipse index total intake of group A / total intake of group B
- test results showed that under the experimental conditions of the examples, the weaned piglets had a preference for the autolyzed single cell protein, and the free feeds containing the cost of the feed had a higher feed intake and the self-dissolving free nucleotides showed an attracting effect.
Abstract
Description
环境温度: | 25℃~30℃ |
色谱柱: | AthenaC18,4.6×150mm |
检测波长: | 260nm |
柱温: | 30℃ |
流动相A: | 0.1mol/L磷酸二氢钾溶液 |
流动相B: | 25%甲醇 |
进样量: | 20ul |
流速: | 0.5mL/min |
Claims (8)
- 一种使用自溶工艺生产好氧型单细胞蛋白的方法,包括沉淀浓缩步骤、离心脱水步骤、干燥步骤、灭菌步骤和粉碎包装步骤,其特征在于将离心脱水步骤后获得的78%~85%含水率的物料,经过自溶步骤后进行干燥步骤,所述的自溶步骤如下:a)自溶设备通过向双螺杆空心桨叶供热进行升温,达到自溶的温度要求,通过设计及调节与进料速度配套的腔体容积,来达到自溶的时间要求;b)所述自溶设备的双螺杆空心桨叶前1/4至1/2分段为加热段,目的是将物料加热至自溶所需温度,剩余分段为保温段,保持物料自溶温度;c)自溶的温度要求为:加热后的物料温度保持在65℃~95℃;d)自溶的时间要求为:加热段将物料升温至目标温度的时间应小于30分钟,保温段的自溶时间应在30分钟~360分钟;所述自溶的物料水分要求为:自溶后物料水分含量应不低于70%;所述的灭菌步骤采用微波灭菌。
- 一种使用自溶工艺生产好氧型单细胞蛋白的方法,包括若干个预加工单元和一个后加工单元,预加工单元包括沉淀浓缩步骤、离心脱水步骤和运输步骤,其特征在于每个预加工单元中将离心脱水步骤后获得的78%~85%含水率的物料,降温后运输至后加工单元进行集中处理,所述的后加工单元包括自溶步骤、干燥步骤、灭菌步骤和粉碎包装步骤,所述的自溶步骤如下:a)来自预加工单元的物料输送至保温料仓,然后输送至自溶设备进行自溶处理;b)自溶设备通过向双螺杆空心桨叶供热进行升温,达到自溶的温度要求,通过设计及调节与进料速度配套的腔体容积,来达到自溶的时间要求;c)所述自溶设备的双螺杆空心桨叶前1/4至1/2分段为加热段,目的是将物料加热至自溶所需温度,剩余分段为保温段,保持物料自溶温度;d)自溶的温度要求为:加热后的物料温度保持在65℃~95℃;e)自溶的时间要求为:加热段将物料升温至目标温度的时间应小于30分钟,保温段的自溶时间应在30分钟~360分钟;所述自溶的物料水分要求为:自溶后物料水分含量应不低于70%;所述的灭菌步骤采用微波灭菌。
- 一种使用自溶工艺生产好氧型单细胞蛋白的方法,包括沉淀浓缩步骤、干燥步骤、灭菌步骤和粉碎包装步骤,其特征在于将生物反应器产生的菌体蛋白通过管道排入沉淀浓缩池,菌体蛋白在锥形的浓缩池底部沉淀,底部物料含水率降低至97~98%,使用抽料泵将浓缩池底部物料输送至自溶设备,进行自溶步骤,所述的自溶步骤如下:a)所述自溶设备是立式酶解反应罐,向酶解罐夹层内通入蒸汽的方式进行快速升温,升温后改为注入低压蒸汽进行保温自溶反应;b)所述自溶设备使用框式、桨叶式或推进式的桨叶进行搅拌并保持罐内温度一致;c)自溶的温度要求为:加热后的物料温度保持在65℃~95℃;d)自溶的时间要求为:加热段将物料升温至目标温度的时间应小于30分钟,保温段的自溶时间应在30分钟~360分钟;所述的灭菌步骤采用微波灭菌。
- 如权利要求1或2或3所述的一种使用自溶工艺生产好氧型单细胞蛋白的方法,其特征在于所述的加热后的物料温度保持在65℃~80℃,自溶时间为60~180分钟。
- 如权利要求1所述的一种使用自溶工艺生产好氧型单细胞蛋白的方法,其特征在于所述的具体方法步骤的顺序如下:(1).沉淀浓缩:将生物反应器产生的菌体蛋白通过管道排入沉淀浓缩池,菌体蛋白在锥形的浓缩池底部沉淀,底部物料含水率降低至97%以下,可进行后续脱水工序;(2).使用抽料泵将浓缩池底部物料输送至离心脱水设备;(3).离心脱水:使用螺旋卧式离心设备进行固液分离,离心后物料含水率降低至78%~85%,物料呈湿泥状;离心所脱去的水分为菌体蛋白的细胞外水分,胞内水分仍存留在细胞内,这为细胞内的内源酶进行自溶创造了条件,离心后78%~85%含水率的物料能进行自溶作用;(4).自溶:将离心脱去细胞外水分的物料输送至自溶设备进行自溶处理;a)自溶设备通过向双螺杆空心桨叶供热进行升温,达到自溶的温度要求,通过设计及调节与进料速度配套的腔体容积,来达到自溶的时间要求;b)所述自溶设备使用导热油或蒸汽对空心桨叶进行供热;c)所述自溶设备的两根双螺杆空心桨叶前1/4至1/2分段为加热段,目的是将物料加热至自溶所需温度,剩余分段为保温段,保持物料自溶温度;d)自溶的温度要求为:加热后的物料温度保持在65℃~95℃;e)自溶的时间要求为:加热段将物料升温至目标温度的时间应小于30分钟,保温段的自溶时间应在30分钟~360分钟;f)所述自溶的物料水分要求为:自溶后物料水分含量应不低于70%;(5).干燥:自溶后的物料通过蛟龙喂料机输送至气流闪蒸干燥设备进行干燥;所述闪蒸干燥的物料接触温度应低于100℃,所述干燥后的物料的含水率应在10%~40%;(6).灭菌:经干燥后的物料通过气流提升设备输送至隧道式微波干燥灭菌设备进行灭菌;所述微波灭菌后物料含水率为5%~10%;(7).粉碎包装:灭菌后的物料经粉碎后包装成成品。
- 如权利要求2所述的一种使用自溶工艺生产好氧型单细胞蛋白的方法,其特征在于所述的具体方法步骤的顺序如下:(1)预加工单元:a.沉淀浓缩:将生物反应器产生的菌体蛋白通过管道排入沉淀浓缩池,菌体蛋白在锥形的浓缩池底部沉淀,底部物料含水率降低至97%以下,可进行后续脱水工序;b.使用抽料泵将浓缩池底部物料输送至离心脱水设备;c.离心脱水:使用螺旋卧式离心设备进行固液分离,离心后物料含水率降低至78%~85%,物料呈湿泥状;所述的离心所脱去的水分为菌体蛋白的细胞外水分,胞内水分仍存留在细胞内,这为细胞内的内源酶进行自溶创造了条件;所述的离心后78%~85%含水率的物料能进行自溶作用;d.运输:离心后的物料降温后运输至后加工单元进行集中处理;所述降温是在离心后物料降温至10℃以下;所述运输是通过保温货车将预加工单元产出的湿泥状物料装运至后加工单元进行后续加工;所述运输的时间应在0~12小时内,物料到达后加工单元的料温不高于离开预加工单元时料温的5℃;(2)后加工单元:a.自溶:来自预加工单元的物料输送至保温料仓,然后输送至自溶设备进行自溶处理;自溶设备通过向双螺杆空心桨叶供热进行升温,达到自溶的温度要求,通过设计及调节与进料速度配套的腔体容积,来达到自溶的时间 要求;所述自溶设备的双螺杆空心桨叶前1/4至1/2分段为加热段,目的是将物料加热至自溶所需温度,剩余分段为保温段,保持物料自溶温度;自溶的温度要求为:加热后的物料温度保持在65℃~95℃;自溶的时间要求为:加热段将物料升温至目标温度的时间应小于30分钟,保温段的自溶时间应在30分钟~360分钟;所述自溶的物料水分要求为:自溶后物料水分含量应不低于70%;b.干燥:自溶后的物料通过蛟龙喂料机输送至气流闪蒸干燥设备进行干燥;所述闪蒸干燥的物料接触温度应低于100℃,所述干燥后的物料的含水率应在10%~40%;c.灭菌:经干燥后的物料通过气流提升设备输送至隧道式微波干燥灭菌设备进行灭菌;所述微波灭菌后物料含水率为5%~10%;d.粉碎包装:灭菌后的物料经粉碎后包装成成品。
- 如权利要求3所述的一种使用自溶工艺生产好氧型单细胞蛋白的方法,其特征在于所述的具体方法步骤的顺序如下:(1).沉淀浓缩:将生物反应器产生的菌体蛋白通过管道排入沉淀浓缩池,菌体蛋白在锥形的浓缩池底部沉淀,底部物料含水率降低至97~98%,可进行后续自溶工序;(2).使用抽料泵将浓缩池底部物料输送至自溶设备;(3).自溶:a)自溶设备是立式酶解反应罐,向酶解罐夹层内通入蒸汽的方式进行快速升温,升温后改为注入低压蒸汽进行保温自溶反应;b)所述自溶设备使用框式、桨叶式或推进式的桨叶进行搅拌并保持罐内温度一致;c)自溶的温度要求为:加热后的物料温度保持在65℃~95℃;d)自溶的时间要求为:加热段将物料升温至目标温度的时间应小于30分钟,保温段的自溶时间应在30分钟~360分钟;(4).干燥:自溶后的物料通过输送泵输送至干燥设备进行干燥,所述干燥设备可为喷雾干燥设备,所述干燥后的物料的含水率为10~20%;(5).灭菌:经干燥后的物料通过气流提升设备输送至隧道式微波干燥灭菌设备进行灭菌,所述微波灭菌后物料含水率为5%~10%;(6).粉碎包装:灭菌后的物料经粉碎后包装成成品。
- 一种采用权利要求1或2或3所述的方法制得的好氧型单细胞蛋白,其特征在于采用蛋白含量为33%-60%的菌体蛋白制得的好氧型单细胞蛋白;蛋白含量33.0%-60.0%;单位蛋白的游离核苷酸含量不低于1.40%;单位蛋白的游离碱基含量不高于0.90%;游离碱基与游离核苷酸比值范围应在0-0.60。
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CN113797231B (zh) * | 2021-08-12 | 2023-08-01 | 南方海洋科学与工程广东省实验室(湛江) | 一种方格星虫体壁自溶物及其制备方法与应用 |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2009059163A1 (en) * | 2007-11-01 | 2009-05-07 | Oberon Fmr, Inc. | Biosolids-based food additive for animal feed and methods of production |
CN102293356A (zh) * | 2011-09-21 | 2011-12-28 | 许文昌 | 酵母自溶物及其制备方法 |
CN103843971A (zh) * | 2014-02-19 | 2014-06-11 | 上海亘泰实业集团有限公司 | 一种利用生物泥制备单细胞蛋白粉的方法 |
CN104893976A (zh) * | 2015-03-31 | 2015-09-09 | 台州艾希尔生物科技有限公司 | 一种使用自溶工艺生产好氧型单细胞蛋白的方法 |
Family Cites Families (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB0120047D0 (en) * | 2001-08-16 | 2001-10-10 | Norferm Da | Product |
GB0203307D0 (en) * | 2002-02-12 | 2002-03-27 | Norferm Da | Method |
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- 2015-04-07 WO PCT/CN2015/075972 patent/WO2016161549A1/zh active Application Filing
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Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2009059163A1 (en) * | 2007-11-01 | 2009-05-07 | Oberon Fmr, Inc. | Biosolids-based food additive for animal feed and methods of production |
CN102293356A (zh) * | 2011-09-21 | 2011-12-28 | 许文昌 | 酵母自溶物及其制备方法 |
CN103843971A (zh) * | 2014-02-19 | 2014-06-11 | 上海亘泰实业集团有限公司 | 一种利用生物泥制备单细胞蛋白粉的方法 |
CN104893976A (zh) * | 2015-03-31 | 2015-09-09 | 台州艾希尔生物科技有限公司 | 一种使用自溶工艺生产好氧型单细胞蛋白的方法 |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2022268842A1 (en) | 2021-06-21 | 2022-12-29 | Microharvest Gmbh | Extracts from fast growing microbes |
WO2023197952A1 (zh) * | 2022-04-11 | 2023-10-19 | 安琪酵母股份有限公司 | 一种富含碱基和碱基衍生物的酵母浸出物及其制备方法 |
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US20170037081A1 (en) | 2017-02-09 |
MY186730A (en) | 2021-08-14 |
US10508132B2 (en) | 2019-12-17 |
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