TH69615B - Solvent-free extraction process - Google Patents

Abstract

DC60 (18/04/44) This invention provides a method for extracting lipid from microorganisms. Without using solvents Non-polar organic solvent of extraction Especially this invention Make there a way Create lipid extraction from microorganisms By cell degradation and removal of soluble substances and / or materials By rinsing the decomposed cell mixture with a water-based solution. Until the lip closes That is not considered an emulsion This invention provides a method for extracting lipid from microorganisms. Without using solvents Non-polar organic solvent of extraction Especially this invention Make there a way Create lipid extraction from microorganisms By cell degradation and removal of soluble substances and / or materials By rinsing the decayed cell mixture with a water-based wash solution. Until the lip closes That is not considered to be Emal Sun

Claims (5)

Disclaimer (all) which will not appear on the advertisement page: Amendment 30/08/2018 Claims None -------------------------------------------------- --------------------------- Hotfix 24/8/18 Disclaimer 1. Process for preparing lipids from microbes. It consists of (a) the lysis of microbial cells to produce the decomposed cell mixtures (b) the processing of the decomposed cell mixtures. To produce separate phase mixtures containing Heavy duty layer And light material layer The heavy material layer consists of a solution in the aqueous medium and the light material layer contains the lipids (c) the separation of the heavy material layer from the light material and (d) the preparation of the lipid. From such light material layer -------------------------------------------------- --- Amendment 25/10/2016 7. 4. Process of claim 65, in which the processing of the said process includes an optional process. From the group containing the aforementioned heating and cells, exposure of the cells to bases, exposure of the cells to bases, exposure of the cells to chelates. Or making processes 7 5. Process of claim 65, in which such treatment consists of heating. The cells are exposed to a temperature of at least 50 ° C first, during or in the process of exposure of the cells to bases, chelates or mixtures of these substances. The gravity of the step (c) consists of transferring a medium containing the released internal lipids through a centrifugal, centrifugal, centrifuge. 7 7. Process of claim 65 where the process of dissolving the emulsion Mix Emulsion with water, alcohol and / or acetone and the introduction of the mixture into separation 7 8. Process of claim 77 where such gravity separation consists of centrifugation 7. 9. Process of claim 78 in which centrifugal separation includes the centrifugation process. In centrifuge, stacked-disc, separator type 8 0. Process of claim 77 where the above treatment has been repeated at least. Three times to obtain such impure lipids 8 1. Process of claim 65, in which such impure lipids are introduced into purification. Or performing additional processes 8 2. Process of claim 81, in which the unrefined lipids are bleached and deodorized 8 3. The lipids that have been stage by the process of Clause 1-82, any one 8 4. Lipid of claim 83, where the lipid is derived from microorganisms containing organic solvents. Less than 0.2 ppm 8 5. Lipids of claim 83 or 84 containing cholesterol, phytosterols, desmolterols, ticotriates. Enols, tocopherol, ubiquinone, carotenoids and xanthophylls are beta-carotene, lutein, lycopin, asta. Xanthin, zea xanthin, kanthaxanthin, and fatty acids are conjugated linoleil acids and highly unsaturated omega-3 and omega fatty acids. Ga-6 is Eicosapentaenoic Acid, Docosapentaenoic Acid. And docosahexaenoic acid, arachidonic acid, ltearic donic acid, dihomogammalinolenic acid. And gamma-linoleic acid Or mixtures of more than 15% of these substances containing less than 0.2 ppm residual organic solvents. 8 6. Lipids of any of the 83 - 85 Claims. Containing more than 15% docosahexaenoic acid and less than 0.2 ppm residual non-polar organic solvent ------------------- --------- 1. Process for preparing lipids from microorganisms It consists of (a) the breakdown of microbial cells to produce a mixture of decomposed cells (b) processing of the decomposed cell mixture. To produce separate phase mixtures Containing heavy material layers And light material layer In which the heavy material layer contains a solution in Aqueous medium And (d) preparation of the lipids from the said lightweight layer. 2. The Claims Process. Where the aforementioned procedure (b) consists of centrifugation of the aforementioned chancell mixture 3. Process of claim 2 in which the said light layer contains lipids. 4. Process of claim 3, which has an additional component consisting of (e) adding aqueous extraction solution to the light substrate. Repeat steps (c) and (f). Repeat the steps (c), (d) and (e) until the lipid. It was changed to a form that was classified as emulsion prior to the aforementioned (d) stage. 5. Procedures of Clause 3 in which the said emulsion lipid was not emulsified. Contains the lipid suspension in aqueous solution 6. Process of claim 1 in which aqueous solution is the medium. Contains a solid cell material. 7. Process of claim 1, in which the microorganism is prepared. From the fermentation process. 8. Process of claim 7, which has an additional component consisting of the addition of 9. The process of claim 8, whereby the base is selected from the group where Contains hydroxides, carbonates, bicarbonates, phosphates and their mixtures. 1 0. Process of claim 7, which includes additional components that include: Dissolving at least part of the protein in the fermentation liquid feed 1 1. Process of claim 1 where such step (a) consists of: Heating the microorganisms to a temperature of at least about 50 degrees Celsius 1 2. Process of claim 1 through which such microbes can grow. At a salinity level below approximately 12 g / l of NaCl 1 3. Process of claim 1, in which such microorganisms are treated with lipids. At least approximately 20 percent by weight 1 4. Process of claim 1, which the microorganisms select from the group. Consisting of algae, fungi, bacteria and protist 1 5. Process of claim 14 in which such microorganisms consist of. Microorganisms in orders Thraustochytriales 1 6. Process of claim 15, whereby the microorganisms are selected from the genus. Thraustochytrium, Schizochytrium And mixtures of these microorganisms 1 7. Process of Clause 16, which microorganisms can be selected from the group. It contains microorganisms with ATCC identification number 20888, ATCC number 20889, ATCC number 20890, ATCC number 20891 and ATCC number 20892. Of the above microorganisms And mixtures of these microorganisms 1 8. Process of claim 1 in which microorganisms can produce cholesterol, phytosterols, desmosterols, tocotrienols, toco Ferrol, ubiquinone, carotenoids and xanthophils such as beta-carotene, lutein, lycopin, astaxanthin, cia. Xanthin, cantaxanthin, and fatty acids such as conjugated linoleic acid. And highly unsaturated fatty acids Omega-3 and omega-6 types, such as eicosapentaenoic acid, docosapentaenoic acid and docosahexaenoic acid, arac acid Kidonic, stearidonic acid, dihomogammalidlenic acid and gamma-linolenic acid or a combination of these substances. At least approximately 0.1 grams per liter per hour 1 9. Process of claim 1, which is at least approximately 20 percent of Such lipids are cholesterol, phytosterols, desmosterols, tocotrienols, tocopherols, ubiquinone, carotenoids. And xanthophylls, such as beta-carotene, lutein, lycopene, astaxanthin, ceaxanthin, kanthaxanthin and fatty acids such as acid Conjugated linoleic and highly polyunsaturated omega-3 and omega-6 fatty acids such as eicosapentaenoic acid, docosapentaenoic acid. , And docosahexaenoic acid, arachidonic acid, stearidonic acid, dihomogammalinolenic acid and gamma-linolenic acid. 2 0. Process for preparing lipids from microorganisms that include: (a) culturing such microorganisms in fermentation cultures to produce liquid food of fermentation. Of any protein (C) the degradation of the microorganisms. To produce the decayed cell mixtures (d) processing of the decayed cell mixtures. To produce separate mixtures Phase containing heavy material layers And light material layer In which the heavy material layer consists of a solution Water-based And the light material layer consists of emulsion lipids (e) separation of the heavy material layer from the said light layer and (f) the preparation of the said lipid from the said light layer 2 1. Process of claim 20, the phase of protein dissolution It consists in contact with the liquid food of the fermentation with base 2. 2. Process of claim 21, whereby the base is selected from the group. 2 3. Process of claim 20, where the process of cell lysis is carried out in the form of hydroxides, carbonates, bicarbonates, phosphates and their mixtures. This includes heating the microorganisms to a temperature of at least approximately 50 degrees Celsius. 2 4. Process of claim 20, wherein the production process of the mixture. Separate such phase It consists of centrifugation of the aforementioned cell mixtures. 2. 5. Process of claim 20, which is the process of lipid preparation. The above light substrates include: (a) adding aqueous wash solution to the aqueous layer (b) separation of the aqueous solution. And (c) repeat such steps (A) and (B) until the said closure. It is transformed into a form that is classified as not emulsion 2. 6. Process of claim 20 in which aqueous solution is the medium. Contains a solid cell material. 7. Process of claim 20 through which such microorganisms can grow. At salinity levels below approximately 12 g / l of sodium chloride 2 8. Process of claim 20, where microorganisms contain lipids. At least about 20 percent by weight 2. 9. Process of claim 20, which the microorganisms are selectable from. Contains algae, fungi, bacteria and protists 3 0. Process of claim 29 in which the microorganisms are composed of Microorganisms in orders Thaustochytriales 3 1. The process of claim 30, which the microorganisms select from the genus. Thaustochytriales, Schizochytrium 3 2. Process of claim 31, which the microorganisms were selected from the groups that were Contains microorganisms with ATCC identification number 20888, ATCC number 20889, ATCC 20890, ATCC number 20891 and ATCC number 20892, a mutant derived from any microorganism. Of the above microorganisms And mixtures of these microorganisms 3 3. Process of claim 20 in which microorganisms can produce cholesterol, phytosterols, desmosterol, tocotrienols, toco Ferrol, ubiquinone, carotenoids and xanthophils such as beta-carotene, lutein, lycopin, astaxanthin, cia. Xanthin, cantaxanthin, and fatty acids such as conjugated linoleic acid. And highly unsaturated fatty acids, omega-3 and omega-6, such as eicosapentaenoic acid, docosapentaenoic acid, and docosahexaenoic acid. Eic, arachidonic acid, stearidonic acid, dihomogamma linolenic acid and gamma-linolenic acid. Or a mixture of these substances At least approximately 0.1 grams per liter per hour 3 4. The process of claim 20, which is at least approximately 20 percent of the Such lipid Cholesterol, Phytosterols, Desmosterols, Tocotrienols, Tocopherols, Ubiquinone, Carotenoids and Xan Thophyl, such as beta-carotene, lutein, lycopene, astaxanthin, ceaxanthin, kanthaxanthin, and fatty acids such as linoleic acid. Conjugate electrode And highly unsaturated fatty acids, omega-3 and omega-6, such as eicosapentaenoic acid, docosapentaenoic acid And docosahexaenoic acid, arachidonic acid, stearidonic acid, dihomogammalinolenic acid and gamma-linolenic acid or Mixture of these substances 3 5. Process for preparing lipids from microorganisms that include: (a) culturing such microorganisms in fermentation cultures for liquid food production of fermentation (b) contact with liquid food of fermentation. With the base to at least dissolve Part of any protein (C) Increasing the temperature of the fermentation liquid. Until the temperature At least about 50 degrees Celsius to dissolve the cells of such microbes. (D) Separation of substances of different densities from the aforementioned decayed cell mixtures is to produce separate phase mixtures consisting of heavy substrates. And light material layer The heavy material layer consists of aqueous solution. And the light layer consists of an emulsion lipid (e), removing the heavy material layer from the said phase separation mixture (f), adding a water-based wash solution to the (G) separation of substances of different densities from those of the (f) phase (h) of the above-mentioned mixtures, (h) the separation of such heavy layers from the separate phase mixtures, and (i ) Performing such a step (f) - (h) until the aforementioned lipid changes to Figure 3: Non-Emulsion Process 6. Procedures of claim 35 that the base is selected from among the groups that are not emulsified. It consists of hydroxides, carbonates, bicarbonates and their mixtures. 3 7. Process of claim 35 where the process of production of the separate phase mixtures consists of: The dispersed cell mixture is centrifuged. 3. 8. Process of claim 35 in which the aqueous solution of the procedure (d) consists of a solid material of the cell 3. 9. The process of Claim 35, which microbes can grow at The salinity level was approximately 12 g / l of sodium chloride 4 0. Process of claim 35 in which the microorganisms contained lipids. At least approximately 20 percent by weight 4. 1. Process of claim 35, which the microorganisms are selectable from. Contains algae, fungi, bacteria, and protist 4 2. Process of claim 35 in which the microorganisms consist of. Microorganisms from the group consisting of gold algae, green algae, dinoflagellates, yeast, fungi of the genus Motierella and Stramenopiles 4 3. Process of claim 35, in which these microorganisms consist of. Microorganisms in orders Thraustochytriales 4 4. Process of claim 43 in which the microorganisms Choose from a group Contains microorganisms with ATCC Identification Characteristic No. 20888, ATCC No. 20889, ATCC No. 20890, No. 20891 and ATCC No. 20892, Mutagenic strains derived from any microorganism. Of the above microorganisms And mixtures of these microorganisms 4 5. Process of claim 35 in which microorganisms can produce cholesterol, phytosterols, desmosterol, tocotrienol, toco Ferrol, ubiquinone, carotenoids and xanthophil, eg beta-carotene, lutein, lycopene, astaxanthin, C. Azanthin, cantaxanthin, and fatty acids such as conjugated linoleic acid. And highly unsaturated fatty acids, omega-3 and omega-6, such as eicosapentaenoic acid, docosapentaenoic acid And docosahexaenoic acid, arachidonic acid, stearidonic acid, homogammalinolenic acid. And gamma linolenic acid Or a mixture of these substances At least approximately 0.1 grams per liter per hour 4 6. Process of claim 35, which is at least approximately 20 percent of the Such lipids are cholesterol, phytosterols, desmosterol, tocotrienol, tocopherol, astaxanthin, ceazan. Thins, cantaxanthins and fatty acids such as conjugated linoleic acid and highly polyunsaturated omega-3 and omega-6 fatty acids such as eicosapane. Enoic eye, Docosapentaenoic acid And docosahexaenoic acid, arachidonic acid, stearidonic acid, dihomogammalinolenic acid and gamma-linolenic acid or Mixture of these substances 4 7. Process for the preparation of microbial lipids consisting of: (a) culturing microorganisms in culture medium (b) processing of such medium. And microbial cells for Release of lipids inside cells (c) The introduction of a culture medium containing the released internal lipids. Enters gravitational separation to produce a lipid, elemental and heavy phase (d) separation of the light phase from that heavy phase (e) pretreatment to the light phase to decay the emulsion. (F) separation of impure lipids 4 8. Process of claim 47 where such microorganisms are lipids 4 9. Process of Claim 47, which the microbes can choose from These include algae, fungi, bacteria and protists. 5 0. Process of claim 47, in which microorganisms. Choose from a group Contains gold algae, green algae, dyroflagellates, yeast, Mortierella and Stramenopiles. 5. 1. Process of claim 47, in which the microorganisms consist of. Microorganisms in orders Thraustochytriales 5 2. Process of claim 51, which the microorganisms select from the genus. Thraustochytrium, Schizochytrium 5 3. Process of claim 52, which microorganisms can be selected from the groups that have been identified. Contains microorganisms with ATCC Identification Characteristic No. 20888, ATCC No. 20889, ATCC No. 20890, ATCC No. 20891 and ATCC No. 20892. Mutant strains derived from any microorganism. 5 4. Process of claim 47 in which microorganisms can produce cholesterol, phytosterols, desmosterols, tocotrienols. L, tocopherol, ubiquinone, carotenoids and xanthophylls, such as beta-carotene, lutein, lycopin, astaxan Thins, Zeaxanthin, Cantaxanthin, and Fatty Acids such as conjugated linoleic acid. And highly unsaturated fatty acids, omega-3 and omega-6, such as eicosapentaenoic acid, docosapentaenoic acid, and docosahexaenoic acid. Iic, arachidonic acid, stearidonic acid, dihomogammalidlenic acid and gamma-linolenic acid. Or mixtures thereof, at least approximately 0.1 g / l / h 5 5. Process of Claim 54, which is at least approximately 20% of Such lipids are cholesterol, phytosterols, desmosterols, tocotrienols, tocopherols, ubiquinone, carotenoids. And xanthophils such as beta-carotene, lutein, lycopene, astaxanthin, ceaxanthin, kanthaxanthin and fatty acids such as acids. Conjugated linoleic and highly unsaturated omega-3 and omega-6 fatty acids such as eicosapentaenoic acid, docosapentaenoic acid. And docosahexaenoic acid, arachidonic acid, stearidonic acid, dihomogammalinolenic acid and gamma-linolenic acid. 5. Process of claim 47, where such processing includes a process that is selectable from a group consisting of heating the said cells, exposure to the cells, or a mixture of these substances. Such processes with bases, exposure to them with chelating agents, or jointly processing them 5 7. Process of claim 47, in which the processing includes Heating the cells to a temperature of at least 50 ° C before, during or after exposure of the cells to bases, chelates or mixtures of them 5 8. Process of claim 47, where The gravity separation of the step (c) consists of the transfer of a medium containing the released lipids inside the released cells. Centrifuge, stacked-plate, separator type Or pour the liquid out. 5. 9. Process of claim 47, where the process of dissolution process. Emulsion consists of mixing emulsions with water, alcohol and / or acetone and the introduction of the mixture. To gravity separation 6 0. Process of claim 59, where the gravity separation Composed of centrifugation 6 1. Process of claim 60, in which centrifugation This includes processing in centrifugal, stacked, centrifuge or liquid ejector. 6. 2. Process of claim 59, in which the said process has been performed. Repeat at least three times to obtain such impure lipids. 6 3. Process of claim 47, in which such impure lipids are imported. To purification 6 4. Process of claim 63, in which the impure lipids are bleached and deodorized. 6 5. Process for extracting lipids. The microorganisms consist of the following steps: (a) culturing such microorganisms in the culture medium (b) processing the microbial cells from such culture media by The cells were not dried to release the lipids in the cells. (C) The introduction of a culture medium containing lipids in the released cells to the cell was not dried to release the lipids in the cells. Gravitational separation to produce the lipid and heavy phase (d) separation of the light phase from the heavy phase (e) processing the light phase. To dissolve emulsions that occur during 6 6. Process of claim 65, in which the microbes are highly lipids 6 7. Process of claim 65 Which such microorganisms can be selected from the group They consist of algae, bacteria, fungi and protists. 6 8. Process of claim 65, whereby microorganisms are selected from the group. Contains gold algae, green algae, dinoflalellates, yeats, fungi of the genus Mortierellaa and Stramenopiles 6. 9. Process of claim 65, in which the microorganisms consist of. Microorganisms in orders Thraustochytriales 7 0. Process of claim 69 in which the microorganisms Choose from the currency Thraustochytrium, Schizochytrium 7 1. Process of claim 70, which microorganisms can be selected from the group that are considered to be Contains microorganisms with ATCC identification number 20888, ATCC number 20889, ATCC 20890, ATCC number 20891 and ATCC number 20892, a mutant derived from any microorganism. Of the above microorganisms 7 2. Process of claim 65 where such microorganisms can produce cholesterol, phytosterols, desposterols, tocotrienols, Tocopherol, ubiquinone, carotenoids and xanthophylls, such as beta-carotene, lutein, lipene, astaxanthin, Zea xanthin, cantaxanthin, and fatty acids such as conjugated linoleic acid. And highly unsaturated fatty acids Omega-3 and omega-6 types, such as eicosapentaenoic acid, docosapentaenoic acid and docosahexaenoic acid, arac acid Kidonic, stearidonic acid, dihomogamma-linolenic acid And gamma-linolenic acid At least 0.1 g / l / h of these substances or mixtures 7 3. Clause 65 process, which is at least approximately 20% of Such lipid Cholesterol, Phytosterols, Desmosterols, Tocotrienols, Tocopheryl, Ubiquinone, Carotenoids and Xanthos Feelings such as beta-carotene, lutein, lycopene, astaxanthin, zeaxanthin, kanthaxanthin and fatty acids such as linoleic acid. Conjugated and highly unsaturated fatty acids omega-3 and omega-6, such as eicosapentaenoic acid, docosapentaenoic acid And docosahexaenoic acid, arachidonic acid, stearidonic acid, dihomogammalinolenic acid and gamma-linolenic acid or 7 4. Process of claim 65 where such processing includes: Perform a process that can be chosen from the groups containing the aforementioned heating and cell, exposure to the cells. Such as with bases, exposure of the cells to chelates Or doing these processes in conjunction with 7. 5. Process of claim 65, where the said process consists of. Heating of cells to a temperature of at least 50 ° C before, during or after exposure to bases, chelates or mixtures of these substances. 7 6. Process of claim 65, where The gravity separation of the step (c) consists of the transfer of a medium containing the released lipids inside the released cells. Centrifuge, stacked-plate, separator type Or pour liquid out. 7 7. Process of claim 65 where the process of dissolution process. Emulsion consists of a mixture Emulsion with water, alcohol and / or acetone and the conductivity of the mixture 7 8. Process of claim 77, in which gravity separation Composed of centrifugation 7 9. Process of claim 78, in which centrifugation This includes processing in centrifugal, stacked, centrifuge or liquid ejector. 8 0. Process of claim 77, in which the processing of such processes has been performed. Repeat this at least three times to get the said impure lip. 8. 1. Process of claim 65, in which such impure lipids are imported. To purification Or performing additional processes To obtain the purified lipids 8 2. Process of claim 81 in which the impure lipids are bleached and deodorized 8. 3. Lipids that have been made By the process of claim 1-82 8 4. Lipids are derived from microorganisms containing less than 0.2 ppm of non-polar organic solvents. 5. Lipids containing cholesterol, phytosterols, desmosterol, tocotrienol, tocopherol, ubiquinone, carotene. Lycopin, Astaxanthin, Ceaxanthin, Cantaxanthin, and Fatty Acids such as Conjugated linoleic acid and highly unsaturated omega-3 and omega-6 fatty acids such as eicosapentaenoic acid, docosapenta acid. Enoic And docosahexaenoic acid, arachidonic acid, stearidonic acid, dihomogammalinolenic acid. And gamma-linolenic acid Or a mix of things More than 15 percent of these substances contain less than 0.2 ppm of non-polar organic solvents, lipids containing more than 15 percent of docosahexaenoic acid, and organic solvents. Less than 0.2 ppm residual