Isoelectric focusing apparatus
First Claim
1. An isoelectric focusing electrophoretic apparatus suitable for carrying out an isoelectric focusing electrophoretic process for the separation and purification of a desired amphoteric chemical compound, soluble in a solvent suitable for said process, from one or more amphoteric chemical compounds, soluble in said solvent, the isoelectric points of which differ from the isoelectric point of the desired compound by at least 0.001 pH units, said process being carried out by using an electrophoretic apparatus, wherein the electric flow, passing through the electrophoretic matrix, is coupled to a hydraulic flow, the direction of said electric flow being different from that of said hydraulic flow, said hydraulic flow comprising a solution of said desired chemical compound in said solvent, said electrophoretic matrix being segmented into two parts by the hydraulic flow, said parts, independently of each other, representing immobilized pH-gradients (5) and (12), each having conductivity and both buffering and titrant capacity in its pH-interval, or amphoteric isoelectric immobilized pH membranes (25) and (26), each having conductivity and both buffering and titrant capacity at a specific pH-value, one part (5) or (25), being located at the cathodic side and the other, (12) or (26), being located at the anodic side, characterized in that said desired chemical compound is kept in an isoelectric state within the hydraulic flow (7), (8) and (11), and the undesired amphoteric chemical compounds are removed from the hydraulic flow by the electric flow into at least one of the two parts of said matrix, or through at least one of said parts into at least one of the electrolyte solution reservoirs (3) and (14), said apparatus comprising a flow chamber (8) connected directly or indirectly eithera) with two containers (5) and (12) each of which is filled with an immobilized pH-gradient having conductivity and both buffering and titrant capacity in its pH-interval, orb) with two amphoteric isoelectric immobilized pH-membranes (25) and (26) having conductivity and both buffering and titrant capacity at a specific pH-value, orc) with one pH-gradient according to a) above and with one pH-membrane according to b) above, the isoelectric points in the extremities of the pH-gradients or membranes adjacent to the flow chamber (8) being equal to or just below the isoelectric point of the amphoteric chemical compound to be purified (anodic side) and equal to or just above the isoelectric point of said amphoteric chemical compound to be purified (cathodic side), one of which pH-gradients or pH-membranes being connected at its other extremity to the anodic chamber (14) and the remaining pH-gradient or pH-membrane being connected at its other extremity to the cathodic chamber (3).
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Accused Products
Abstract
Described is an isoelectric focusing electrophoretic process for the separation and purification of an amphoteric or neutral chemical compound from one or more electrically charged chemical compound(s). Said process is illustrated below at the example of the purification of a protein from contaminating proteins and salts. It may be carried out in an apparatus especially designed therefor, e.g. an apparatus as depicted in FIG. 1. Said apparatus and various modifications thereof are also claimed. The mixture to be separated is present within a hydraulic flow in chamber 8. Cylinders 5 and 12 contain immobilized pH-gradients or are replaced by amphoteric isoelectric pH-membranes. Each of said pH-gradients and pH-membranes has conductivity and both buffering and titrant capacity in its pH-interval. The extremities of said gradients or pH-membranes forming the ceiling and the floor of chamber 8 have isoelectric points equal to or just higher and just lower than the isoelectric point of the protein of interest which is kept at its isoelectric point in the hydraulic flow and does not enter said pH-gradients and pH-membranes. Contrary thereto the contaminating proteins and salts are driven by an electric field into said pH-gradients or via said pH-gradients or pH-membranes into the electrolyte reservoirs 3 and 14. The described process has the advantage that the desired compound need not be detected and extracted from any matrix, e.g. from said pH-gradients, and that the recovery and purity of the desired compound is higher.
62 Citations
21 Claims
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1. An isoelectric focusing electrophoretic apparatus suitable for carrying out an isoelectric focusing electrophoretic process for the separation and purification of a desired amphoteric chemical compound, soluble in a solvent suitable for said process, from one or more amphoteric chemical compounds, soluble in said solvent, the isoelectric points of which differ from the isoelectric point of the desired compound by at least 0.001 pH units, said process being carried out by using an electrophoretic apparatus, wherein the electric flow, passing through the electrophoretic matrix, is coupled to a hydraulic flow, the direction of said electric flow being different from that of said hydraulic flow, said hydraulic flow comprising a solution of said desired chemical compound in said solvent, said electrophoretic matrix being segmented into two parts by the hydraulic flow, said parts, independently of each other, representing immobilized pH-gradients (5) and (12), each having conductivity and both buffering and titrant capacity in its pH-interval, or amphoteric isoelectric immobilized pH membranes (25) and (26), each having conductivity and both buffering and titrant capacity at a specific pH-value, one part (5) or (25), being located at the cathodic side and the other, (12) or (26), being located at the anodic side, characterized in that said desired chemical compound is kept in an isoelectric state within the hydraulic flow (7), (8) and (11), and the undesired amphoteric chemical compounds are removed from the hydraulic flow by the electric flow into at least one of the two parts of said matrix, or through at least one of said parts into at least one of the electrolyte solution reservoirs (3) and (14), said apparatus comprising a flow chamber (8) connected directly or indirectly either
a) with two containers (5) and (12) each of which is filled with an immobilized pH-gradient having conductivity and both buffering and titrant capacity in its pH-interval, or b) with two amphoteric isoelectric immobilized pH-membranes (25) and (26) having conductivity and both buffering and titrant capacity at a specific pH-value, or c) with one pH-gradient according to a) above and with one pH-membrane according to b) above, the isoelectric points in the extremities of the pH-gradients or membranes adjacent to the flow chamber (8) being equal to or just below the isoelectric point of the amphoteric chemical compound to be purified (anodic side) and equal to or just above the isoelectric point of said amphoteric chemical compound to be purified (cathodic side), one of which pH-gradients or pH-membranes being connected at its other extremity to the anodic chamber (14) and the remaining pH-gradient or pH-membrane being connected at its other extremity to the cathodic chamber (3).
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11. An apparatus according to claim 30 comprising two and not more than two amphoteric isoelectric immobilized pH-membranes (25) and (26) each having controlled buffering and titrant capacity at a specific pH-value.
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20. An isoelectric focusing electrophoretic apparatus suitable for carrying out an isoelectric focusing electrophoretic process for the separation and purification of a desired amphoteric chemical compound, soluble in a solvent suitable for said process, from one or more amphoteric chemical compounds, soluble in said solvent, the isoelectric points of which differ from the isoelectric point of the desired compound by at least 0.001 pH units, said process being carried out by using an electrophoretic apparatus, wherein the electric flow, passing through the electrophoretic matrix, is coupled to a hydraulic flow, the direction of said electric flow being different from that of said hydraulic flow, said hydraulic flow comprising a solution of said desired chemical compound in said solvent, said electrophoretic matrix being segmented into two parts by the hydraulic flow, said parts, independently of each other, representing immobilized pH-gradients (5) and (12), each having conductivity and both buffering and titrant capacity in its pH-interval, one part (5) being located at the cathodic side and the other, (12) or (26), being located at the anodic side, characterized in that said desired chemical compound is kept in an isoelectric state within the hydraulic flow (7), (8) and (11), and the undesired amphoteric chemical compounds are removed from the hydraulic flow by the electric flow into at least one of the two parts of said matrix, or through at least one of said parts into at least one of the electrolyte solution reservoirs (3) and (14), said apparatus comprising a flow chamber (8) connected with two containers (5) and (12) each of which is filled with an immobilized pH-gradient, one of which gradients having at its extremity connected with the flow chamber (8) an isoelectric point just below the isoelectric point of the amphoteric chemical compound to be purified and being connected at its other extremity to the anodic chamber (14) and the remaining pH-gradient having at its extremity connected with the flow chamber (8) an isoelectric point just above the isoelectric point of said amphoteric chemical compound to be purified and being connected at its other extremity to the cathodic chamber (3).
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21. An isoelectric focusing electrophoretic apparatus suitable for being used in an isoelectric focusing electrophoretic process for the separation and purification of a desired amphoteric chemical compound, soluble in a solvent suitable for said process, from one or more amphoteric chemical compounds, soluble in said solvent the isoelectric points of which differ from the isoelectric point of the desired compound by at least 0.001 pH units, said process being carried out by using an electrophoretic apparatus, wherein the electric flow, passing through the electrophoretic matrix, is coupled to a hydraulic flow, the direction of said electric flow being different from that of said hydraulic flow, said hydraulic flow comprising a solution of said desired chemical compound in said solvent, said electrophoretic matrix being segmented into two parts by the hydraulic flow, said parts, independently of each other, representing amphoteric isoelectric immobilized pH membranes (25) and (26), each having conductivity and both buffering and titrant capacity at a specific pH-value, one part, (25), being located at the cathodic side and the other, (26), being located at the anodic side, characterized in that said desired chemical compound is kept in an isoelectric state within the hydraulic flow (7), (8) and (11), and the undesired amphoteric chemical compounds are removed from the hydraulic flow by the electric flow into at least one of the two parts of said matrix, or through at least one of said parts into at least one of the electrolyte solution reservoirs (3) and (14), said apparatus comprising a flow chamber (8) connected directly or indirectly with two devices for taking up immobilized pH-membranes (25) and (26), one of which is connected at its other extremity to the anodic chamber (14) and the remaining device is connected at its other extremity to the cathodic chamber (3).
Specification
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- Resources
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Current AssigneeNovartis Corporation (Novartis Ag)
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Original AssigneeCiba-Geigy Corporation (Novartis Ag)
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InventorsRighetti, Pier G., Faupel, Daniel M.
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Primary Examiner(s)Niebling, John
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Assistant Examiner(s)RYSER, DAVID
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Application NumberUS07/577,421Time in Patent Office504 DaysField of Search204/299 R, 204/301, 204/183.2US Class Current204/644CPC Class CodesG01N 27/44795 Isoelectric focusing
