Osmotic reaction cell for monitoring biological and non-biological reactions
First Claim
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1. A method for monitoring reactivity in reactions between a first and second material of interest, said method comprising the steps of:
- a) providing an osmotic reaction cell comprising first and second wells having substantially the same physical dimensions and a semi-permeable membrane separating said first and second wells;
b) introducing a reference solution comprising any one or combination of the first material of interest, the second material of interest, a surrogate reference material and a carrier fluid into one of said first well and said second well;
c) introducing a reaction mixture into one of said first well or said second well, which does not contain said reference solution, said reaction mixture comprising a carrier fluid and said first and second materials of interest;
d) allowing the first and second wells to achieve equilibrium; and
e) monitoring a change in an osmotic pressure in the well containing said reference material by measuring the amount of deformation in a flexible diaphragm operatively associated only with the well of step b), the change being indicative of a reaction within the first or second well, occurring as a result of a change in concentration in said osmotic reaction cell of one or more of said first material, second material, surrogate reference material or reaction products formed from said first and second materials as a result of the reaction thereof.
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Abstract
A method and apparatus for measuring the presence or absence of reaction between a first and second material of interest by measuring osmotic pressure changes in a reaction cell. The reaction cell is capable of measuring the small changes in pressure that occur due to osmotic pressure shifts during a catalytic or binding reaction at species concentrations down to approximately 10−7 M.
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Citations
18 Claims
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1. A method for monitoring reactivity in reactions between a first and second material of interest, said method comprising the steps of:
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a) providing an osmotic reaction cell comprising first and second wells having substantially the same physical dimensions and a semi-permeable membrane separating said first and second wells; b) introducing a reference solution comprising any one or combination of the first material of interest, the second material of interest, a surrogate reference material and a carrier fluid into one of said first well and said second well; c) introducing a reaction mixture into one of said first well or said second well, which does not contain said reference solution, said reaction mixture comprising a carrier fluid and said first and second materials of interest; d) allowing the first and second wells to achieve equilibrium; and e) monitoring a change in an osmotic pressure in the well containing said reference material by measuring the amount of deformation in a flexible diaphragm operatively associated only with the well of step b), the change being indicative of a reaction within the first or second well, occurring as a result of a change in concentration in said osmotic reaction cell of one or more of said first material, second material, surrogate reference material or reaction products formed from said first and second materials as a result of the reaction thereof. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
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16. A method for monitoring reactions, the method comprising measuring osmotic pressure changes in a reaction cell comprising first and second wells having substantially the same physical dimensions and a semi-permeable membrane separating said first and second wells;
- said reaction cell containing a well with a reference solution and a well with a reaction mixture, wherein said method of measuring includes allowing the reaction chamber to reach equilibrium, and then measuring said osmotic pressure changes as low as 1.2 N/m2 in said well containing the reference solution by measuring the amount of deformation in a flexible diaphragm only operatively associated with said well containing said reference solution, said osmotic pressure changes being indicative of a reaction within said first or second wells as a result of a reaction in said first and second wells.
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17. A method for monitoring reactions, the method comprising measuring osmotic pressure changes in individual reaction cells positioned in an array of parallel reaction cells, each reaction cell comprising first and second wells having substantially the same physical dimensions and a semi-permeable membrane separating said first and second wells;
- said reaction cells each containing a well with a reaction mixture and a well with a reference solution, wherein said method of measuring includes allowing the reaction chamber to reach equilibrium, and then measuring said osmotic pressure changes as low as 1.2 N/m2 in said well containing the reference solution by measuring the amount of deformation in a flexible diaphragm only operatively associated with said well containing said reference solution, said osmotic pressure changes being indicative of a reaction within said first or second wells as a result of a reaction in said first and second wells.
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18. A method for monitoring reactivity in reactions between a first and second material of interest, said method comprising the steps of:
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a) providing an osmotic reaction cell comprising first and second wells having substantially the same physical dimensions and a semi-permeable membrane separating said first and second wells; b) introducing a reference solution comprising any one or combination of the first material of interest, the second material of interest, a surrogate reference material and a carrier fluid into one of said first well and said second well; c) introducing a reaction mixture into one of said first well or said second well, which does not contain said reference solution, said reaction mixture comprising a carrier fluid and said first and second materials of interest; d) allowing the first and second wells to achieve equilibrium; and e) monitoring a change in an osmotic pressure in the well containing said reference material in said osmotic reaction cell by measuring the amount of deformation in a flexible diaphragm only operatively associated with said well of step b), the change being indicative of a reaction within the first or second well, occurring as a result of a change in concentration in said osmotic reaction cell of one or more of said first material, second material, surrogate reference material or reaction products formed from said first and second materials as a result of the reaction thereof.
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Specification