تفاعل #1845213
ord-d179c01ed86d4269a96cceeecc03314d
معادلة التفاعل
المتفاعلات
الكواشف
ظروف التفاعل
المعالجة
- 1أخرىSuch analysis can be carried out by preparing a single polyurethane tube
- 2أخرىThe unified stream is passed through heater bath
الإجراء التجريبي
Numerous applications for bound or immobilized enzymes are known. The present invention is especially suited for the analysis of creatine phosphokinase (CPK). Such analysis can be carried out by preparing a single polyurethane tube having a mixture of hexokinase and glucose-6-phosphate dehydrogenase (G6PDH) bound on the interior surface thereof. With reference to the FIGURE there is described, schematically, a mechanical system for continuous analyses of a large number of serum samples. Such devices are well known, e.g., the Technicon AAII by Technicon Corp., Tarrytown, N.Y. In the FIGURE, the serum sample is placed in sample tray I, which delivers the sample through line 3 to unified pumping head 5 at a rate of 0.32 cc/min. Simultaneously a mixture of creatine phosphate, adenosine diphosphate, Mg++ and N-acetylcysteine is monitored (0.60 cc/min.) through line 7 into pumping head 5, and air is monitored through line 9 at a rate of 0.32 cc/min. N-acetylcysteine (N-Ac) is required as a CPK 15 activator. The air and CP/ADP/N-Ac/Mg++ streams are mixed in coil 11 and subsequently combined with sample stream 3. The unified stream is passed through heater bath 13 wherein the stream is heated to about 37° C. Thereafter the heated stream is passed into the upper chamber 15 of dialyzer 16. Any CPK present in the sample catalyzes reaction between the CP and ADP to produce ATP and creatine. The ADP, ATP and creatine diffuse through membrane 17 into the second chamber 19 of dialyzer 16. The second chamber of the dialyzer also contains NAD/glucose/Mg++ mixture injected into the system through line 21 (1.00 cc/min.) via pumping head 5. The NAD/glucose/Mg++ mixture is mixed with air injected via line 23 (0.32 cc/min.) through pumping head 5. The NAD/glucose Mg++ air stream procedes via line 25 into dialyzer chamber 19 and is combined with ATP from the upper chamber 15. Thereafter the unified stream is passed through line 31 through coiled tube 33 and flow cell 41. Thereafter the sample is passed through line 51 and pumping head 5 to a waste receptacle.