1) phytic acid enzyme preparation
植酸酶制剂
1.
The phytate phosphorus in rice bran was converted into inorganic phosphorus by means of a phytic acid enzyme preparation,so that the feed value of rive bran could be improved.
试验采用体外消化的方法,借助植酸酶制剂将米糠中的植酸磷转化为无机磷,对植酸酶制剂的消化率作了初步测定,植酸磷的消化率可达60。
2) crude phytase
粗制植酸酶
1.
A study was conducted to determine the effects of available phosphorus levels and crude phytase on layer.
为了研究粗制植酸酶(简称粗制酶)在不同AP蛋鸡日粮中添加的效果,用70周龄新罗曼蛋鸡进行饲养和代谢试验。
3) carbonic anhydrase inhibitor
碳酸酐酶抑制剂
1.
Advance in sulfonamides as carbonic anhydrase inhibitors;
磺胺类碳酸酐酶抑制剂研究进展
2.
Carbonic anhydrase inhibitors (CAIs) can decrease the generation of the aqueous humor by inhibiting the secretion of it, reducing the intraocular pressure for treatment of glaucoma.
碳酸酐酶抑制剂 (CAIs)可抑制房水分泌而减少房水的生成 ,从而起到降眼压、治疗青光眼的作用。
3.
Fifty-six patients in group 1 were treated with a beta-blocker as monotherapy; 36 patients in group 2 were treated with an alpha-adrenergic agonist as monotherapy; 48 patients in group 3 were treated with a beta-blocker in conjunction with a carbonic anhydrase inhibitor (CAI); 35 patients in group 4 were treated with an alpha-agonist,also in conjunction with CAI.
第1组56例(56眼),单一应用β阻滞剂;第2组36例(36眼),单一应用α激动剂;第3组48例(48眼),协同应用β阻滞剂与碳酸酐酶抑制剂;第4组35例(35眼),协同应用α激动剂与碳酸酐酶抑制剂。
4) tyrosinase inhibitor
酪氨酸酶抑制剂
1.
The microwave-assisted extraction(MAE)technology of tyrosinase inhibitor from Paeonia suffruticosa was studied with the yield and the relative inhibitory ratio to tyrosinase(RIRT) of the extract as evaluating indexes.
以提取物产率及其对酪氨酸酶的相对抑制率为评价指标,进行了微波辅助提取牡丹皮中酪氨酸酶抑制剂的工艺研究。
2.
Orthogonal design L16(45) and response surface methodology were successfully applied to optimize the medium composition affecting the tyrosinase inhibitors production by submerged fermentation of Ganoderma lucidum adding Scutellaria baicalensis G.
添加黄芩的灵芝发酵过程中pH变化较未添加黄芩时缓和;灵芝发酵液的酪氨酸酶抑制活性显著提高,酪氨酸酶抑制剂的产生与细胞的生长呈现部分偶联型。
5) uricase inhibitor
尿酸酶抑制剂
1.
Aim To observe the fluctuation of uric acid in serum after replicating rat hyperuricemia model with hypoxanthine, uricase inhibitor singly or combined.
目的采取单独或联合使用次黄嘌呤、尿酸酶抑制剂方法,观察受试动物大鼠血清尿酸的变化,探讨复制大鼠急性高尿酸血症模型的方法。
2.
Aim To observe the fluctuation of uric acid in serum after replicating rat hyperuricemia model with hypoxanthine、uricase inhibitor combined,and to discuss the method of continuity hyperuricemia replication on rats.
目的考察次黄嘌呤和尿酸酶抑制剂联合使用,观察造模后受试动物不同时间段血清尿酸的变化,探讨复制大鼠持续性高尿酸血症模型的方法。
3.
AIM To determine the optimal doses of hypoxanthine(HX) and uricase inhibitor oxonic acid potassium salt(OAPS) for establishment of hyperuricemia rat model,and provide experimental evidence to prepare continual hyperuricemia and gout animal model.
目的确定次黄嘌呤与尿酸酶抑制剂氧嗪酸钾(OAPS)伍用制备高尿酸血症大鼠模型的合适剂量,为制备持续性高尿酸血症及痛风大鼠模型提供实验依据。
补充资料:粗制植酸酶,曲霉菌属源
CAS: 37288-11-2
中文名称: 粗制植酸酶,曲霉菌属源
英文名称: Phytase crude, from aspergillus ficum;phytase crude;Phytase crude,from aspergillus ficum
中文名称: 粗制植酸酶,曲霉菌属源
英文名称: Phytase crude, from aspergillus ficum;phytase crude;Phytase crude,from aspergillus ficum
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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