Carbon dioxide hydration activity and metal—substrate distances of manganese (II) human carbonic anhydrase B determined by 13C magnetization—transfer NMR

Johansen Jack T.; Led Jens J.; Neesgaard Ebbe

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Carbon dioxide hydration activity and metal—substrate distances of manganese (II) human carbonic anhydrase B determined by 13C magnetization—transfer NMR

机译：用13C磁化强度测定锰（II）人碳酸酐酶B的二氧化碳水合活性和金属-底物的距离-转移NMR

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>A CO₂ hydration activity for Mn(II) human carbonic anhydrase B (MnHCAB) of 7% of the activity of the native Zn2+ enzyme has been determined using a 13C magnetization—transfer NMR approach, that involves two complementary experiments. As this approach also allows a determination of the individual relaxation rates of the enzyme-bound CO₂ and HCO− ₃, an evaluation could be made of the distances between these substrates and the paramagnetic Mn2+ in the active site. Thus HCO− ₃ is found to bind directly to Mn2+, whereas CO₂ is attached relatively weakly to the enzyme without a direct bond to the metal ion.

机译：已确定Mn（II）人碳酸酐酶B（MnHCAB）的> CO _{2 水合活性为天然Zn 2 + 酶活性的7％使用 13 C磁化转移NMR方法，其中涉及两个互补实验。由于该方法还可以确定酶结合的CO _{2 和HCO - _{3 的单个弛豫率，因此可以进行评估这些底物与活性位点中顺磁性Mn 2 + 之间的距离。因此，发现HCO - _{3 直接与Mn 2 + 结合，而CO _{2 相对较弱地与酶不与金属离子直接键合。}}}}}

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《FEBS Letters》 |1982年第1期|共页
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Johansen Jack T.; Led Jens J.; Neesgaard Ebbe;
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1. 13C saturation transfer effect of carbon dioxide-bicarbonate exchange catalyzed by carbonic anhydrase in vivo. [J] . Yang J, Singh S, Shen J Magnetic resonance in medicine: official journal of the Society of Magnetic Resonance in Medicine . 2008,第3期

机译：碳酸酐酶在体内催化二氧化碳-碳酸氢根交换的13 C饱和转移效应。
2. Histidine 64 is not required for high CO2 hydration activity of human carbonic anhydrase II [J] . Behravan Gity, Forsman Cecilia, Jonsson Bengt-Harald, FEBS Letters . 1988,第2期

机译：组氨酸64不需要人碳酸酐酶II的高CO2水合活性
3. How carbonic anhydrases and pH buffers facilitate the movement of carbon dioxide through biological membranes. Focus on "Evidence from simultaneous intracellular- and surface-pH transients that carbonic anhydrase II enhances CO2 fluxes across Xenopus oocyte plasma membranes" [J] . Eric Delpire American Journal of Physiology . 2014,第5aPta1期

机译：碳酸酐和pH缓冲液如何促进二氧化碳的运动通过生物膜。专注于“来自同时细胞内 - 和表面pH瞬变的证据，即碳酸酐酶II增强了卵脓性卵母细胞血浆膜的CO 2助熔剂”
4. Dissolved carbonic anhydrase for enhancing post-combustion carbon dioxide hydration in aqueous ammonia [C] . James R. Collett, Robert W. Heck, Andrew J. Zwoster GHGT-10 . 2011

机译：溶解的碳酸酐酶加强氨水中燃烧后的二氧化碳水合
5. High-throughput screening studies of inhibition of human carbonic anhydrase II and bacterial flagella antimicrobial activity. [D] . Barrese, Albert A., III. 2010

机译：高通量筛选研究抑制人类碳酸酐酶II和细菌鞭毛的抗菌活性。
6. Carbon Dioxide Hydration Activity of Carbonic Anhydrase: Kinetics of Alkylated Anhydrases B and C from Humans [O] . Raja G. Khalifah, John T. Edsall 1972

机译：碳酸酐酶的二氧化碳水化活性：人类烷基化酸酐酶B和C的动力学
7. Carbon dioxide hydration activity and metal—substrate distances of manganese (II) human carbonic anhydrase B determined by 13C magnetization—transfer NMR [O] . Led Jens J., Neesgaard Ebbe, Johansen Jack T. 1982

机译：用13C磁化强度测定锰（II）人碳酸酐酶B的二氧化碳水合活性和金属-底物的距离-转移NMR
8. Dynamic 13C NMR Investigations of Substrate Interaction and Catalysis by Cobalt(II) Human Carbonic Anhydrase I [R] . Williams, T. J., Henkens, R. W. 1985

机译：基质相互作用和钴（II）人碳酸酐酶催化的动态13C NmR研究I.

Carbon dioxide hydration activity and metal—substrate distances of manganese (II) human carbonic anhydrase B determined by 13C magnetization—transfer NMR

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