Heimer Y M
Atomic Energy Commission, Nuclear Research Centre-Negev, Beer-Sheva, Israel.
Plant Physiol. 1976 Jul;58(1):57-9. doi: 10.1104/pp.58.1.57.
Nitrate reductase of the salt-tolerant alga Dunaliella parva could utilize NADPH as well as NADH as an electron donor. The two pyridine nucleotide-dependent activities could not be separated by either ion exchange chromatography on DEAE-cellulose or gel filtration on Sepharose 4B. The NADPH-dependent activity was not inhibited by phosphatase inhibitors. NADPH was not hydrolyzed to NADH and inorganic phosphate in the course of nitrate reduction. Reduction of nitrate in vitro could be coupled to a NADPH-regenerating system of glycerol and NADP-dependent glycerol dehydrogenase. It is concluded that the nitrate reductase of D. parva will function with NADPH as well as NADH. This is a unique characteristic not common to most algae.
耐盐藻类杜氏盐藻的硝酸还原酶既可以利用NADPH也可以利用NADH作为电子供体。这两种依赖于吡啶核苷酸的活性,无论是通过DEAE -纤维素离子交换色谱法还是Sepharose 4B凝胶过滤法都无法分离。依赖于NADPH的活性不受磷酸酶抑制剂的抑制。在硝酸盐还原过程中,NADPH不会水解为NADH和无机磷酸盐。体外硝酸盐还原可以与甘油和NADP依赖性甘油脱氢酶的NADPH再生系统偶联。得出的结论是,杜氏盐藻的硝酸还原酶可以利用NADPH和NADH发挥作用。这是大多数藻类所没有的独特特征。