机译:O-2耐受H-2通过[niFE]氢酶的孤立的大亚基激活
Tech Univ Berlin Dept Chem Sekr PC14 D-10623 Berlin Germany;
Tech Univ Berlin Dept Chem Sekr PC14 D-10623 Berlin Germany;
Tech Univ Berlin Dept Chem Sekr PC14 D-10623 Berlin Germany;
Tech Univ Berlin Dept Chem Sekr PC14 D-10623 Berlin Germany;
Humboldt Univ Dept Biol D-10115 Berlin Germany;
Tech Univ Berlin Dept Chem Sekr PC14 D-10623 Berlin Germany;
Tech Univ Berlin Dept Chem Sekr PC14 D-10623 Berlin Germany;
Free Univ Berlin Dept Phys D-14195 Berlin Germany;
Tech Univ Berlin Dept Chem Sekr PC14 D-10623 Berlin Germany;
Tech Univ Berlin Dept Chem Sekr PC14 D-10623 Berlin Germany;
机译:O-2耐受H-2通过[niFE]氢酶的孤立的大亚基激活
机译:O-2耐受膜结合[NiFE]氢酶的氪衍生化揭示了气体运输疏水隧道网络
机译:核共振振动光谱揭示了FeS簇的组成和耐O-2的NAD(+)还原[NiFe]氢化酶的活性位点振动特性
机译:阐明NiFe氢酶的非激活Ni-Sir和活性Ni-Sia状态的活化/灭活机制
机译:[NiFe]-加氢酶成熟需要HypB二聚化和HypA / HypB相互作用。
机译:富营养小球藻H16的可溶性NAD +还原NiFe-氢酶包括6个亚基可以被NADPH特异性激活
机译:核共振振动光谱揭示了FeS簇的组成和耐O-2的NAD(+)还原[NiFe]氢化酶的活性位点振动特性