Bruist M F, Hammes G G
Biochemistry. 1981 Oct 27;20(22):6298-305. doi: 10.1021/bi00525a003.
The solubilized coupling factor from spinach chloroplasts (CF1) contains one nondissociable ADP/CF1 which exchanges slowly with medium ADP in the presence of Ca2+, Mg2+, or EDTA; medium ATP also exchanges in the presence of Ca2+ or EDTA, but it is hydrolyzed, and only ADP is found bound to CF1. The rate of ATP exchange with heat-activated CF1 is approximately 1000 times slower than the rate of ATP hydrolysis. In the presence of Mg2+, both latent CF1 and heat-activated CF1 bind one ATP/CF1, in addition to the ADP. This MgATP is not removed by dialysis, by gel filtration, or by the substrate CaATP during catalytic turnover; however, it is released when the enzyme is stored several days as an ammonium sulfate precipitate. The photoaffinity label 3'-O-[3-[N-(4-azido-2-nitrophenyl)amino]-propionyl]-ATP binds to the MgATP site, and photolysis results in labeling of the beta subunit of CF1. Equilibrium binding measurements indicate that CF1 has two identical binding sites for ADP with a dissociation constant of 3.9 microM (in addition to the nondissociable ADP site). When MgATP is bound to CF1, one ADP binding site with a dissociation constant of 2.9 microM is found. One ATP binding site is found in addition to the MgATP site with a dissociation constant of 2.9 microM. Reaction of CF1 with the photoaffinity label 3'-O-[3-[N-(4-azido-2-nitrophenyl)amino]propionyl]-ADP indicates that the ADP binding site which is not blocked by MgATP is located near the interface of alpha and beta subunits. No additional binding sites with dissociation constants less than 200 micro M are observed for MgATP with latent CF1 and for CaADP with heat-activated CF1. Thus, three distinct nucleotide binding sites can be identified on CF1, and the tightly bound ADP and MgATP are not at the catalytic site. The active site is either the third ADP and ATP binding site or a site not yet detected.
来自菠菜叶绿体的可溶偶联因子(CF1)含有一个不可解离的ADP/CF1,在Ca2+、Mg2+或EDTA存在的情况下,它与介质中的ADP交换缓慢;在Ca2+或EDTA存在的情况下,介质中的ATP也会交换,但会被水解,并且仅发现ADP与CF1结合。热激活的CF1与ATP的交换速率比ATP水解速率慢约1000倍。在Mg2+存在的情况下,除了ADP之外,潜在的CF1和热激活的CF1都结合一个ATP/CF1。在催化周转过程中,这种MgATP不会通过透析、凝胶过滤或底物CaATP被去除;然而,当酶作为硫酸铵沉淀储存几天时,它会被释放。光亲和标记3'-O-[3-[N-(4-叠氮基-2-硝基苯基)氨基]-丙酰基]-ATP与MgATP位点结合,光解导致CF1的β亚基被标记。平衡结合测量表明,CF1具有两个相同的ADP结合位点,解离常数为3.9 microM(除了不可解离的ADP位点)。当MgATP与CF1结合时,发现一个解离常数为2.9 microM的ADP结合位点。除了MgATP位点之外,还发现一个ATP结合位点,解离常数为2.9 microM。CF1与光亲和标记3'-O-[3-[N-(4-叠氮基-2-硝基苯基)氨基]丙酰基]-ADP的反应表明,未被MgATP阻断的ADP结合位点位于α和β亚基的界面附近。对于潜在的CF1与MgATP以及热激活的CF1与CaADP,未观察到解离常数小于200 microM的其他结合位点。因此,可以在CF1上鉴定出三个不同的核苷酸结合位点,紧密结合的ADP和MgATP不在催化位点。活性位点要么是第三个ADP和ATP结合位点,要么是尚未检测到的位点。
