亲核取代的特性可能会影响金属与最小锤头状核酶切割位点的相互作用。
The identity of the nucleophile substitution may influence metal interactions with the cleavage site of the minimal hammerhead ribozyme.
作者信息
Osborne Edith M, Ward W Luke, Ruehle Max Z, DeRose Victoria J
机构信息
Department of Biochemistry and Biophysics, Texas A&M University, College Station, Texas 77843, USA.
出版信息
Biochemistry. 2009 Nov 10;48(44):10654-64. doi: 10.1021/bi900614v.
Potential metal interactions with the cleavage site of a minimal hammerhead ribozyme (mHHRz) were probed using (31)P NMR-detected Cd(2+) titration studies of HHRz constructs containing a phosphorothioate (PS) modification at the cleavage site. The mHHRz nucleophile position was replaced by either a 2'-F or a 2'-NH(2) in order to block cleavage activity during the study. The 2'-F/PS cleavage site mHHRz construct, in which the 2'-F should closely imitate the atom size and electronegativity of a 2'-OH, demonstrates low levels of metal ion association (<1 ppm (31)P chemical shift changes). This observation indicates that having an atom size and electrostatic properties that are similar to the 2'-OH are not the governing factors in allowing metal interactions with the scissile phosphate of the mHHRz. With a 2'-NH(2) substitution, a large upfield change in (31)P NMR chemical shift of the phosphorothioate peak (Delta approximately 3 ppm with 6 equiv of added Cd(2+)) indicates observable Cd(2+) interactions with the substituted site. Since a 2'-NH(2), but not a 2'-F, can serve as a metal ligand, these data suggest that a metal ion interaction with the HHRz cleavage site may include both the scissile phosphate and the 2' nucleophile. Control samples in which the 2'-NH(2)/PS unit is placed either next to the mHHRz cleavage site (at U16.1), in a duplex, or in a (am)U(PS)U dinucleotide show much weaker interactions with Cd(2+). Results with these control samples indicate that simply the presence of a 2'-NH(2)/PS unit does not create a strong metal binding site, reinforcing the possibility that the 2'-NH(2)-moderated Cd-PS interaction is specific to the mHHRz cleavage site. Upfield chemical shifts of both (31)P and H-2' (1)H resonances in (am)U(PS)U are observed with addition of Cd(2+), consistent with the predicted metal coordination to both 2'-NH(2) and phosphorothioate ligands. These data suggest that metal ion association with the HHRz cleavage site may include an interaction with the 2'-OH nucleophile.
通过对在切割位点含有硫代磷酸酯(PS)修饰的锤头状核酶(HHRz)构建体进行(31)P NMR检测的Cd(2+)滴定研究,探究了潜在的金属与最小锤头状核酶(mHHRz)切割位点的相互作用。在研究过程中,为了阻断切割活性,将mHHRz亲核试剂位置替换为2'-F或2'-NH(2)。2'-F/PS切割位点mHHRz构建体中,2'-F应紧密模仿2'-OH的原子大小和电负性,该构建体显示出低水平的金属离子缔合(<1 ppm(31)P化学位移变化)。这一观察结果表明,具有与2'-OH相似的原子大小和静电性质并非允许金属与mHHRz的可切割磷酸酯相互作用中的主导因素。用2'-NH(2)取代后,硫代磷酸酯峰的(31)P NMR化学位移出现大幅上移变化(加入6当量Cd(2+)时Δ约为3 ppm),表明可观察到Cd(2+)与取代位点的相互作用。由于2'-NH(2)而非2'-F可作为金属配体,这些数据表明金属离子与HHRz切割位点的相互作用可能同时涉及可切割磷酸酯和2'亲核试剂。将2'-NH(2)/PS单元置于mHHRz切割位点旁边(U16.1处)、双链体中或(am)U(PS)U二核苷酸中的对照样品与Cd(2+)的相互作用要弱得多。这些对照样品的结果表明,仅仅存在2'-NH(2)/PS单元并不会产生强金属结合位点,这进一步证明了2'-NH(2)介导的Cd-PS相互作用对mHHRz切割位点具有特异性的可能性。加入Cd(2+)后,观察到(am)U(PS)U中(31)P和H-2'(1)H共振均出现上移化学位移,这与预测的金属与2'-NH(2)和硫代磷酸酯配体的配位情况一致。这些数据表明金属离子与HHRz切割位点的缔合可能包括与2'-OH亲核试剂的相互作用。
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