Alessi D R, Corrie J E, Fajer P G, Ferenczi M A, Thomas D D, Trayer I P, Trentham D R
School of Biochemistry, University of Birmingham, Edgbaston, U.K.
Biochemistry. 1992 Sep 1;31(34):8043-54. doi: 10.1021/bi00149a039.
The synthesis is described of a spin-labeled analog of ATP, 2',3'-O-(1-oxy-2,2,6,6-tetramethyl-4-piperidylidene)adenosine 5'-triphosphate (SL-ATP). The spin-label moiety is attached by two bonds to the ribose ring as a spiroketal and hence has restricted conformational mobility relative to the ribose moiety of ATP. The synthesis proceeds via an acid-catalyzed addition of adenosine 5'-monophosphate to 1-acetoxy-4-methoxy-2,2,6,6-tetramethyl-1,2,5,6-tetrahydropyridine in acetonitrile. The spiroketal product is pyrophosphorylated, and alkaline hydrolysis with concomitant aerial oxidation gives the required product. The spin-labeled moiety probably takes up two rapidly interconverting conformations with respect to the ribose ring on the basis of the 1H NMR spectra of its precursors and related uridine derivatives [Alessi et al. (1991) J. Chem. Soc., Perkin Trans.1,2243-2247]. SL-ATP is a substrate for myosin and actomyosin with similar kinetic parameters to ATP during triphosphatase activity. SL-ATP supports muscle contraction and permits relaxation of permeabilized rabbit skeletal muscle fibers. SL-ADP is a substrate for yeast 3-phosphoglycerate kinase, thus permitting regeneration of SL-ATP from SL-ADP within muscle fibers. Electron paramagnetic resonance (EPR) studies of SL-ADP bound to myosin filaments and to myofibrils show a degree of nanosecond motion independent of that of the protein, which may be due to conformational flexibility of the ribose moiety of ATP bound to myosin's active site. This nanosecond motion is more restricted in myofibrils than in myosin filaments, suggesting that the binding of actin affects the ribose binding site in myosin. EPR studies on SL-ADP bound to rigor cross-bridges in muscle fiber bundles showed the nucleotide to be highly oriented with respect to the fiber axis.
描述了一种ATP的自旋标记类似物2',3'-O-(1-氧代-2,2,6,6-四甲基-4-哌啶叉基)腺苷5'-三磷酸(SL-ATP)的合成。自旋标记部分通过两个键作为螺环缩酮连接到核糖环上,因此相对于ATP的核糖部分,其构象流动性受到限制。合成过程是在乙腈中,通过酸催化将腺苷5'-单磷酸加成到1-乙酰氧基-4-甲氧基-2,2,6,6-四甲基-1,2,5,6-四氢吡啶上。螺环缩酮产物进行焦磷酸化,然后通过碱性水解并伴随空气氧化得到所需产物。根据其前体和相关尿苷衍生物的1H NMR光谱,自旋标记部分相对于核糖环可能采取两种快速相互转化的构象[阿莱西等人(1991年)《化学学会志,珀金 Transactions 1》,2243 - 2247页]。SL-ATP是肌球蛋白和肌动球蛋白的底物,在三磷酸酶活性期间,其动力学参数与ATP相似。SL-ATP支持肌肉收缩,并使通透的兔骨骼肌纤维松弛。SL-ADP是酵母3-磷酸甘油酸激酶的底物,从而允许在肌肉纤维内从SL-ADP再生SL-ATP。对结合到肌球蛋白丝和肌原纤维上的SL-ADP进行电子顺磁共振(EPR)研究表明,存在一定程度的纳秒级运动,该运动与蛋白质的运动无关,这可能是由于结合到肌球蛋白活性位点的ATP核糖部分的构象灵活性所致。这种纳秒级运动在肌原纤维中比在肌球蛋白丝中受到的限制更大,这表明肌动蛋白的结合会影响肌球蛋白中的核糖结合位点。对结合到肌肉纤维束中僵直横桥上的SL-ADP进行的EPR研究表明,核苷酸相对于纤维轴高度定向。
