Blauer G, Burla R, Levy S
Department of Biological Chemistry, Hebrew University of Jerusalem, Israel.
Arch Biochem Biophys. 1995 Jan 10;316(1):561-6. doi: 10.1006/abbi.1995.1075.
Complexes of ferriprotoporphyrin IX (FP) with (-)-morphine exhibit large optical activity in aqueous solution. Several CD bands of different signs were recorded under different conditions in the wavelength range of 300 to 450 nm. The largest CD band, centered at about 364 nm, showed molar ellipticities of about -5 x 10(5) deg.cm2.dmol-1 based on FP (rotational strength of about -3 DBM). An optimum pH range of 7.4 to 7.8 with regard to optical activity of the complex has been observed. Concomitantly with the formation of optically active complexes, large aggregates are being formed as determined by ultracentrifugation. A mole ratio of 1 between FP and morphine in the complex was estimated from both CD titration and measurement of the amounts of aggregate formed upon variation of the mole fraction of the complex components. Derivatives of morphine such as heroin or codeine do not form optically active complexes and aggregates under similar conditions. As in the analogous FP-quinine and FP-quinidine complexes investigated previously, the optical activity observed is considered to originate at least in part from optical interactions between FP molecules arrayed chirally in the FP-(-)-morphine aggregates.
铁原卟啉IX(FP)与(-)-吗啡的复合物在水溶液中表现出很强的光学活性。在300至450nm波长范围内的不同条件下记录到了几个不同符号的圆二色(CD)带。最大的CD带中心位于约364nm处,基于FP的摩尔椭圆率约为-5×10⁵度·厘米²·摩尔⁻¹(旋转强度约为-3 DBM)。已观察到该复合物光学活性的最佳pH范围为7.4至7.8。通过超速离心确定,在形成光学活性复合物的同时,会形成大的聚集体。通过CD滴定以及测量复合物组分摩尔分数变化时形成的聚集体量,估计复合物中FP与吗啡的摩尔比为1。吗啡的衍生物如 heroin 或可待因在类似条件下不会形成光学活性复合物和聚集体。正如之前研究的类似FP-奎宁和FP-奎尼丁复合物一样,观察到的光学活性被认为至少部分源于手性排列在FP-(-)-吗啡聚集体中的FP分子之间的光学相互作用。
