Summary
From the studies of the ciruclar dichroism and absorption spectra of Acridine-Orange-glucose sulfate complex, we have deduced the following interesting explanation; If AO is situated in an environment which contains center of asymmetrical carbon atoms, it becomes optically active by induction.
Zusammenfassung
Aus Untersuchungen des Zirkulardichroismus und der Absorption-Spektren des Acridin Orange-Glukossulfat-Komplex folgern wir: wenn das AO sich in einem Zentrum mit assymerischen Kohlenstoffatom befindet, wirkt es optisch.
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References
Blout, E. R., Biopolymer, Symposia No. 1, 397 (1961).
Nishida, K., T. Akimoto, H. Shindate, H. Uedaira Kolloid-Z. u. Z. Polymere243, 97 (1971).
Nishida, K., S. Isbige, H. Watanabe, Colloid & Polymer Sci.254, 481 (1976).
Nishida, K., S. Ushikubo, H. Watanabe, ibid.,256, 541 (1978).
Nishida, K., K. Sbibata, H. Watanabe, ibid.255, 1008 (1977).
Imae;T., S. Ikeda, Biopolymer15, 1655 (1976).
Hoffmann-La Roche Inc., USP, 2923704 (l960).
Britton, H. T. S., R. A. Robinson, J. Chem. Soc., 1456 (1931). J. Phys. Chem.
Nordén, B., J. Phys. Chem.81, 51 (1977), J. Maurus and G. R. Bird., ibid.76, 2983 (1972).
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Nishida, K., Ando, Y. & Nomura, H. Studies of optical properties of Acridine Orange-glucose sulfate complex. Colloid & Polymer Sci 257, 603–605 (1979). https://doi.org/10.1007/BF01548829
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DOI: https://doi.org/10.1007/BF01548829