Низькочастотні фононні спектри комбінаційного розсіювання світла компонентів нуклеїнових кислот: пуринові основи

Говорун, Д. М.; Міщук, Я. Р.; Желтовський, М. В.

doi:10.7124/bc.000267

Biopolym. Cell. 1990; 6(3):24-31.

http://dx.doi.org/10.7124/bc.000267

Структура та функції біополімерів

Низькочастотні фононні спектри комбінаційного розсіювання світла компонентів нуклеїнових кислот: пуринові основи

1Говорун Д. М., 1Міщук Я. Р., 1Желтовський М. В.

Інститут молекулярної біології і генетики АН УСРС
Київ, СРСР

Abstract

Виконано детальне дослідження низькочастотних (10 см^–1 <v <200 см^–1) спектрів KP світла полікристалічних аденіну та гуаніну за температури 300 К. Ототожнено смуги, що відповідають коливанням кристалічної решітки. На основі аналізу отриманих і літературних даних зроблено висновки про структурні властивості досліджених речовин. Обговорюється можливе застосування одержаних результатів у біофізиці.

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References

[1] Shtepanek I, Baumruk V. Raman spectroscopy of nucleic acids components. Proc. of the 2nd coordination seminar of USSR-Czechoslovakia Ministry of Education. Vilnius, Mokslal, 1986; 34-42.

[2] Elinek O. Model systems of nucleic acids. Proc. of the 2nd coordination seminar of USSR-Czechoslovakia Ministry of Education. Vilnius, Mokslal, 1986; 84-91.

[3] Maleev VIa. Spiral oscillation of bases in nucleic acid. Biofizika. 1965;10(5):729-34. Russian.

[4] Urabe H, Tominaga Y, Kubota K et al. Low-lying collective vibrational modes in DNA double helix. Proc. 9 Int. conf. Raman spectr. Tokyo, 1984:158-159.

[5] Weidlich T, Lindsay SM. Raman study of the low frequency vibrations of polynucleotides. J Phys Chem. 1988;92(23):6479–82.

[6] Weidlich T, Lindsay SM, Lee SA, Tao NJ, Lewen GD, Peticolas WL, et al. Low-frequency Raman spectra of DNA: a comparison between two oligonucleotide crystals and highly crystalline films of calf thymus DNA. J Phys Chem. 1988;92(12):3315–7.

[7] Nielsen OF, Lund PA, Nielsen LS, Praestgaard E. Aspects of low frequency vibrations (20-350 cm-1) from Watson-Crick base pairing in an aqueous solution of tRNA. Biochem Biophys Res Commun. 1983;111(1):120-6.

[8] Nielsen OF, Chrystensen DH. Low frequency Raman spectra (20-200 cm-1) of nucleosides, nucleotides and nucleic acids in aqueous solutions. Spectroscopy of biological molecules. Chichester; New York: John Wiley Sons, 1985:127-9.

[9] Wittlin A, Genzel L, Kremer F, Häseler S, Poglitsch A, Rupprecht A. Far-infrared spectroscopy on oriented films of dry and hydrated DNA. Phys Rev A. 1986;34(1):493-500.

[10] Powell JW, Edwards GS, Genzel L, Kremer F, Wittlin A, Kubasek W, Peticolas W. Investigation of far-infrared vibrational modes in polynucleotides. Phys Rev A. 1987;35(9):3929-3939.

[11] Beetz CP Jr, Asearelli G. The low-frequency vibrational modes of an RNA: poly(I)-poly(C). Biopolymers. 1976;15(11):2299-301.

[12] Devi Prasad KV, Prohofsky EW. Low-frequency lattice mode predictions in A-DNA compared to experimental observations and significance for A-to-B conformation change. Biopolymers. 1984;23(9):1795-8.

[13] Devi Prasad KV, Prohofsky EW. Conformational changes in DNA and soft modes. J Biomol Struct Dyn. 1985;3(3):551-8.

[14] Webb SJ. Laser-Raman spectroscopy of living cells. Phys Reports. 1980;60(4):201–24.

[15] Volkov SN, Kosevich AM. Conformation oscillations of DNA. Mol Biol (Mosk). 1987;21(3):797-806.

[16] Volkov SN, Kosevich AM, Wainreb GE. Theoretical studies in low-frequency vibrations of DNA macromolecules. Biopolym. Cell. 1989; 5(6):32-9.

[17] Chou KC. Low-frequency collective motion in biomacromolecules and its biological functions. Biophys Chem. 1988;30(1):3-48.

[18] Chou KC, Mao B. Collective motion in DNA and its role in drug intercalation. Biopolymers. 1988;27(11):1795-815.

[19] Lord RC, Thomas GJ. Raman spectral studies of nucleic acids and related molecules—I Ribonucleic acid derivatives. Spectrochim Acta A. 1967;23(9):2551–91.

[20] Lautie A, Novak A. Spectres infrarouges et Raman de l'adenine, de son sel de sodium et de quelques derives deuteries. J Chim Phys. 1974; 71(3):415-20.

[21] Savoie R, Jutier J-J, Prizant L, Beauchamp AL. Raman and infrared spectra of methylmercury complexes of adenine. Spectrochim Acta A. 1982;38(5):561–8.

[22] Delabar J-M, Majoube M. Infrared and Raman spectroscopic study of 15N and D-substituted guanines. Spectrochim Acta A. 1978;34(2):129–40.

[23] Mathlouthi M, Seuvre AM, Koenig JL. F.t.-i.r. and laser-Raman spectra of guanine and guanosine. Carbohydr Res. 1986;146(1):15-27.

[24] Susi H, Ard JS, Purcell JM. Vibrational spectra of nucleic acid constituents—II. Spectrochim Acta A. 1973;29(4):725–33.

[25] Susi H, Ard JS. Planar valence force constants and assignments for pyrimidine derivatives. Spectrochim Acta A. 1974;30(9):1843–53.

[26] Mathlouthi M, Seuvre AM, Koenig JL. F.t.-i.r. and laser-Raman spectra of cytosine and cytidine. Carbohydr Res. 1986;146(1):1-13.

[27] Susi H, Ard JS. Vibrational spectra of nucleic acid constituents—I. Planar vibrations of uracil. Spectrochim Acta A. 1971;27(9):1549–62.

[28] Maleev VYa, Ctanevich AYe. The absorption spectra of nitrogenous bases crystals in the far infrared. Spectroscopy in solids. Leningrad, Nauka, 1969; 4:95-100.

[29] Beetz CP, Ascarelli G. The low frequency vibrations of pyrimidine and purine bases. Spectrochim Acta A. 1980;36(3):299–313.

[30] Shimanouchi T, Harada I. Far-Infrared Spectra of Cyanuric Acid, Uracil, and Diketopiperazine. J Chem Phys. 1964;41(9):2651-5.

[31] Hirakawa AY, Okada H, Sasagawa S, Tsuboi M. Infrared and Raman spectra of adenine and its 15N and 13C substitution products. Spectrochim Acta A. 1985;41(1-2):209–16.

[32] Govorun DN, Zheltovskiy NV. Hardware complex for the study of Raman spectra of biopolymers. Abstracts of reports 6th Conf. on spectroscopy of biopolymers. Kharkiv, 1988; 98-99.

[33] Bobrov AV, Muldakhmetov ZhM. Raman spectroscopy. Alma-Ata, Nauka, 1981; 153 p.

[34] Kalinkina IN, Grechushnikov BN. Decomposition methods for the complex spectral contour into individual components. Spectroscopy of Molecules and Crystals: Abstracts of 5th respublikanckoy shkoly-seminara. Kyiv, Naukova Dumka, 1983; 193-9.

[35] Tanabe K, Hiraishi J. Correction of finite slit width effects on Raman line widths. Spectrochim Acta A. 1980;36(4):341–4.

[36] Tret'yak SM, Mitkevich VV, Sukhodub LF. Adenine structure, its alkyl derivatives and their crystalline hydrates. Abstracts of reports 7th All-Union. symp. Pushchino, 1986; 125-6.

[37] Harada I, Lord RC. Low-frequency infrared and Raman spectra of some adenine and uracil crystals. Spectrochim Acta A. 1970;26(12):2305–18.

[38] Babkov LM, Puchkovskaya GA, Makarenko SP, Gavrilko TA. IR spectroscopy of molecular hydrogen-bonded crystals. Kyiv, Naukova Dumka, 1989; 160 p.