Биологический каталог

Принципы структурной организации нуклеиновых кислот

Автор В.Зенгер

J. New Developments in molecular orbital theory, Rev. Mod. Phys, 23, 69-89 (1951).

80. BlundellT.L, Johnson L.N. Protein Crystallography, Academic Press, New York, 1976. [Имеется перевод: Бланделл T, Джонсон Л, Кристаллография белка.-М.: Мир, 1979.]



81. Holmes КС, Blow DM. The Use of X-Ray Diffraction in the Study of Protein - and Nucleic Acid Structure, Interscience, New York, 1966.

82. Dickerson R. E., Корка M. L, Varnum J. C, Weinzierl J. E. Bias, feedback and ¦ reliability in isomorphous phase analysis, Acta Crystallogr, 23, 511-522 (1967).

83. Richards F. M. The matching of physical models to three-dimensional i electron-density maps; a simple optical device, J. Mol. Biol, 37, 225 230 (1968).

84. Chambers J. L, Stroud R.M. The accuracy of refined protein structures: * Comparison of two independently refined models of bovine trypsin, Acta

Crystallogr, B, 35, 1861-1874 (1979).

85. Stout C. D., Mizuno H., Rao S. Т., Swaminathan P., Rubin J, Brennan Т., Sundaralingam M. Crystal and Molecular structure of yeast phenylalanyl transfer RNA. Structure determination, difference Fourier refinement, molecular

V conformation, metal and solvent binding, Acta Crystallogr, B, 34, 1529-1544 (1978).

86. Sussman J. L, Holbrook S. R., Warrant R. W., Kim S.-H. Crystal structure of m yeast phenylalanine transfer RNA. I. Crystallographic refinement, J. Mol. Biol, Г 123, 607 630 (1978).

87. Jack A., Ladner J. E., Klug A. Crystallographic refinement of yeast phenylalanine transfer RNA at 2,5 A resolution, J. Mol. Biol, 108, 619 649

t (1976).

88. Giannoni G, Padden F, Keith H. D. Crystallization of DNA from dilute solution, Proc. Nat. Acad. Sci. USA, 62, 964-971 (1969).

'9. Lerman L. S, Wilkerson L. S, Venable J. H., Jr., Robinson В. H. DNA packing in single crystals inferred from freeze-fracture-etch replicas, J. Mol. Biol, 108, k. 271-293 (1976).

0. Kliya M. O., Osika V. D. Morphology and growth of DNA cetavlate salt crystals, Sov. Phys. Crystallogr, 21, 681-687 (1976) [in English]. 91. Polivtsev O.F., Osika V.D., Sukharevskii B. Ya., Tsvankin D. Ya. X-Ray diffraction from individual crystals of cetavlon salt of DNA, Sov. Phys. Crystallogr, 22, 45-48 (1977) [in English]. .92. Fuller W., Hutchinson F, Spencer M., Wilkins M. H. F. Molecular and crystal m structure of double-helical RNA. I. An X-ray diffraction study of fragmented yeast RNA model, J. Mol. Biol, 27, 507 524 (1967).

93. Henry N. F. M., Lipson H., Wooster W. A The Interpretation of X-ray I Diffraction Photographs, Macmillan, New York, 1961.

94. Marvin D. A., Spencer M, Wilkins M. H. F, Hamilton L D. The molecular I configuration of DNA. III. X-ray diffraction study of the С form of the lithium

salt, J. Mol. Biol, 3, 547-565 (1961).

95. Marvin D. A., Nave C. X-Ray fiber diffraction. In: Methods in Structural I Molecular Biology (D. B. Davies, W. Saenger, and S. S. Danyluk, eds.),

pp. 3-43, Plenum Press, London, 1981.

96. Cochran W., Crick F. H. C, Vand V. The structure of synthetic polypeptides. I

V The transform of atoms on a helix, Acta Crystallogr, 5, 581-586 (1952).

97. Stokes A. R. The theory of X-ray fiber diagrams, Prog. Biophys, 5, 140 167 (1955)

98. Klug A., Crick F.H.C., WyckoffH.S. Diffraction by helical molecules, Acta Crystalligr, 11, 199-213 (1958).

^9- Ramachandran G. N. Analysis of the X-ray diffraction pattern of helical struc-J tures, Proc. Indian Acad. Sci, 52A, 240-254 (1960).

100. Arnott S. Fiber diffraction analysis of biopolymer molecules, Trans. Amer. p- Cryst. Assoc, 9, 31-56 (1973).




101. Langridge R., Marvin D. A., Seeds W.E., Wilson H.R., Hooper C.W., Wilkins M. H. F, Hamilton L. D. The molecular configuration of deoxyribonucleic acid. II. Molecular models and their Fourier transforms, J. Mol. Biol, 2, 38 64 (1960).

102 Arnott S, Dover S. D., Wonacott A. J. Least-squares refinement of the crystal and molecular structures of DNA and RNA from X-ray data and standard bond lengths and angles, Acta Crystallogr, B, 25, 2192 2206 (1969).

103. Langridge R. A., Rich A. Molecular structure of helical polycytidylic acid. Nature,' 198, 725-728 (1963).

104. Arnott S, Chandrasekharan R., Leslie A. G. W. Structure of the single-stranded polyribonucleotide polycytidilic acid, J. Mol. Biol, 106, 735-738 (1976).

105. Rich A. The molecular structure of polyinosinic acid, Biochim. Biophys. Acta, 29, 502 509 (1958).

106. Arnott S, Chandrasekharan R., Marttila С. M. Structures of polyinosinic acid and polyguanylic acid, Biochem. J, 141, 537 538 (1974).

107. Donohue J. Hydrogen-bonded helical configurations of polynucleotides. Proc. Nat Acad. Sci USA 42, 60-65 (1956).

108. WuT.T. Secondary structures of DNA Proc. Nat. Acad. Sci. USA. 63, 400 405 (1969).

109. Donohue J. Fourier analysis and the structure of DNA, Science, 165, 1091-1096 (1969).

110. Donohue J. Crystal symmetry of deoxyribonucleic acid On the validity of the use of intensity statistics on limited numbers of data, J. Mol. Biol, 41, 291-294 (1969).

111. Donohue J. Fourier series and diffrence maps as lack of structure proof: DNA is an example, Science, 167, 1700-1702 (1970).

112. RodleyG.A., ScobieR.S., Bates R.H.T., Lewitt R.M. A possible conformation for double-stranded polynucleotides, Proc. Nat. Acad. Sci. USA 73, 2959-2963 (1976).

113. Sasisekharan V, Pattabiraman N., Gupta Goutam. Some implications of an alternative structure for DNA Proc. Nat. Acad. Sci. USA 75, 4092 4096 (1978).

114. Cyrax В., Gath R. The conformation of double-stranded DNA, Naturwissensch-aften, 65, 106-108 (1978).

115. Hopkins R.C. Deoxyribonucleic acid structure. A new model, Science, 211, 289-291 (1981).

116. Arnott S, Wilkins M. H. F., Hamilton L. D., Langridge R. Fourier synthesis studies of lithium DNA. Part III, Hoogsteen models, J. Mol. Biol, 11, 391 402 (1965).

117. Wilkins M.H.F., Arnott S, Marvin D. A., Hamilton L.D. Fourier analysis and the structure of DNA. Some misconceptions on Fourier analysis and Watson-Crick base pairing, Science, 167, 1693-1694 (1970).

118. Arnott S. Crystallography of DNA: Difference synthesis supports Watson-Crick base pairing, Science, 167, 1694-1670 (1970).

119. Wilkins M.H.F., Wilson H.R., Hamilton LD. Secondary structures of DNA. Proc. Nat. Acad. Sci. USA 65, 761 762 (1970).

120. Arnott S. Investigation of the crystal and molecular simmetry of DNA using X-ray intensity statistics, J. Mol. Biol, 59, 381-384 (1971).

121. Arnott S. Is DNA really a double helix? Nature, 278, 780-781 (1979)

122. Greenall R.J., Pigram W.J., Fuller W. X-Ray diffraction from the side-by-side model of DNA, Nature, 282, 880-882 (1979).

123. Blomfield V.A., Crothers D., Tinoco I., Jr., Physical Chemistry of Nucleic Acids, Harper and Row, New York, 1974.



124. Cantoni G.L., Davies D.R. (eds.). Procedures in Nucleic Acid Research, Vol. 2, pp. 3 296, Harper and Row, New York, 1971.

125. Ts'o P. O. P. (ed.). Basic Principles in Nucleic Acid Chemistry, Vols. 1 and 2, Academic Press, New York, 1974.

126. Pullman B. (ed.). Nucleic Magnetic Resonance Spectroscopy in Molecular Г Biology, Jerus. Sympos. Quant. Chem. Biochem, 11 (1978).

127. Tinoco I., Jr., Bustamente C. Chiroptical methods and their applications to Г biomolecular systems. In: Methods in Structural Molecular Biology ^ (D. B. Davies, W. Saenger, and S. S. Danyluk, eds.), pp. 269 305, Plenum Press, Z London, 1981.

128. Peticolas W.L. Classical and resonance Raman spectroscopy of biological macromolecules In: Methods in Structural Molecular Biology (D. B. Davies,

I W. Saenger, and S.S. Danyluk, eds.), pp. 237-266, Plenum Press, London, 1981.

129. Altona C. High resolution NMR studies of nucleic acids. In: Methods in Structural Molecular Biology (D. B. Davies, W. Saenger, and S. S. Danyluk, eds.), pp. 161-213, Plenum Press, London, 1981.

0 Davies D. B. Conformations of nucleosides and nucleotides, Prog. NMR ''Spectrosc, 12, 135-225 (1978). 431. Danyluk S.S. Nuclear magnetic resonance studies of nucleoside confomational ^ properties. In: Nucleoside Analogues. Chemistry, Biology, and Medical [ Application (RT. Walker, F. DeClercq, and F. Eckstein, eds.), pp. 15-34,

Plenum Press, New York, 1979. 132 Dhingra M. M., SarmaR.H. Nuclear magnetic resonance spectroscopy. Г Chemical shifts, coupling constants and molecular geometry. In:

Stereodynamics of Molecular Systems (R. H. Sarma, ed.), pp. 3-38, Pergamon,

New York, 1979.

133. Giessner-Prettre G, Pullman B. On the conformational dependence of the proton chemical shifts in nucleosides and nucleotides. I. Proton shifts in the ribose ring of pyrimidine nucleosides as a function of the torsion angle about the glycosyl bond; and II. Proton shifts in the ribose ring of purune nucleosides F as a function of the torsion angle about the glycosidic bond, J. Theor. Biol, 65, у 171-188 (1977).

H. Giessner-Prettre C, Pullman В., Caillet J. Theoretical study on the proton chemical shifts of hydrogen bonded nucleic acid bases, Nucleic Acids Res, 4, 99-116 (1977).

p. Giessner-Prettre C, Pullman В., Borer P. N., Kan L.-S, Ts'o P. O. P. Ring-> current effects in the NMR of nucleic acids: A graphical approach, Biopolymers, 15, 2277-2286 (1976). 36. Karplus M. Contact electron-spin coupling of nuclear magnetic moments, J. t^Chem. Phys, 30, 11-15 (1959).

137. Altona C, Sundaralingam M. Conformational analysis of the sugar ring in ^ nucleosides and nucleotides. Improved method for the interpretation of proton [ magnetic resonance coupling constants, J. Amer. Chem. Soc, 95, 2333-2344


138. Davies D. В., Danyluc S. S. Nuclear magnetic resonance studies of 5'-ribo- and Ь deoxyribonucleotide structures in solution, Biochemisrty, 13, 4417-4434 (1974)

139. Guschlbauer W., Tran-Dinh Son. Nucleoside conformations, 20. Determination of P sugar conformations of nucleosides and nucleotides by a simple graphical

method, Nucleic Acids Res. Spec. Publ, No. 1, S. 85 88, 1975.

140. Evans F. E., Sarma R. H. The intramolecular conformation of adenosine-5'-i monophosphate in aqueous solution as studied by Fast Fourier Transform *H



and 'H-l31?} nuclear magnetic resonance spectroscopy, J. Biol. Chem, 249, 4754-4759 (1974).

141. Jaworski A., Ekiel I., Shugar D. Coupling constants between cisoidal protons in pentose nucleosides. Limitations of range of application of Karplus relation, and solution conformations of P-arabinofuranosyl and p-xylofuranosyl nucleotides, J. Amer. Chem. Soc, 100, 4357-4361 (1978).

142 Niemczura W.P., Hruska F.E. A 13CMR study of 2'-deoxynucleotides in the syn and anti conformation. Can. J. Chem, 58, 472-478 (1980).

143. Alderfer J. L, Ts'o P. O. P. Conformational properties of the furanose phosphate backbone in nucleic acids. A carbon-13 nuclear magnetic resonance study, Biochemistry, 16, 2410-2416 (1977).

144. Smith I. C. P., Mantsch H. H., Lapper R. D., Deslauriers R., Schleich T. A study of the conformations of nucleic acids by carbon-13 and hydrogen nuclear magnetic resonance spectroscopy. Jems. Symp. Quant. Chem. Biochem, 5, 381-401 (1973).

145. EzraF.S., Lee C.H., Kondo N.S., Danyluk S.S, SarmaR.H. Conformational properties of purine-pyrimidine and pyrimidine-purine dinucleoside monophosphate, Biochemistry, 16, 1977-1987 (1977).

146. Cheng D. M., Dhingra M. M, Sarma R. H. Spatial configuration of deoxyribotrinucleoside diphosphate in aqueous solution, Nucleic Acids Res, 5, 4399-4416 (1978).

147. Cheng D. M., Sarma R. H. Intimate details of the conformational characteristics of deoxyribodinucleoside monophosphates in aqueous solution, J. Amer. Chem. Soc, 99, 7333-7348 (1977).

148. Chachaty C, Zemb Т., Langlet G, Tran-Dinh Son, Вис H., Morange M. A proton-relaxation-time study of the conformation of some purine and pyrimidine 5'-nucleotides in aqueous solution, Eur. 3. Biochem, 62, 45-53 (1976).

149. Schirmer R. E., Davies j. P., Noggle J. H., Hart P. A. Conformational analysis of nucleosides in solution by quantitative application of the nuclear Overhauser effect, J. Amer. Chem. Soc, 94, 2561-2572 (1972).

150. Noggle J.H., Schirmer R.E. The Nuclear Overhauser Effect: Chemical Applications, Academic Press, New York, 1971.

151. Danyluk S.S., Hruska F.E. The effect of pH upon the nuclear magnetic resonance spectra of nucleosides and nucleotides, Biochemistry, 7, 10-38 (1968).

152. Schweizer M. P., Broom A. D., Ts'o P. O. P., Hollis D. P. Studies -of mononucleotides by proton magnetic resonance, J. Amer. Chem. Soc, 90, 1042-1055 (1968).

153. Schweizer M.P., Robins R.K. NMR studies on the conformation of nucleosides and 3',5'-nucleotides, Jerus. Sympos. Quant. Chem. Biochem, 5, 329-344 (1973).

154. Lemieux R.V., Nagabushan T.L., Paul B. Relationship of 13C to vicinal *H coupling to the torsion angle in uridine and related structures, Can. J. Chem, 50, 773-776 (1972).

155. Reid B.R. NMR studies of RNA structure and dynamics, Annu. Rev. Biochem, 50, 969-996 (1981).

156. Patel D.J., Pardi A., Itakura K. DNA conformation, dynamics, and interactions in solution, Science, 216, 581-590 (1982).

157. Bondi A. Van der Waals volumes and radii, J. Phys. Chem, 68, 441-451 (1964).

158. Allinger N.L. Calculation of molecular structural energy by force-field methods, Adv. Phys. Org. Chem, 13, 1-82 (1976).

159. Weast R. C. (ed.). Handbook of Chemistry and Physics, p. D-178, CRC Press Cleveland, Ohio, 1976.



160. Suck D., Manor P. C, Germain G, Schwalbe С. H., Weimann G, Saenger W. ' X-Ray study of helix, loop and base pair stacking in trinucleoside diphosphate » ApApA, Pature New Biol, 246, 161-165 (1973).

161. Reeke G. N, Marsch R. E. The ctrystal structure of 5-ethyl-6-methyluracil, Acta Crystallogr, 20, 703-708 (1965).

162. Kim S.-H., Quigley G, Suddath F. L, Rich A. High resolution X-ray diffraction patterns of crystalline transfer RNA that show helical regions, Proc. Nat. Acad. Sci. USA, 68, 841-845 (1971).

163. Allen F.H., Bellard S, Brice M.D., Cartwright B.A., Doubleday A., Higgs H., Hummelink Т., Hummelink-Peters B. G, Kennard O., Motherwell W. D. S, Rodgers J.R., Watson D.G. The Cambridge Grystallographic Data Centre: Computer-based search, retrieval, analysis and display of information, Acta Crystallogr, B, 35, 2331-2339 (1979).

164. Rich A. Three-dimensional structure of transfer RNA, Acc. Chem. Res, 10, У 388-402 (1977).

165. Langridge R., Wilson H.R., Hooper C.W., Wilkins M.H.F., Hamilton LD. The molecular configuration of DNA. I. X-Ray diffraction study of a crystalline form of the lithium salt, J. Mol. Biol, 2, 19-37 (1960).

166. Sundaralingam M. Stereochemistry of nucleic acids and their constituents. IV. Allowed and preferred conformations of nucleosides, nucleoside mono-, di-, tri-, tetraphosphate, nucleic acids and polynucleotides, Biopolymers, 7, 821-860 (1969).

167. Sundaralingam M. St

страница 61
< К СПИСКУ КНИГ > 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79

Скачать книгу "Принципы структурной организации нуклеиновых кислот" (9.68Mb)

[каталог]  [статьи]  [доска объявлений]  [обратная связь]

Rambler's Top100 Химический каталог

Copyright © 2009