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Принципы структурной организации нуклеиновых кислот

Автор В.Зенгер

. |814. Olson W. K. The flexible DNA double helix. I. Average dimensions and

distribution functions, Biopolymers, 18, 1213-1233; II. Superhelix formation,

Biopolymers, 18, 1235-1260 (1979).

815. Jolly D., Eisenberg H. Photon correlation spectroscopy, total intensity light b scattering with laser radiation, and hydrodynamic studies of a well fractionated j DNA sample, Biopolymers, 15, 61-95 (1976).

816. Frontali C, Dore E., Ferranto A., Gratton E, Bettini A., Pozzan M. R, ь Valdevit E. An absolute method for the determination of the persistence length » of native DNA from electron micrographs, Biopolymers, 18, 1353-1373 (1979).

>817. Akasaka K., Yamada A., Hatano H. 31P magnetic relaxation in polynucleotides,

Bull. Chem. Soc. Japan, 50, 2858-2862 (1977). 818. Tewari R, Nanda R.K., Govil G. Spatial configurations of single-stranded w polynucleotides. Calculations of average dimensions and nmr coupling L constants, Biopolymers, 13, 2015-2035 (1974). №19. Malenkov G. G, Gagua A. V., Timofeev V. P. Influence of intermolecular Ь interactions on the DNA conformation, Int. J. Quant. Chem, 16, 655-668 (1979).

|B20. Priore D.R.C., Allen F.S. Comparisons between oriented film and solution

> tertiary structure of various nucleic acids, Biopolymers, 18, 1809-1820 (1979). 821. Baase W. A., Johnson W. C, jr. Circular dichroism and DNA secondary structure, Nucl. Acids Res, 6, 797-814 (1979).

1822. Haasnoot C. A. G., Hartog J. H. J. den, Rooij J. F. M. de. Boom J. H. van, f Altona C. Loop structures in synthetic oligodeoxynucleotides, Nucl. Acid Res, 8, 169-181 (1980).

823. Mitra C.K., Sarma R.H., Giessner-Prettre C, Pullman B. Solution structure of i DNA: The method of nuclear magnetic resonance spectroscopy, Int. J. Quant.

> Chem: Quant. Biol. Symp, 7, 39-66 (1980).

[824. Leslie A. G. W., Arnott S, Chandrasekaran R., Ratliff R. L. Polymorphism of

Y DNA double helices, J. Mol. Biol, 143, 49-72 (1980). [825. Bram S. Secondary structure of DNA depends on base composition, Nature

I New Biol, 232, 174-176 (1971).

826. Bram S, Tougard P. Polymorphism of natural DNA, Nature New Biol, 239, I 128-131 (1972).

827. Pilet J., Blicharski J., Brahms J. Conformations and structural transitions in 1 polydeoxynucleotides, Biochemistry, 14, 1869-1876 (1975).

1828. Gray D.M., Gall J.G. The circular dichroism of three Drosophila virilis satellite DNA's, J. Mol. Biol, 85, 665-679 (1974).

1829. Arnott S. The sequence dependence of circular dichroism spectra of DNA

> duplexes, Nucl. Acids Res, 2, 1493-1502 (1975)

[830. Seising E., Arnott S. Conformations of A-T rich DNA's, Nucl. Acids Res, 3,

> 2443-2450 (1976).

1831. Seising E., Leslie A. G.W., Arnott S., Gall J.G., Skinner E.M., Southern E. M., • Spencer J. H., Harbers K. Conformations of satellite DNA's, Nucl. Acids Res, I 3, 2451-2458 (1976).

1832. Premilat S, Albiser G. X-ray diffraction study of three DNA fibers with different Ь base composition, J. Mol. Biol, 99, 27-36 (1975).

1833. Pilet J., Brahms J. Dependence of B-A conformational change in DNA on base composition, Nature New Biol, 236, 99-100 (1972).

i 834. Anderson P., Bauer W. Supercoiling in closed circular DNA: Dependence upon ion type and concentration, Biochemistry, 17, 594-601 (1978).

540

Литература

835. Chan A.. Kilkuskie R.. Hanlon S. Correlations between the duplex winding angle and the circular dichroism spectrum of calf thymus DNA, Biochemistry, 18, 84-91 (1979).

836. Lewitt M. How many base-pairs per turn does DNA have in solution and in chromatin? Some theoretical calculations, Proc. Nat. Acad. Sci, USA, 75, 640-644 (1978).

837. Carter C. W.. Jr.. Kraut J. A proposed model for interaction of polypeptides with RNA, Proc. Nat. Acad. Sci, USA, 71, 283-287 (1974).

838. Kim S. H.. Sussman J. L.. Church G. M. A model for recognition scheme between double stranded DNA and proteins. In: Structure and Conformation of Nucleic Acids and Protein-Nucleic Acid Interactions (M. Sundaralingam and S.T. Rao, eds.), Univ. Park Press, Baltimore, pp. 571-575, 1975.

839. Ivanov V. I.. Minchenkova L. E.. Schyolkina A. K.. Poletayev A. I. Different conformations of duoble stranded nucleic acids in solution as revealed by circular dichroism, Biopolymers, 12, 89 100 (1973).

839a. Weiner P.K.. Langridge R.. Blaney J.M.. Schaefer R.. Kollman P. Electrostatic potential molecular surfaces, Proc. Nat. Acad. Sci, 79, 3754-3758 (1982).

839b. Corbin S, Lavery R.. Pullman B. The molecular electrostatic potential and steric accessibility of double-helical A-RNA, Biochim. Biophys. Acta, 698, 86 92 (1982).

839c. Lavery R.. Pullman A.. Pullman B. The electrostatic field of B-DNA, Theoret. Chim. Acta (Berl.), 62, 93-106 (1982).

840. Dover S.D. Symmetry and packing in B-DNA, J. Mol. Biol, 110, 699 700 (1977).

841. Zimmerman S. В.. Pheiffer В. H. Helical parameters of DNA do not change when DNA fibers are wetted: X-ray diffraction study, Proc. Nat. Acad. Sci. USA. 76, 2703-2707 (1979).

842 Fuller W.. Wilkins M.H.F.. Wilson H.R.. Hamilton L.D. The molecular configuration of deoxyribonucleic acid. IV. X-ray diffraction study of the A-form, J. Mol. Biol, 12, 60-80 (1965).

843. Arnott S, HukinsD.W.L. Optimised parameters for A-DNA and B-DNA. Biochem. Biophys. Res. Commun, 47, 1504 1510 (1972).

844. Arnott S, Seising E. The structure of polydeoxyguanyhc acidpolydeoxycytidylic acid, J. Mol. Biol, 88, 551 552 (1974).

845. Arnott S. Chandrasekaran R.. Hukins D W.L.. Smith P.J.С. Watts L. Structural details of a double-helix observed for DNA's containing alternating purine-pyrimidine sequences, J. Mol. Biol, 88, 523 533 (1974).

845a. Mahendrasingam A.. Rhodes N.J.. Goodwin D.C.. Nave C, PigramW.J.. Fuller W.. Brahms J.. Vergne J. Conformational transitions in oriented fibers of the synthetic polynucleotide poly [d (AT)] • poly [d (AT)] double helix, Nature, 301, 535 537 (1983).

846. Davies D.R., Baldwin R.L. X-ray studies of two synthetic DNA copolymers, J. Mol. Biol, 6, 251 255 (1963)

847. Seising E, Arnott S.. RatliffR.L. Conformations of poly d(A—T—T)poly d(A—A— TI J. Mol. Biol., 98, 243 248 (1975).

848. Arnott S, HukinsD.W.L.. Dover S.D. Fuller W.. Hodgson A. R, Structure of synthetic polynucleotides in the A-RNA and A'-RNA conformations: X-ray diffraction analyses of the molecular conformations of polyadenylic acid ¦ polyuridylic acid and polyinosinic acid • polycytidylic acid, J. Mol. Biol. 81, 107 122 (1973).

849. O'Brien E. J, MacEwan A W. Molecular and crystal structure of polynucleotide

Литература

541

complex: Polyinosinic acid plus polydeoxycytidylic acid, J. Mol. Biol, 48, 243 261 (1970).

850. Milman G.. Langridge R.. Chamberlin M.J. The structure of a DNA-RNA hybrid, Proc. Nat. Acad. Sci, USA, 57, 1804 1810 (1967).

851. Chamberlin M.J.. Patterson D.L. Physical and chemical characterization of the ordered complexes formed between polyinosinic acid, polycytidylic acid and their deoxyribo-analogues, J. Mol. Biol, 12, 410-428 (1965).

852. Arnott S.. Hukins D. W. L, Dover S D. Optimised parameters for RNA double-helices, Biochem. Biophys. Res. Commun, 48, 1392 1399 (1972).

53. Arnott S. Bond P.J. Seising E.. Smith P.J.C. Models of triple-stranded polynucleotides with optimised stereochemistry, Nucl. Acids Res, 3, 2459-2470 (1976).

Й54. Arnott S.. Chandrasekaran R.. Day A. W.. Puigjaner L. C, Watts L. Double helical structures for polyxanthyhc acid, J. Mol Biol, 149, 489-505 (1981)

855. ChouC.H.. Thomas G.J.. Jr.. Amott S.. Campbel Smith P.J. Raman spectral studies of nucleic acids. XVII. Conformational structures of polyinosinic acid, Nucl. Acids Res, 4, 2407-2419 (1977).

856. Amott S, Hukins D. W. L. Refinement of the structure of B-DNA and implications for the analysis of X-ray diffraction data from fibers of biopolymers, J. Mol. Biol, 81, 93 105 (1973).

857. Amott S.. Seising E. The conformation of C-DNA. J. Mol Biol, 98, 265-269 (1975).

858. Мокульский M. А, Капитонова К. А, Мокульская Т. Д Вторичная структура ДНК фага Т2, Мол. биол, 6 (1972).

859. Arnott S.. Seising Е. Structures of poly d (A) poly d(T) and poly d(T) poly d(A)-poly d(T),' J Mol. Biol, 88, 509-521 (1974).

P60. Laskowski M. The poly d(A T) of crab, Prog. Nucl. Acid Res. Mol. Biol, 12, 161-188 (1972).

1861. Gall J. G.. Atherton D. D. Satellite DNA sequences in Drosophila virilis, J. Mol.

Biol, 85, 633 664 (1974). >862. Bostock C. A function for satellite DNA? Trends Biochem. Sci, 5, 117-119

(1980).

<863. Sundaralingam M. Principles governing nucleic acid and polynucleotide conformations. In: Structure and Conformation of Nucleic Acids and Protein - Nucleic Acid Interactions (M. Sundaralingam and S.T. Rao, eds.), pp. 487 524, Univ Park Press, Baltimore, 1974.

в64. Nussinov R.. Jackson A. B. Fast algorithm for predicting the secondary structure ' of single-stranded RNA, Proc. Nat. Acad. Sci. USA, 77, 6309-6313 (1980).

K65. Spencer M.. Poole F. On the origin of crystallizable RNA from yeast, J. MoL Biol, 11, 314-326 (1965).

866. Erdmann V. Structure and function of 5S and 5.8S RNA, Prog. Nucl. Acid Res. Mol. Biol.. 18, 45 90 (1976).

1867. Noller H.F.. Woese C.R. Secondary structure of 16S ribosomal RNA, Science, 212, 403^111 (1981).

p68. Schwarz Zs.. Kossel H. The primary structure of 16SrRNA from Zea mays chloroplast is homologous to E. coli 16S rRNA, Nature, 283, 739 742 (1980). 869. Fiers W.. Contreras R.. Duerinck F.. Haegemann G, Iserentant D.. Merregaert F.. Min Jou W., Molemans F.. Raeymaekers A.. Berghe A. Van den. Volckaert G, Ysebaert M. Complete nucleotide sequence of bacteriophage MS2 RNA: Primary and secondary structure of replicase gene, Nature, 260, 500-507 (1976). [870. Sanger F. Nucleotide sequences in bacteriophage ribonucleic acid, Biochem. J, 124, 833 843 (1971).

542 Литература

871. Proudfoot N.J., Brownlee G.G. Sequence at the З'-end of globin mRNA shows homology with immunoglobulin light chain mRNA, Nature, 252, 359-362 (1974).

872. White H.B. Ill, Laux B.E., Dennis D. Messenger RNA structure: Compatibility of hairpin loops with protein sequences, Science, 175, 1264-1266 (1972).

873. Sato Т.. Kyogoku Y, Higuchi S., Mitsui Y. Itaka Y. Tsuboi M, Mima K.-I. A preliminary investigation on the nuclear structure of rice dwarf virus ribonucleic acid, J. Mol. Biol, 16, 180-190 (1966).

874. Langridge R, Gomatos P. The structure of RNA, Science, 141, 694-698 (1963).

875. Arnott S, Hutchinson F., Spencer M., Wilkins M. H. F., Fuller W., Langridge R. X-ray diffraction studies of double helical ribonucleic acid, Nature, 211, 227-232 (1966).

876. Arnott S, Wilkins M. H. F., Fuller W., Langridge R. Molecular and crystal structure of double-helical RNA. II. Determination and comparision of diffracted intensities for the a and p crystalline forms of reovirus RNA and their interpretation in terms of groups of three RNA molecules, J. Mol. Biol, 27, 525-533; III. An 11-fold molecular model and comparison of the agreement between the observed and calculated three-dimensional diffraction data for 10-and 11-fold models, J. Mol. Biol, 27, 535-548 (1967).

877. Arnott S., Wilkins M. H. F, Fuller W., Venable J, Langridge R. Molecular and crystal structures of double-helical RNA. IV. Molecular packing in crystalline fibers, J. Mol. Biol, 27, 549-562 (1967).

878. Tomita K.-I., Rich A. X-Ray diffraction investigations of complementary RNA, Nature, 201, 1160-1163 (1964).

879. Arnott S, Fuller W., Hodgson A., Prutton I. Molecular conformations and structure transitions of RNA complementary helices and their possible biological significanse. Nature, 220, 561 564 (1968).

880. Blacke R. D., Massoulie J., Fresco J. R. Polynucleotides VIII. A spectral approach to the equilibria between polyriboadenylate and polyribouridylate and their complexes, J. Mol. Biol, 30, 291-308 (1967).

881. Massoulie J. Associations de poly (A) et poly(U) en milieu acide. Phenomenes irreversibles, Eur. J. Biochem, 3, 439-447 (1968).

882. Hamilton L. D., Babcock V. I., Southern С. M. Inhibition of herpes simplex virus by synthetic double-stranded RNA (polyriboadenylic and polyribouridylic acids and polyriboinosinic and polyribocytidylic acids), Proc. Nat. Acad. Sci. USA, 64, 878-883 (1969).

883. Field A. K.. Tytell A. A., Lampson G. P., Hillemann M. R. Inducers of interferon and host resistance. II. Multistranded synthetic polynucleotide complexes, Proc. Nat. Acad. Sci. USA, 58, 1004-1010 (1967).

884. Ikehara M., Hattori M., Fukui T. Synthesis and properties of poly (2-methyl-adenylic acid). Formation of a poly (A) • poly (U) complex with Hoogsteen-type hydrogen bonding, Eur. J. Biochem, 31, 329-334 (1972).

885. Ishikawa F, Frazier J., Howard F. В., Miles H. T. Polyadenylate • polyuridylate helices with non-Watson-Crick hydrogen bonding, J. J. Mol. Biol, 70, 475-490 (1972).

886. Fukui T, Ikehara M. Polynucleotides. XLVII. Synthesis and properties of poly(2-methylthio- and 1-ethylthioadenylic acid). Formation of non-Watson-Crick type complexes, Biochim. Biophys. Acta, 562, 527-533 (1979).

887. Hakoshima Т., Fukui Т., Ikehara M., Tomita K.-I. Molecular structure of a double helix with a non-Watson-Crick type base pairing formed by 2-substi-

Литература

543

tuted poly (A) and poly(U), Proc. Nat. Acad. Sci. USA, 78, 7309-7313 (1981). -888. Lu С. Т., Varughese К. I., Kartha G. The crystal structure of ammonium adenylyl-3',5'-uridine tetrahydrate, Abstracts, Summer Meeting of American Crystallographic Association Series 2, 8. 33 (1980).

889. Hingerty В., Subramanian E., Stellman S. D., Sato Т., Broyde S. В., Langridge R. The crystal and molecular structure of a calcium salt of guanylyl-3',5'-cytidine (GpC), Acta Crystallogr, B, 32, 2998-3013 (1976).

890. Rosenberg J. M., Seeman N. C. Day R. O, Rich A. RNA double helices generated from crystal structures of double helical dinucleoside phosphates, Biochem. Biophys. Res. Commun, 69, 979-987 (1976).

I 891. Seeman N. C, Sussman J. L., Berman H. M., Kim S.-H. Nucleic acid

conformation: Crystal structure of a naturally occurring dinucleoside phosphate

(UpA), Nature New Biol, 233, 90-92 (1971). 892 Fuller W., Wilkins M. H. F, Hamilton H. R, Arnott S. The molecular configuration of deoxyribonucleic acid. IV. X-Ray diffraction study of the A-form, J.

Mol. Biol, 12, 60-80 (1965). 892a. Calladine C. R. Mechanism of sequence-dependent stacking of bases in B-DNA,

J. Mol. Biol, 161, 343-352 (1982). 892b. Dickerson R. E. Base sequence and helix structure variation in B- and A-DNA,

J. Mol. Biol, 166, 419-441 (1983). 893. Conner B. N., Takano Т., Tanaka S, Itakura K., Dickerson R. E. The molecular

structure of d(!CpCpGpG), a fragment of right-handed double helical A-DNA,

Nature, 295, 294-299 (1982). 893a. Wang H.-J., Fujii S., Boom J. H. van, Rich A. Molecular structure of the

octamer d(GGCCGGCC): modified A-DNA, Proc. Nat. Acad. Sci. USA, 79,

3968-3972 (1982).

^894.

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