Биологический каталог




Принципы структурной организации нуклеиновых кислот

Автор В.Зенгер

G.L., Tarien E., Butzow J.J. Interaction of metal ions with nucleic acids and related compounds. XVI. Specific cleavage effects in the depolymerization of ribonucleic acids by zinc (II) ions, Biochemistry, 10, 2014-2019 (1971).

736. Butzow J.J., Eichhom G.L. Interaction of metal ions with nucleic acid and related compounds. XVII. On the mechanism of degradation of polyribonucleotides by zinc (II) ions, Biochemistry, 11, 2019-2027 (1971).

736a. Brown R.S., Hingerty B.E., Devon J.C., Klug A. Pb(II)-catalyzed cleavage of the sugar-phosphate backbone of yeast tRNAphe-implications for lead toxicity and self-splicing RNA, Nature, 303, 543-546 (1983).

737. Rosenberg В., Camp L. Van, Trosko J.E., Mansour V.H. Platinum compounds: A new class of potent antitumour agents, Nature, 222, 385-386 (1969).

738. Harrison R. C, McAulijje C. A. Platinum (II) complexes of DNA constituents, Inorg. Perspect Biol. Med, 1, 261-288 (1978).

739. Pestayko A.W., Crooke S.T., Carter S.K. (eds.). Cisplatin: Current Status and New Developments, Academic Press, New York, (1980).

740. Millard M. M, Macquet J. P., Theophanides T. X-ray photoelectron spectroscopy of DNA-Pt complexes. Evidence of 06 (Gua)-N7 (Gua) chelation of DNA with cis-dichlorodiammine platinum (II), Biochim. Biophys. Acta, 402, 166-170 (1975).

Литература

535

> 741. Marcelis А.Т.М., Kralingen C.G., van, Reedijk J. The interaction of cis- and rrans-diammineplatmum compounds with 5'-guanosine monophosphate and 5'-deoxyguanosine monophosphate. A proton NMR investigation, J. Inorg. Biochem, 13, 213-222 (1980). 742. Wing R.M., Pjura P., Drew H.R., Dickerson R.E. X-ray single crystal study of

> the interaction of cisplatin with the DNA dodecamer CGCGAATTCGCG. Private communication, 1982.

1743. Roberts J. J., Thomson A. J. The mechanism of action of antitumor platinum compounds, Prog. Nucl. Acids Mol. Biol, 22, 71-133 (1979). 744. Connors T. A., Roberts J. J. (eds.). Platinum Coordination Complexes in Cancer к Chemotherapy, Springer-Verlag, New York, 1977. I 745. The Proceedings of the Third International Symposium of Platinum Coordination Complexes in Cancer Chemotherapy (Dallas, Texas, 1976); J. Clin. Hematol. Oncol. (Wadley Medical Bull.), 7 (1977). 746. Aoki K. Interaction between transition metal ions and nucleic acid bases, nucleosides, and nucleotides (Jap.), J. Cryst. Soc. Japan, 23, 309-327 (1981). [ 747. Hodgson D. J. The stereochemistry of metal complexes of nucleic acid

- constituents, Progr. Chem, 23, 211-254 (1977). [747a. Spiro T. G. (ed.). Metal Ions in Biology, Vol I, Nucleic Acid-Metal Ion I Interactions, John Wiley and Sons, New York, 1980.

748. Marzilli L. G, Kistenmacher T. J. Stereoselectivity in the binding of transition-metal chelate complexes to nucleic acis constituents: Bonding and nonbonding effects, Acc. Chem. Res, 10, 146-152 (1977).

749. Gellert R-W., Bau R. X-ray structural studies of metal-nucleoside and metal nucleotide complexes. In: Metal Ions in Biological Systems (H. Sigel, ed.), Vol VIII, pp. 1-55, Dikker, New York, 1979.

J50. Swaminathan V., Sundaralingam M. The crystal structure of metal complexes of nucleic acids and their constituents, CRC, Crit. Rev. Biochem, 6, 245 336 I (1979).

751. Lippard S.J. Platinum complexes: probes of polynucleotide structure and

I' antitumor drugs, Acc. Chem. Res, 11, 211-217 (1978). '752. Keinwachter V. Interaction of platinum (II) coordination complexes with

' deoxyribonucleic acid, Stud. Biophys, 73, 1-17 (1978).

753. Phillips R.S.J., Adenosine and the adenine nucleotides. Ionization, metal complex formation and comformation in solution, Chem. Rev, 66, 501-527

' (1966).

754. Sigel H. Stability, structure and reactivity of ternary Си2 + -complexes, Angew. 1 Chem. Int. Ed. Engl, 14, 394-403 (1975).

755. Tu А. Т., Heller M.J. Structure and stability of metal-nucleotide complexes. [ In: Metal Ions in Biological Systems (H. Sigel, ed.), Vol. I, Dekker, New York,

> 1973.

756. Frey С. M, Stuehr J. Kinetics of metal ion interactions with nucleotides and [ base-free phosphates, In: Metal Ions in Biological Systems (H. Sigel, ed.),

> Vol. 1, Dekker, New York, 1973.

757. Daune M. Interactions of metal ions with nucleic acids. In: Metal Ions in * Biological Systems (H. Sigel, ed.), Vol. Ill, Dekker, New York, 1975.

758. Marzilli L.G. Metal-ion interactions with nucleic acids and nucleic acid derivatives, Prog. Inorg. Chem, 23, 255-378 (1977).

^59. Martin R. В., Miriam Y. H. The interactions between nucleotides and metal ions Г in solution. In: Metal Ions in Biological Systems (H. Sigel, ed.), Vol. VIII, F Dekker, New York, 57-124 1979.

34*

536

Литература

760. Ahrland S, Chatt J., Davies N. K. The relative affinities of ligand atoms for acceptor molecules and ions, Quart. Rev. Chem. Soc, 12, 265-276 (1958).

761. Pearson R.G. Acids and bases, Science, 151, 172-177 (1966).

762. Goodgame D.M.L., Jeeves 1., Reynolds C. D.. Skapski A.C. Multiplicity of cadmium binding sites in nucleotides: X-ray evidence for the involvement of Oz- and 03. as well as phosphate N7 in inosone 5'-monophosphate, Nucl. Acids Res, 2, 1375-1379 (1975).

763. Cook W.J., BuggC.E. Structures of calcium-carbohydrate complexes, Jerus. Symp. Quant Chem. Biochem, 9, 231-256 (1977).

764. Brown E.A., Bugg C.E. Calcium-binding to nucleotides: Structure of a hydrated calcium salt of inosme-5'-monophosphate, ActaCrystallogr, B, 36, 2597-2404 (1980); for a strontium salt, see J. Cryst. Mol. Struct, 10, 19-30 (1980).

765. Sletten E. Crystal structure of a copper-nucleoside analogue, Chem. Commun, 558, 1971.

766. Kuntz G.P.P., Kotowycz G. A nuclear magnetic resonance relaxation time study of the manganese (II)-inosine-5'-triphosphate complex in solution, Biochemistry, 14, 4144^1150 (1975).

767. Aoki K. Crystallographic studies of interaction between nucleotides and metal ions. I. Crystal structure of the 1 :1 complexes of cobalt and nickel with inosine 5'-phosphate, Bull. Chem. Soc. Japan, 48, 1260-1271 (1975).

768. Jack A., Ladner J. ?., Rhodes D., Brown R. S, Klug A. A crystallographic study of metal-binding to yeast phenylalanine transfer RNA, J. Mol. Biol, 11, 315-328 (1977).

769. Rasa J. J., Sigler P. B. The site of covalent attachment in the crystalline osmium-tRNA™'* isomorphous derivative, Biochemistry, 13, 5102-5110 (1974).

770. Conn J. F., Kim J. J, Suddath F. L, Blattman P., Rich A. Crystal and molecular structure of an osmium bispyridine ester of adenosine. J. Amer. Chem. Soc, 96, 7152-7153 (1974).

771. Kistenmacher T.J., Marzilli L.G., Rossi M. Conformational properties of the osmium tetraoxide bispyridine ester of 1-methilthymine and a comment on the linearity of the trans 0=Os=0 group, Bioinorg. Chem, 6, 347-364 (1976).

772. Neidle S., Stuart D. I. The crystal and molecular structure of an osmium bispyridine adduct of thymine, Biochim. Biophys. Acta, 418, 226-231 (1976).

773. Fischer B. ?., Bau R. Coordination sites in nucleotides, Inorg. Chem, 17, 27-34

(1978) .

774. Chu G. Y.H., Duncan R.E., Tobias R.S. Heavy metals-nucleosides interactions, Inorg. Chem, 16, 2625-2636 (1977).

775. Fazakerley G. V., Hermann D., Guschlbauer W. Proton NMR study of the interaction of cis-dichloro-diammine-platinum (II) with poly (I) and poly (I)-poly (C), Biopolymers, 19, 1299-1309 (1980).

776. Miller C, Frey С. M, Stuehr J. E. Interactions of divalent metal ions with inorganic and nucleoside phosphates. I. Thermodynamics, J. Amer. Chem. Soc, 94, 8898-8904 (1972).

777. Szent-Gyorgyi A. Bioenergetics, Chap. 10, Academic Press, New York, 1957.

778. Estrada-Parra S., Garcia-Ortigoza E. Immunochemical determination of the molecular conformation of nucleotides, Immunochemistry, 9, 779-807 (1972).

779. Mariam Y. H., Martin R. B. Proximity of nucleic base and phosphate groups in metal ion complexes of adenine nucleotides, Inorg. Chim. Acta, 35, 23-28

(1979) .

780. Granot J., Kondo H., Armstrong R. N.. Mildvan A. S., Kaiser E. T. Nuclear magnetic resonance studies of the confomation of tetraamine-cobalt (III)-ATP

Литература

537

bound at the active site of bovine heart protein kinase, J. Amer. Chem. Soc, 18, 2339-2345 (1979).

I 781. Fazakerley G.V., Reid D.G. Determination of the interaction of ADP and dADP with copper (Hi manganese (II) and lanthanide (III) ions by nuclear-magnetic-resonance spectroscopy. Eur. J. Biochem, 93, 535-543 (1979).

i 782. TAN-Dinh Son, Roux M.. EUenberger M. Interaction of Mg2 + with nucleoside triphosphates by phosphorus magnetic resonance spectroscopy, Acids Res, 2, , 1101-1110 (1975).

i 783. Cleland W.W., Mildvan A.S. Chromium (III) and cobalt (III) nucleotides as biological probes. In: Advances in Inorganic Biochemistry (G. L. Eichhorn and L.G. Marzilli, eds.), Vol. I, pp. 163-191, Elsevier, New York, 1979. 784. Cornelius R. D., Hart P. A., Cleland W.W. Phosphorus-31 NMR studies of complexes of adenosine triphosphate adenosine diphosphate, tripolyphosphate, and pyrophosphate with cobalt (III) ammines, Inorg. Chem, 16, 2799-2805

(1977) .

I 785. Merritt E. A., Sundaralmgam M., Cornelius R. D., Cleland W. W. X-ray crystal ^ and molecular structure and absolute configuration of (dihydrogen tripolyphos-phato)tetramminecobalt(III) monohydrate Co(NH3)4H2P3O10H2O. A model for a metal-nucleoside polyphosphate complex, Biochemistry, 17, 3274-3278

(1978) .

786. Cornelius R. D., Cleland W. W. Substrate activity of (adenosine triphos-y phato)tetramminecobalt(III) with yeast hexokinase and separation of

deastereomers using the enzyme, Biochemistry, 17, 3279-3286 (1978). r?86a. Orioli P., Cini R., Donati D.. Mangani S. Crystal and molecular structure of the ternary complex bis [(adenosine-5'-triphosphato) (2,2'-bipyridine)zinc(II)]tetra-hydrate, J. Amer. Chem. Soc, 103, 4446-4452 (1981). 786b Sheldrick W.S. Charge-Transfer-Wechselwirkungen zwischen den Liganden eines ternaren ATP-Cu2 +-Phenanthrolin-Komplexes, Angew. Chem, 93, 473^174 (1981).

787. Adamiak D. A.. Saenger W. Structure of the monopotassium salt of adenosine-5'-diphosphate dihydrate, KADP-2H20, Acta Crystallogr, B, 36, 2585-2589 (1980).

788. Guay F, Beauchamp A.L. Model compounds for the interaction of silver (I) with polyuridine.Crystal structure of a 1:1 silver complex with 1-methylthymine. J. Amer. Chem. Soc, 101, 626(^6263 (1979).

¦789. Clark G.R., OrbellJ.D. Transition metal-nucleotide complexes. X-ray and molecular structures of the cobalt (II) and cadmium (II) complexes of k. cytidine-5'-monophosphate, [Co(CMP)(H20)] and [Cd(CMP)(H20)]-H20, J. Chem. Soc. Chem. Commun, 697-698, 1975.

790. Arnott S. The secondary structures of polynucleotide chains as revealed by X-ray diffraction analysis of fibers. In: S. Neidle, ed. Topics in Nucleic Acid sructure, Macmillan Publ. Ltd, London, 65-82, 1981.

791. Dickerson R.E., Drew H.R., Conner B.N., Wing R.M., Fratini A.V., , Корка M. L. The anatomy of A-, B-. and Z-DNA, Science, 216, 475-185 (1982).

792. Wells R. D., Goodman T.C., Hillen W.. Horn G. Т., Klein R.D.. Larson J.E., Miiller U. R.. Neuendorf S. K., Panayotatos N.. Stirdivant S. M. DNA structure

К and gene regulation, Prog. Nucl. Acid Res. Mol. Biol, 24, 167 267 (1980). |793. Kallenbach N. E., Berman H. M. RNA structure. Quart. Rev. Biophys, 10. > 138-236 (1977).

L794. Neifakh Yu. A., Tumanyan V. G. Possible conformations of DNA, Biophysics, 24, 577-585 (1980).

538 Литература

795. Ivanov V. I., Lysov Yu. P., Malenkov G. G, Minchenkova L. E., Minyat E. E., Schyolkina A. K., Zhurkin V. B. Conformational possibilities of double-helical DNA, Stud. Biophys, Berlin, 55, 5-13 (1976).

796. Poltev V. I., Milova L. A., Zhorov B. S, Govyrin V. A. Simulation of conformational possibilities of DNA via calculation of non-bonded interactions of complementary dinucleoside phosphate complexes, Biopolymers, 20, 1-15 (1981).

797. Calascibetta F. G, Dentini M., Santis P. de, Morosetti S. Conformational analysis of polynucleotide chains. Double stranded structures, Biopolymers, 14, 1667-1684 (1975).

798. Cornillon R., Lespinasse J.-N., Broch H., Vasilescu D. Influence of the sugar configuration on the structure of DNA by conformational analysis of the deoxyribose-phosphate unit, Biopolymers, 14, 1515-1529 (1975).

799. Olson W.K. Spatial configuration of ordered polynucleotide chains. V. Conformational energy estimates of helical structure, Biopolymers, 17, 1015-1040 (1978).

800. Kollman P. A., Weiner P. K., Dearing A. Studies of nucleotide conformations and interactions. The relative stabilities of double helical B-DNA sequence isomers, Biopolymers, 20, 2583-2621 (1981).

801. Tosi C, dementi E.. Matsuoka O. Conformational studies on polynucleotide chains. II. Analysis of steric interactions and derivation of potential functions for internal rotations, Biopolymers, 17, 51-66; III. Intermolecular energ\ maps and comparison with experiments, Biopolymers, 17, 67-84 (1978).

802 Matouka O., Tosi C, dementi E. Conformational studies on polynucleotide chains. I. Hartree-Fock energies and description of nonbonded interactions with Lennard-Jones potentials, Biopolymers, 17, 33-49 (1978).

803. Miller K. J. Interactions of molecules with nucleic acids. I. An algorithm to generate nucleic acid structures with an application to the B-DNA structure and a counterclockwise helix, Biopolymers, 18, 959-980 (1979).

804. Govil G, Fisk C, Howard F. В., Miles H. T. Structure of poly-8-bromo-adenylic acid: Conformational studies by CPF energy calculations, Nucl. Acids Res, 4, 2573-2592 (1977).

805. Olson W. K. Configurational statistics of polynucleotide chains. A single virtual bond treatment, Macromolecules, 8, 272-275 (1975).

806. Waterman M.S., Smith T.F. RNA secondary structure: a complete mathematical analysis, Math. Biosci, 42, 257-266 (1978).

807. Il'Icheva I. A., Tumanyan V. G, Kister A. E., Dashevsky V. G. Conformational studies of double-helical polynucleotides by the method of pair-wise potential functions, Int. J. Quant. Chem, 17, 321-326 (1980).

808. Zimmerman S. B. Polynucleotide models. II. Prediction of the radial position and tilt of the bases from the helical parameters, Biopolymers, 16, 749-763 (1977).

809. Mitra C.K., Sarma M.H., Sarma R.H. Plasticity of the DNA double helix, J. Amer. Chem. Soc, 103, 6727-6737 (1981).

810. Depew R. E., Wang J. C. Conformational fluctuations of DNA helix, Proc. Nat. Acad. Sci. USA, 72, 4275^1279 (1975).

811. Hogan M.E., Jardetzky O. Internal motions in DNA, Proc. Nat. Acad. Sci, USA, 76, 6341-6345 (1979).

812. Patel D. j, Pardi A., Itakura K. DNA conformation, dynamics, and interactions in solutions, Science, 216, 581-590 (1982).

813. Millar D. P., Robbins M.J., ZewailA.H. Time-resolved spectroscopy of

Литература

539

к macromolecules: Effect of helical structure on the torsional dynamics of DNA I and RNA, J. Chem. Phys, 74, 4200-4201 (1981)

страница 69
< 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]

п»ї
Rambler's Top100 Химический каталог

Copyright © 2009
(16.09.2019)