DNase I-induced DNA conformation. 2 A structure of a DNase I-octamer complex.

[1]  J. Zou,et al.  Improved methods for building protein models in electron density maps and the location of errors in these models. , 1991, Acta crystallographica. Section A, Foundations of crystallography.

[2]  J. Rosenberg Structure and function of restriction endonucleases , 1991 .

[3]  U. Heinemann A note on crystal packing and global helix structure in short A-DNA duplexes. , 1991, Journal of biomolecular structure & dynamics.

[4]  B. Connolly,et al.  The chemical synthesis of a gene coding for bovine pancreatic DNase I and its cloning and expression in Escherichia coli. , 1990, Journal of Biological Chemistry.

[5]  Carl O. Pabo,et al.  Crystal structure of an engrailed homeodomain-DNA complex at 2.8 Å resolution: A framework for understanding homeodomain-DNA interactions , 1990, Cell.

[6]  I. Brukner,et al.  Sequence-dependent structural variations of DNA revealed by DNase I. , 1990, Nucleic acids research.

[7]  U. Heinemann,et al.  Crystallographic study of one turn of G/C-rich B-DNA. , 1989, Journal of molecular biology.

[8]  S. Diekmann,et al.  Definitions and nomenclature of nucleic acid structure parameters. , 1989, The EMBO journal.

[9]  R. Lavery,et al.  Defining the structure of irregular nucleic acids: conventions and principles. , 1989, Journal of biomolecular structure & dynamics.

[10]  M Ptashne,et al.  Recognition of a DNA operator by the repressor of phage 434: a view at high resolution , 1988, Science.

[11]  Jordan,et al.  Structure of the lambda complex at 2.5 A resolution: details of the repressor-operator interactions , 1988, Science.

[12]  J. Priestle,et al.  RIBBON: a stereo cartoon drawing program for proteins , 1988 .

[13]  A. Joachimiak,et al.  Crystal structure of trp represser/operator complex at atomic resolution , 1988, Nature.

[14]  R Lavery,et al.  The definition of generalized helicoidal parameters and of axis curvature for irregular nucleic acids. , 1988, Journal of biomolecular structure & dynamics.

[15]  A. Brunger Crystallographic refinement by simulated annealing , 1988 .

[16]  D. Suck,et al.  Structure refined to 2Å of a nicked DNA octanucleotide complex with DNase I , 1988, Nature.

[17]  U Heinemann,et al.  Helix geometry, hydration, and G.A mismatch in a B-DNA decamer. , 1987, Science.

[18]  F. Jurnak,et al.  Biological Macromolecules and Assemblies , 1987 .

[19]  D. Shortle,et al.  Kinetic and magnetic resonance studies of active-site mutants of staphylococcal nuclease: factors contributing to catalysis. , 1987, Biochemistry.

[20]  D. Suck,et al.  Crystallographic refinement and structure of DNase I at 2 A resolution. , 1986, Journal of molecular biology.

[21]  Olga Kennard,et al.  DNA conformation is determined by economics in the hydration of phosphate groups , 1986, Nature.

[22]  Dietrich Suck,et al.  Structure of DNase I at 2.0 Å resolution suggests a mechanism for binding to and cutting DNA , 1986, Nature.

[23]  R. Read Improved Fourier Coefficients for Maps Using Phases from Partial Structures with Errors , 1986 .

[24]  M. Ptashne,et al.  Cooperative binding of λ repressors to sites separated by integral turns of the DNA helix , 1986, Cell.

[25]  E N Trifonov,et al.  Curved DNA: design, synthesis, and circularization. , 1986, Proceedings of the National Academy of Sciences of the United States of America.

[26]  H R Drew,et al.  DNA bending and its relation to nucleosome positioning. , 1985, Journal of molecular biology.

[27]  H R Drew,et al.  Structural junctions in DNA: the influence of flanking sequence on nuclease digestion specificities. , 1985, Nucleic acids research.

[28]  A. Rosenthal,et al.  Solid-phase methods for sequencing of nucleic acids I. Simultaneous sequencing of different oligodeoxyribonucleotides using a new, mechanically stable anion-exchange paper. , 1985, Nucleic acids research.

[29]  D. B. Wilson A runaway instability in thick accretion disks? , 1984, Nature.

[30]  J. Gerlt,et al.  Syntheses and configurational analyses of thymidine 4-nitrophenyl [17O,18O]phosphates and the stereochemical course of a reaction catalyzed by bovine pancreatic deoxyribonuclease I. , 1984, Biochemistry.

[31]  W. Kabsch,et al.  Three‐dimensional structure of bovine pancreatic DNase I at 2.5 A resolution. , 1984, The EMBO journal.

[32]  J. Biernat,et al.  Polymer support oligonucleotide synthesis XVIII: use of beta-cyanoethyl-N,N-dialkylamino-/N-morpholino phosphoramidite of deoxynucleosides for the synthesis of DNA fragments simplifying deprotection and isolation of the final product. , 1984, Nucleic acids research.

[33]  H. Drew,et al.  DNA structural variations in the E. coli tyrT promoter , 1984, Cell.

[34]  Richard E. Dickerson,et al.  The DNA Helix and How it is Read , 1983 .

[35]  H R Drew,et al.  Ordered water structure around a B-DNA dodecamer. A quantitative study. , 1983, Journal of molecular biology.

[36]  H R Drew,et al.  Reversible bending and helix geometry in a B-DNA dodecamer: CGCGAATTBrCGCG. , 1982, The Journal of biological chemistry.

[37]  A Klug,et al.  Sequence-dependent variation in the conformation of DNA. , 1981, Journal of molecular biology.

[38]  H R Drew,et al.  Structure of a B-DNA dodecamer. II. Influence of base sequence on helix structure. , 1981, Journal of molecular biology.

[39]  D. Jackson,et al.  The effect of divalent cations on the mode of action of DNase I. The initial reaction products produced from covalently closed circular DNA. , 1980, Journal of Biological Chemistry.

[40]  R. C. Agarwal A new least‐squares refinement technique based on the fast Fourier transform algorithm: erratum , 1978 .

[41]  T. A. Jones,et al.  A graphics model building and refinement system for macromolecules , 1978 .

[42]  George M. Church,et al.  A structure-factor least-squares refinement procedure for macromolecular structures using constrained and restrained parameters , 1977 .

[43]  A. North,et al.  Crystallographic relationship between human and hen-egg lysozymes. I. Methods for the establishment of molecular orientational and positional parameters , 1976 .

[44]  S. Moore,et al.  Effect of divalent cations on the reduction and re-formation of the disulfide bonds of deoxyribonuclease. , 1969, The Journal of biological chemistry.

[45]  E. Melgar,et al.  Deoxyribonucleic acid nucleases. I. The use of a new method to observe the kinetics of deoxyribonucleic acid degradation by deoxyribonuclease I, deoxyribonuclease II, and Escherichia coli endonuclease I. , 1968, Journal of Biological Chemistry.

[46]  E. Melgar,et al.  Deoxyribonucleic acid nucleases. II. The effects of metals on the mechanism of action of deoxyribonuclease I. , 1968, The Journal of biological chemistry.

[47]  F. S. Mathews,et al.  A semi-empirical method of absorption correction , 1968 .

[48]  B. Matthews Solvent content of protein crystals. , 1968, Journal of molecular biology.

[49]  R. H. Austin,et al.  Importance of DNA stiffness in protein–DNA binding specificity , 1987, Nature.

[50]  D. Rabinovich,et al.  The effect of the base sequence on the fine structure of the DNA double helix. , 1986, Progress in biophysics and molecular biology.