scholarly article | Q13442814 |
P819 | ADS bibcode | 1976PNAS...73.2639C |
P356 | DOI | 10.1073/PNAS.73.8.2639 |
P953 | full work available at URL | https://europepmc.org/articles/PMC430703 |
https://europepmc.org/articles/PMC430703?pdf=render | ||
P3181 | OpenCitations bibliographic resource ID | 2119686 |
P932 | PMC publication ID | 430703 |
P698 | PubMed publication ID | 1066673 |
P5875 | ResearchGate publication ID | 22087767 |
P50 | author | Francis Crick | Q123280 |
P2093 | author name string | F. H. Crick | |
P2860 | cites work | The sense of naturally occurring superhelices and the unwinding angle of intercalated ethidium | Q66901505 |
The degree of unwinding of the DNA helix by ethidium. I. Titration of twisted PM2 DNA molecules in alkaline cesium chloride density gradients | Q68872068 | ||
Chromatin structure: deduced from a minichromosome | Q80946879 | ||
The writhing number of a space curve | Q24618221 | ||
Folding of the DNA double helix in chromatin-like structures from simian virus 40 | Q35078988 | ||
Conformational fluctuations of DNA helix | Q37458627 | ||
Action of nicking-closing enzyme on supercoiled and nonsupercoiled closed circular DNA: formation of a Boltzmann distribution of topological isomers | Q37458662 | ||
Determination of the number of superhelical turns in simian virus 40 DNA by gel electrophoresis | Q37464394 | ||
Stepwise Relaxation of Supercoiled SV40 DNA | Q39947152 | ||
On the degree of unwinding of the DNA helix by ethidium. II. Studies by electron microscopy | Q44106876 | ||
P433 | issue | 8 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | DNA | Q7430 |
nucleic acid tertiary structure | Q3823894 | ||
P304 | page(s) | 2639-43 | |
P577 | publication date | 1976-08-01 | |
P1433 | published in | Proceedings of the National Academy of Sciences of the United States of America | Q1146531 |
P1476 | title | Linking numbers and nucleosomes | |
P478 | volume | 73 |
Q40262946 | A Sign Inversion Mechanism for Enzymatic Supercoiling of DNA |
Q36025444 | A novel roll-and-slide mechanism of DNA folding in chromatin: implications for nucleosome positioning |
Q37583155 | A simple model of DNA superhelices in solution |
Q36268575 | A simple topological method for describing stereoisomers of DNA catenanes and knots |
Q54486067 | A superhelical spiral in the Escherichia coli DNA gyrase A C-terminal domain imparts unidirectional supercoiling bias. |
Q40167701 | A theoretical model for the prediction of sequence-dependent nucleosome thermodynamic stability |
Q24537244 | A topological approach to nucleosome structure and dynamics: the linking number paradox and other issues |
Q41608602 | An elastic model of the large-scale structure of duplex DNA |
Q41315306 | Appendix. I: An introduction to DNA supercoiling and DNA topoisomerase-catalyzed linking number changes of supercoiled DNA. |
Q53564258 | Characterization of reversible, physical binding of benzo[a]pyrene derivatives to DNA |
Q39715057 | Chromatin |
Q40501309 | Circular dichroism and DNA secondary structure |
Q40114133 | Compact form of SV40 viral minichromosome is resistant to nuclease: possible implications for chromatin structure |
Q37396801 | Competitive behavior of multiple, discrete B-Z transitions in supercoiled DNA. |
Q52654415 | Computer simulation of DNA supercoiling. |
Q40119532 | DNA Gyrase and the Supercoiling of DNA |
Q41962734 | DNA gyrase with a single catalytic tyrosine can catalyze DNA supercoiling by a nicking-closing mechanism |
Q34507230 | DNA gyrase: structure and function. |
Q36839634 | DNA sequence-directed nucleosome reconstitution on 5S RNA genes of Xenopus laevis |
Q41912891 | DNA supercoiling by DNA gyrase. A static head analysis |
Q41091317 | DNA supercoiling changes the spacing requirement of two lac operators for DNA loop formation with lac repressor. |
Q56432854 | DNA topoisomerases in apicomplexan parasites: promising targets for drug discovery |
Q37255381 | DNA topoisomerases: harnessing and constraining energy to govern chromosome topology |
Q47163814 | DNA topology in chromatin is defined by nucleosome spacing. |
Q51297234 | DNA topology in chromosomes: a quantitative survey and its physiological implications. |
Q35627293 | DNA wrapping in nucleosomes. The linking number problem re-examined |
Q37591574 | Decomposition of the linking number of a closed ribbon: A problem from molecular biology |
Q48299911 | Design and synthesis of the first triply twisted Möbius annulene |
Q59073959 | Determination of twist and handedness of a 39-base pair segment of DNA in solution |
Q43263393 | Diffusion of circular DNA in two-dimensional cavity arrays. |
Q39971400 | Effect of nalidixic acid and novobiocin on pBR322 genetic expression in Escherichia coli minicells |
Q35064127 | Elastic model of supercoiling |
Q40558057 | Energy-structure correlations of plasmid DNA in different topological forms |
Q43971420 | Epigenetic nucleosomes: Alu sequences and CG as nucleosome positioning element |
Q56913672 | Estimating the torsional rigidity of DNA from supercoiling data |
Q36140198 | Evidence that a plasmid from a hyperthermophilic archaebacterium is relaxed at physiological temperatures |
Q37332933 | Helical parameters of DNA do not change when DNA fibers are wetted: X-ray diffraction study |
Q24599121 | Helical repeat of DNA in solution |
Q36123282 | Helical repeat of DNA in solution. The V curve method |
Q74396080 | Helically coiled cage forms of graphitic carbon |
Q40154869 | Higher Order Structure of Simian Virus 40 Chromatin |
Q33959935 | How many base-pairs per turn does DNA have in solution and in chromatin? Some theoretical calculations |
Q71475088 | Hydrogen-exchange study of a nucleosome |
Q37336311 | In vitro core particle and nucleosome assembly at physiological ionic strength |
Q41430324 | Inhibition of DNA synthesis by aphidicolin induces supercoiling in simian virus 40 replicative intermediates |
Q39848099 | Interaction of Bacillus subtilis purine repressor with DNA. |
Q37427611 | Interaction of the histone (H3-H4)2 tetramer of the nucleosome with positively supercoiled DNA minicircles: Potential flipping of the protein from a left- to a right-handed superhelical form |
Q59126322 | Intracellular nucleosomes constrain a DNA linking number difference of -1.26 that reconciles the Lk paradox |
Q42606448 | Linker histone-dependent organization and dynamics of nucleosome entry/exit DNAs |
Q59164664 | Manipulating DNA writhe through varying DNA sequences |
Q37585314 | Micrococcus luteus DNA gyrase: active components and a model for its supercoiling of DNA |
Q61730327 | Microwave-enhanced folding and denaturation of globular proteins |
Q34264471 | Mitochondrial DNA metabolism targeting drugs |
Q40897470 | Modeling protein-induced configurational changes in DNA minicircles |
Q37475562 | Nucleosome assembly depends on the torsion in the DNA molecule: a magnetic tweezers study |
Q24652372 | Nucleosomes, linker DNA, and linker histone form a unique structural motif that directs the higher-order folding and compaction of chromatin |
Q38345482 | One left-handed strand in DNA-oligonucleotide complexes? |
Q30449120 | Organization of DNA in chromatin |
Q56913627 | Organizing centres for three-dimensional chemical waves |
Q37678215 | Path integrals for electronic densities, reactivity indices, and localization functions in quantum systems |
Q35748553 | Precise location of DNase I cutting sites in the nucleosome core determined by high resolution gel electrophoresis |
Q34055293 | Production of positively supercoiled DNA by netropsin |
Q27318603 | Retroviral intasomes search for a target DNA by 1D diffusion which rarely results in integration |
Q59088351 | Reverse gyrase—a topoisomerase which introduces positive superhelical turns into DNA |
Q43026060 | Sequence periodicity in complete genomes of archaea suggests positive supercoiling |
Q78840273 | Sequence-dependent nucleosome structural and dynamic polymorphism. Potential involvement of histone H2B N-terminal tail proximal domain |
Q36951338 | Simian virus 40 minichromosomes contain torsionally strained DNA molecules |
Q40644694 | Simian virus 40 origin auxiliary sequences weakly facilitate T-antigen binding but strongly facilitate DNA unwinding |
Q34555528 | Specific selection pressure at the third codon positions: contribution to 10- to 11-base periodicity in prokaryotic genomes |
Q41700488 | Statistical mechanics of supercoils and the torsional stiffness of the DNA double helix |
Q37600221 | Structural features of a phased nucleosome core particle |
Q34273632 | Structure of chromatin and the linking number of DNA. |
Q38560180 | Structure of nucleosome core particles of chromatin |
Q36220285 | Supercoiling energy and nucleosome formation: the role of the arginine-rich histone kernel |
Q52700074 | Superhelicity of nucleosomal DNA changes its double-helical repeat. |
Q70168677 | Synapsis and the formation of paranemic joints by E. coli RecA protein |
Q91658425 | The TAFs of TFIID Bind and Rearrange the Topology of the TATA-Less RPS5 Promoter |
Q52735895 | The dependence of the linking number of a circular minichromosome upon the shape and the orientation of its nucleosomes. |
Q40480883 | The early melting of closed duplex DNA: analysis by banding in buoyant neutral rubidium trichloroacetate. |
Q40499687 | The helical periodicity of DNA on the nucleosome |
Q36644473 | The helicity of DNA in complexes with recA protein |
Q57946895 | The topological properties of magnetic helicity |
Q93006081 | Theoretical Methods for Studying DNA Structural Transitions under Applied Mechanical Constraints |
Q40389258 | Thermodynamics of B-Z transition in supercoiled DNA. |
Q37810595 | Topoisomerases and site-specific recombinases: similarities in structure and mechanism |
Q52785464 | Topological considerations in the theory of replication of DNA |
Q37610613 | Topological diversity of chromatin fibers: Interplay between nucleosome repeat length, DNA linking number and the level of transcription |
Q35687670 | Topological polymorphism of the two-start chromatin fiber. |
Q41461092 | Torsional stress induces left-handed helical stretches in DNA of natural base sequence: circular dichroism and antibody binding |
Q44206224 | Unlinked strands as a topological constraint on chromosomal DNA, plasmid integration, and DNA repair |
Q35359817 | Unwinding of double-stranded DNA helix by dehydration |
Q51863700 | Writhe formulas and antipodal points in plectonemic DNA configurations. |
Q34254801 | X-ray scattering from randomly oriented superhelices. Circular superhelical DNA. |
Q36102323 | Yeast nucleosomes allow thermal untwisting of DNA. |
Q56913616 | Yeast oscillations, belousov-zhabotinsky waves, and the non-retraction theorem |