review article | Q7318358 |
scholarly article | Q13442814 |
P356 | DOI | 10.1002/ANIE.201702531 |
P8608 | Fatcat ID | release_3bixxvskbrevxo5nqzuzu6yzrm |
P932 | PMC publication ID | 5582600 |
P698 | PubMed publication ID | 28477423 |
P50 | author | David Leigh | Q15120121 |
Steffen L Woltering | Q57519631 | ||
P2093 | author name string | Stephen D P Fielden | |
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Knotted single-stranded DNA rings: a novel topological isomer of circular single-stranded DNA formed by treatment with Escherichia coli omega protein | Q67494388 | ||
A triplex-mediated knot between separated polypurine-polypyrimidine tracts in circular DNA blocks transcription by Escherichia coli RNA polymerase | Q73751213 | ||
The importance of being knotted: effects of the C-terminal knot structure on enzymatic and mechanical properties of bovine carbonic anhydrase II | Q74144055 | ||
Novel Amide-Based Molecular Knots: Complete Enantiomeric Separation, Chiroptical Properties, and Absolute Configuration We would like to thank Prof. F. V. Schurig for his advice regarding the separation of the enantiomers. The results reported here | Q74157309 | ||
Knottedness in ring polymers | Q74507090 | ||
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Imaging of catenated, figure-of-eight, and trefoil knot polymer rings | Q84164949 | ||
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Sequence determines degree of knottedness in a coarse-grained protein model | Q86627257 | ||
Trinuclear Copper(I)-bipyridine Triskelion: Template/Bascule Control of Coordination Complex Stereochemistry in a Trefoil Knot Precursor This work was supported by the US National Science Foundation (CHE-9904275) | Q95349049 | ||
Isolated optical vortex knots | Q57891955 | ||
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Circular Dimer and Catenate Forms of Mitochondrial DNA in Human Leukaemic Leucocytes | Q59063781 | ||
Influence of a knot on the strength of a polymer strand | Q59070126 | ||
β-Sheet topology and the relatedness of proteins | Q28295058 | ||
Topoisomerase IV, alone, unknots DNA in E. coli | Q28361527 | ||
Hagfish predatory behaviour and slime defence mechanism | Q28742744 | ||
The first 1,701,936 knots | Q30051555 | ||
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Protein knots and fold complexity: some new twists. | Q30361659 | ||
KnotProt: a database of proteins with knots and slipknots | Q30368324 | ||
Tying a molecular knot with optical tweezers | Q30713038 | ||
Supercoiled DNA-directed knotting by T4 topoisomerase | Q33238244 | ||
Hin-mediated DNA knotting and recombining promote replicon dysfunction and mutation | Q33285899 | ||
Knotted vs. unknotted proteins: evidence of knot-promoting loops | Q33649772 | ||
[C-H···anion] interactions mediate the templation and anion binding properties of topologically non-trivial metal-organic structures in aqueous solutions. | Q33814081 | ||
DNA knots reveal a chiral organization of DNA in phage capsids | Q33878857 | ||
A Molecular Knot with Twelve Amide Groups-One-Step Synthesis, Crystal Structure, Chirality Extracts were presented during a talk at the Universität Düsseldorf on January 11, 2000. We thank Dr. Christian Seel and Dr. Rudolf Hartmann for suggestions a | Q33902581 | ||
Reconfigurable knots and links in chiral nematic colloids. | Q33947730 | ||
Knotting probability of DNA molecules confined in restricted volumes: DNA knotting in phage capsids | Q34024751 | ||
Metallosupramolecular self-assembly of a universal 3-ravel. | Q34166295 | ||
Bioactive cystine knot proteins. | Q34167698 | ||
Conservation of complex knotting and slipknotting patterns in proteins | Q34280376 | ||
Discovery of an organic trefoil knot. | Q34310741 | ||
Knotting and threading of molecules: chemistry and chirality of molecular knots and their assemblies | Q34392984 | ||
Allosteric initiation and regulation of catalysis with a molecular knot | Q34531901 | ||
Braiding a molecular knot with eight crossings. | Q34549084 | ||
A trefoil knot made of amino acids and steroids | Q34549564 | ||
Statistics of knots, geometry of conformations, and evolution of proteins | Q34619958 | ||
Catalytic "active-metal" template synthesis of [2]rotaxanes, [3]rotaxanes, and molecular shuttles, and some observations on the mechanism of the cu(i)-catalyzed azide-alkyne 1,3-cycloaddition. | Q34685306 | ||
Absence of knots in known RNA structures. | Q35129105 | ||
Homochiral and meso figure eight knots and a Solomon link | Q35169312 | ||
Post-synthetic modifications of cadmium-based knots and links. | Q36021923 | ||
Mechanisms of site-specific recombination. | Q36498339 | ||
Tying a Molecular Overhand Knot of Single Handedness and Asymmetric Catalysis with the Corresponding Pseudo-D3-Symmetric Trefoil Knot | Q37495501 | ||
Strategies and tactics for the metal-directed synthesis of rotaxanes, knots, catenanes, and higher order links | Q37934797 | ||
The beauty of knots at the molecular level | Q37949256 | ||
Template synthesis of molecular knots | Q38034433 | ||
Disulfide exchange: exposing supramolecular reactivity through dynamic covalent chemistry | Q38153195 | ||
Catenanes: fifty years of molecular links | Q38464452 | ||
Molecular knots in biology and chemistry | Q38570172 | ||
Knot theory in modern chemistry. | Q39014973 | ||
Biochemical topology: applications to DNA recombination and replication | Q39501357 | ||
T7 RNA polymerase cannot transcribe through a highly knotted DNA template | Q39718422 | ||
Influence of Rigidity and Knot Complexity on the Knotting of Confined Polymers. | Q40023046 | ||
Analysis of the mechanism of DNA recombination using tangles | Q40370866 | ||
Structure and Mechanism of DNA Topoisomerases | Q40475964 | ||
Tetrameric cyclic double helicates as a scaffold for a molecular Solomon link | Q42003106 | ||
Effect of Bending Rigidity on the Knotting of a Polymer under Tension. | Q42244805 | ||
Synthesis of a molecular trefoil knot by folding and closing on an octahedral coordination template. | Q42788115 | ||
Active metal template synthesis of [2]catenanes | Q43266482 | ||
Simplification of DNA topology below equilibrium values by type II topoisomerases | Q43575743 | ||
Predicting knot and catenane type of products of site-specific recombination on twist knot substrates | Q43799233 | ||
Thermal, chemical, and enzymatic stability of the cyclotide kalata B1: the importance of the cyclic cystine knot. | Q44898692 | ||
Effects of knot type in the folding of topologically complex lattice proteins. | Q45346586 | ||
Statistical mechanics and topology of polymer chains | Q45362375 | ||
Direct synthesis and structural characterisation of tri- and tetra-nuclear silver metallaknotanes by self-assembly approach. | Q46198666 | ||
Synthesis of multi-1,10-phenanthroline ligands with 1,3-phenylene linkers and their lithium complexes | Q46478840 | ||
Selecting topology and connectivity through metal-directed macrocyclization reactions: a square planar palladium [2]catenate and two noninterlocked isomers. | Q46688913 | ||
Weaving of organic threads into a crystalline covalent organic framework | Q46760660 | ||
Catalytic "click" rotaxanes: a substoichiometric metal-template pathway to mechanically interlocked architectures | Q46944301 | ||
Genesis of the Nanomachines: The 2016 Nobel Prize in Chemistry | Q48276462 | ||
Simultaneous self-assembly of a [2]catenane, a trefoil knot, and a Solomon link from a simple pair of ligands. | Q50853497 | ||
A trefoil knotted polymer produced through ring expansion. | Q51003272 | ||
A Star of David catenane. | Q51040154 | ||
DNA disentangling by type-2 topoisomerases. | Q51995005 | ||
Are there knots in proteins? | Q52379566 | ||
Synthesis of a doubly interlocked [2]-catenane. | Q54020249 | ||
Self-Assembly of a Circular Double Helicate | Q54242869 | ||
Kinetic and Thermodynamic Control in Self-Assembly: Sequential Formation of Linear and Circular Helicates. | Q54760663 | ||
Duplex DNA knots produced by Escherichia coli topoisomerase I. Structure and requirements for formation. | Q54798707 | ||
On the relative motion of the Earth and the luminiferous ether | Q55867131 | ||
Active-Metal Template Synthesis of a Molecular Trefoil Knot | Q55883368 | ||
A Synthetic Molecular Trefoil Knot | Q56029545 | ||
Molecular Meccano, 27. A Template-directed Synthesis of a Molecular Trefoil Knot | Q56029546 | ||
Copper(I)- or Iron(II)-Templated Synthesis of Molecular Knots Containing Two Tetrahedral or Octahedral Coordination Sites | Q56029547 | ||
Molecular Composite Knots | Q56029548 | ||
On Types of Knotted Curves | Q56474486 | ||
Elementare Begründung der Knotentheorie | Q56474494 | ||
Molecular structure of a catenand and its copper(I) catenate: complete rearrangement of the interlocked macrocyclic ligands by complexation | Q56482638 | ||
Synthesis of a D3-symmetric “trefoil” knotted cyclophane | Q57086074 | ||
Dynamic Combinatorial Chemistry | Q57365325 | ||
Die Genese der Nanomaschinen: der Chemie-Nobelpreis 2016 | Q57384123 | ||
Lanthanide Template Synthesis of Trefoil Knots of Single Handedness | Q57384129 | ||
Strong and Selective Anion Binding within the Central Cavity of Molecular Knots and Links | Q57384130 | ||
Lanthanide Template Synthesis of a Molecular Trefoil Knot | Q57384133 | ||
Pentameric Circular Iron(II) Double Helicates and a Molecular Pentafoil Knot | Q57384143 | ||
P433 | issue | 37 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | molecular knots | Q1984372 |
P304 | page(s) | 11166-11194 | |
P577 | publication date | 2017-05-06 | |
P1433 | published in | Angewandte Chemie International Edition | Q62023953 |
P1476 | title | Molecular Knots | |
P478 | volume | 56 |