about
Ar+ plasma-induced damage to DNA in bacteriophage lambda: implications for the arrangement of DNA in the phage headIon etching bacteriophage T4: support for a spiral-fold model of packaged DNA.Topological friction strongly affects viral DNA ejection.Production of highly knotted DNA by means of cosmid circularization inside phage capsidsDNA-DNA interactions in bacteriophage capsids are responsible for the observed DNA knotting.DNA knots reveal a chiral organization of DNA in phage capsids.Knotting probability of DNA molecules confined in restricted volumes: DNA knotting in phage capsidsA topological view of the repliconDiscovery of an organic trefoil knot.Absence of knots in known RNA structures.Knotting of DNA molecules isolated from deletion mutants of intact bacteriophage P4.Effective stiffening of DNA due to nematic ordering causes DNA molecules packed in phage capsids to preferentially form torus knots.A simple topological method for describing stereoisomers of DNA catenanes and knots.Packaging double-helical DNA into viral capsids: structures, forces, and energetics.Polyomavirus minichromosomes: associated DNA topoisomerase II and DNA ligase activities.Identification of homologous pairing and strand-exchange activity from a human tumor cell line based on Z-DNA affinity chromatography.Influence of chain stiffness on knottedness in single polymers.Determining the topology of stable protein-DNA complexes.Disulfide exchange: exposing supramolecular reactivity through dynamic covalent chemistry.Pore translocation of knotted DNA rings.Novel display of knotted DNA molecules by two-dimensional gel electrophoresis.T7 RNA polymerase cannot transcribe through a highly knotted DNA template.Gyrase inhibitors increase the content of knotted DNA species of plasmid pBR322 in Escherichia coli.Hexagonally packed DNA within bacteriophage T7 stabilized by curvature stress.Electrostatic-undulatory theory of plectonemically supercoiled DNA.The presence of the region on pBR322 that encodes resistance to tetracycline is responsible for high levels of plasmid DNA knotting in Escherichia coli DNA topoisomerase I deletion mutant.Current theoretical models fail to predict the topological complexity of the human genome.Single-molecule and FRET fluorescence correlation spectroscopy analyses of phage DNA packaging: colocalization of packaged phage T4 DNA ends within the capsid.Sedimentation of knotted polymers.Translocation dynamics of knotted polymers under a constant or periodic external field.Simultaneous self-assembly of a [2]catenane, a trefoil knot, and a Solomon link from a simple pair of ligands.A trefoil knotted polymer produced through ring expansion.An algebraic view of bacterial genome evolution.Discretized knot motion on a tensioned fiber induced by transverse wavesAre There Knots in Chromosomes?Programming molecular topologies from single-stranded nucleic acids
P2860
Q30434269-EDBA5367-801F-48D5-AC90-D59204F36E13Q30449687-6742619C-7825-4D49-87F0-E61636D1688BQ30559605-28CDC596-9B26-477E-AFE3-477D170C5973Q33312099-9498B183-8CE5-4E4C-BFB9-60CBE4D3E4F6Q33564315-1582C438-ADC1-45E3-A5D3-0AD91E6FB908Q33878857-AD869926-9FC3-46CB-A1EA-7C581EF0CAB6Q34024751-25943F90-F586-45AD-B06F-A2F71B53A1BDQ34165901-9597B158-9594-4435-B393-5A835F6AA90EQ34310741-68D74A32-04B6-4A46-A070-437A9CD8A140Q35129105-C0263D46-5BBB-4C44-9556-5943205E7016Q35560851-119A49DF-26ED-4D25-94E9-89C36C8C5804Q36008152-60EEBA39-85F5-40BD-AF65-8093B20CFE28Q36268575-668602FE-8DA5-433E-9CB1-A5C804A29DBEQ36737175-92560A54-51EC-4F73-8954-068DFCB6A08CQ36911705-2A8C8169-5ED5-41E2-8951-FA925FB259CBQ37479375-E6CB8D72-5437-4096-97B0-F45136BFE841Q38091473-F48A832E-29D7-4BB8-84FA-BAFAE6DC2E25Q38091488-44713D3E-DDFE-40D7-8E03-9DDB319B74BFQ38153195-D49B5F53-55EF-4120-9E40-65B02F39E738Q38738313-653AF724-BF50-416C-8EDE-322E36AF61ADQ39095881-A3BB5C0B-6D7C-4EDA-9D82-678231A2CDD1Q39718422-1DB351AB-BD98-43D8-973C-34093BB828B7Q39943020-6F7BD5B7-5C1B-4673-8D19-F90A655D7EA8Q40127856-1DE43C53-6A28-4611-AE67-F69AD7EAD7F2Q40142284-C701BFF3-10E9-4D70-9140-F1195B4F48FFQ40539590-62476D7E-FA9A-4ED8-A82E-5634B68E8057Q40564179-81BB21F2-F1A0-46C0-9342-6E7F9D1240CAQ41879548-01D8C97A-F3AA-42E0-A8C8-B5E6417B0FBDQ44178289-9F03343E-7673-46E0-9727-4C33B2894D9CQ50853028-9EBE58F8-54E3-48CA-8A5D-2BA2E1DAB246Q50853497-1D5B3961-A4A0-41D3-B3E0-9AC0975AD0BFQ51003272-FB0B3EDB-E944-4FDD-BB53-59829FFD9783Q51127955-81BEC9DE-2DC2-41FD-9986-1A14658210C1Q57547134-476213AE-F0AE-4991-81C8-CDE70E17123CQ57834642-907D864C-6FE4-4E96-B093-022EAB2341B4Q58617529-B648D2A1-D580-4E23-8B21-7266EC171BE1
P2860
description
1981 nî lūn-bûn
@nan
1981年の論文
@ja
1981年学术文章
@wuu
1981年学术文章
@zh-cn
1981年学术文章
@zh-hans
1981年学术文章
@zh-my
1981年学术文章
@zh-sg
1981年學術文章
@yue
1981年學術文章
@zh
1981年學術文章
@zh-hant
name
Knotted DNA from bacteriophage capsids.
@ast
Knotted DNA from bacteriophage capsids.
@en
type
label
Knotted DNA from bacteriophage capsids.
@ast
Knotted DNA from bacteriophage capsids.
@en
prefLabel
Knotted DNA from bacteriophage capsids.
@ast
Knotted DNA from bacteriophage capsids.
@en
P2093
P2860
P356
P1476
Knotted DNA from bacteriophage capsids.
@en
P2093
P2860
P304
P356
10.1073/PNAS.78.9.5498
P407
P577
1981-09-01T00:00:00Z