about
RNA is an integral component of chromatin that contributes to its structural organizationThe role of DNA shape in protein-DNA recognitionHrpXv, an AraC-type regulator, activates expression of five of the six loci in the hrp cluster of Xanthomonas campestris pv. vesicatoriaHomopolymer tract length dependent enrichments in functional regions of 27 eukaryotes and their novel dependence on the organism DNA (G+C)% compositionβ-Arm flexibility of HU from Staphylococcus aureus dictates the DNA-binding and recognition mechanismTranscription factor TFIID induces DNA bending upon binding to the TATA element.Importance of a flanking AT-rich region in target site recognition by the GC box-binding zinc finger protein MIG1.Coordinate regulation of replication and virion sense gene expression in wheat dwarf virusFleQ, the major flagellar gene regulator in Pseudomonas aeruginosa, binds to enhancer sites located either upstream or atypically downstream of the RpoN binding site.Structural Mechanism behind Distinct Efficiency of Oct4/Sox2 Proteins in Differentially Spaced DNA ComplexesQuality assessment of modeled protein structure using physicochemical properties.Wavelet Analysis of DNA Bending Profiles reveals Structural Constraints on the Evolution of Genomic Sequences.Recognition of methylated DNA through methyl-CpG binding domain proteins.Quantitative electron microscopic analysis of DNA-protein interactions.Oligonucleotide sequence motifs as nucleosome positioning signals.The global intrinsic curvature of archaeal and eubacterial genomes is mostly contained in their dinucleotide composition and is probably not an adaptation.Changing nucleosome positions through modification of the DNA rotational informationChemistry in human telomere biology: structure, function and targeting of telomere DNA/RNA.Fur activates the expression of Salmonella enterica pathogenicity island 1 by directly interacting with the hilD operator in vivo and in vitroNuclear scaffold attachment stimulates, but is not essential for ARS activity in Saccharomyces cerevisiae: analysis of the Drosophila ftz SARLrp, a major regulatory protein in Escherichia coli, bends DNA and can organize the assembly of a higher-order nucleoprotein structure.DnaA and the timing of chromosome replication in Escherichia coli as a function of growth rateThermophoretic melting curves quantify the conformation and stability of RNA and DNABinding of nucleoid-associated protein fis to DNA is regulated by DNA breathing dynamics.Nucleosome assembly on the human c-fos promoter interferes with transcription factor bindingPlasticity of the P junc promoter of ISEc11, a new insertion sequence of the IS1111 family.Cpf1 protein induced bending of yeast centromere DNA element I.Fluorescent d(CGCGAATTCGCG): characterization of major groove polarity and study of minor groove interactions through a major groove semantophore conjugate.Local supercoil-stabilized DNA structures.Far upstream regions of class II MHC Ea are necessary for position-independent, copy-dependent expression of Ea transgene.The endonuclease isoschizomers, SmaI and XmaI, bend DNA in opposite orientations.An upstream promoter element of the Acanthamoeba castellanii TBP gene binds a DNA sequence specific transcription activating protein, TPBF.Use of gel retardation to analyze protein-nucleic acid interactions.Origins of specificity in protein-DNA recognition.Bending of synthetic bacteriophage 434 operators by bacteriophage 434 proteinsRapid determination of the active fraction of DNA repair glycosylases: a novel fluorescence assay for trapped intermediates.Identification of the sequences recognized by phage phi 29 transcriptional activator: possible interaction between the activator and the RNA polymeraseTFIIIA induced DNA bending: effect of low ionic strength electrophoresis buffer conditions.Eukaryotic topoisomerase I-DNA interaction is stabilized by helix curvatureAn ectopic copy of the Drosophila ftz associated SAR neither reorganizes local chromatin structure nor hinders elution of a chromatin fragment from isolated nuclei.
P2860
Q21562311-6146E59F-0B48-4977-99E9-B0E6C6706224Q24658173-949EA4BB-A0D0-4A10-B449-3B8732B3224FQ24683344-F8C5F8A8-7A57-4B37-8420-B348B7064ED5Q24792585-23D91C7A-9079-43FC-9E2F-52B3CD2ACAE1Q27696321-09FA904A-1E78-4BF1-B9F1-4ECC3375CF5EQ27930204-0CB1BDF7-177D-45F8-B305-38EB86D2DE4CQ27939922-73AB32DB-E337-4F71-9A60-0D741912E8DCQ28285486-D2A701DE-1A67-45FF-AC88-D8F1B9E31FD6Q28493127-A1D02F98-8CB9-4C1A-890F-93BB22B2A0A8Q28552687-A5FCEE6D-2D72-4207-8398-2AADA6B7F7DFQ30369971-7D4140FC-64C4-459C-B14D-C4C1C94489D1Q30458944-829B0AD5-E279-465F-9120-B7343C1387CBQ30512312-B039EAEE-3DCA-456F-8978-3DFEDF23D52BQ33237477-E9D8210C-8B40-4FEE-86ED-249151DE286CQ33598467-27FDA0B8-6805-4069-B6A7-397379631467Q33618342-97908AD6-BE3B-45C9-959D-3A81C45BA97CQ33799466-D5C1356E-FED0-4AA9-AA33-15721240C569Q33814333-94F6EF71-D267-42D6-BE13-A8000E12FE2BQ33900474-2F974C76-FEB9-491E-B916-EE4D598B400AQ33923320-EED92B83-5C79-4D41-A98B-A9CCEC82ECE1Q34053294-DF6F505C-2A00-4637-839F-8E5A42C7AAD6Q34107943-4656EF45-815D-44EE-8411-3A0748AE4B83Q34162887-37219D4D-2ACC-4A9D-B62F-B9E8471D3270Q34558005-C4AF6BFE-7E46-4BD5-8C68-14B43085DFD8Q34619707-E6A2FB5E-569D-486C-B348-4FECBFD41EB3Q34697885-C60D8207-EB8C-4AFD-A370-13CF981063C7Q34728429-34B02403-DAA6-4CA4-AE3A-2E519EAD2EAFQ34734213-8A3AC75B-C790-4BEF-B9D7-B8E87AC5C082Q34922005-CA9EF809-B1D3-4584-B8B6-D613AE997752Q34981826-48EFD8A2-CB7F-448B-9D03-2042ED996A30Q34985120-ADF33F7B-9E64-4BF1-8800-18FDB855704EQ35001529-9C539E9B-99FF-4B13-85D4-F5ADC730F1E6Q35655392-BB509C1A-0B25-4298-8EA0-E6511823AF3BQ35774615-3D575EE4-486F-442A-B5CE-0F46E8E7C83AQ35774637-E38777D6-55CC-45EC-9EF6-766954E0280FQ35781828-B0D897B0-3417-4EE1-B622-0D0BC888B9DBQ35804554-A491C1D1-F3B2-4511-8EB9-25793C1F72CCQ35912502-F10D8E81-27A6-4946-9EF6-2629B953F4AEQ35918001-036A5C42-74BE-4E64-9A23-BF305BF83C86Q35924818-22AAC97E-92CD-4459-B01D-B5A60BEA76E9
P2860
description
1989 nî lūn-bûn
@nan
1989年の論文
@ja
1989年論文
@yue
1989年論文
@zh-hant
1989年論文
@zh-hk
1989年論文
@zh-mo
1989年論文
@zh-tw
1989年论文
@wuu
1989年论文
@zh
1989年论文
@zh-cn
name
DNA conformation and protein binding.
@en
type
label
DNA conformation and protein binding.
@en
prefLabel
DNA conformation and protein binding.
@en
P1476
DNA conformation and protein binding.
@en
P2093
Travers AA
P304
P356
10.1146/ANNUREV.BI.58.070189.002235
P577
1989-01-01T00:00:00Z