| P2093 | author name string | Jeffrey J Hayes | |
| | Chunyang Zheng | |
| | Zungyoon Yang | |
| | Christophe Thiriet | |
| P2860 | cites work | Translating the Histone Code | Q22065840 |
| | Differing roles for zinc fingers in DNA recognition: structure of a six-finger transcription factor IIIA complex | Q27748922 |
| | The language of covalent histone modifications | Q27860931 |
| | High-resolution mapping of changes in histone-DNA contacts of nucleosomes remodeled by ISW2 | Q27930945 |
| | Histone acetyltransferases | Q29547823 |
| | DNA and protein determinants of nucleosome positioning on sea urchin 5S rRNA gene sequences in vitro | Q33713829 |
| | Disruption of higher-order folding by core histone acetylation dramatically enhances transcription of nucleosomal arrays by RNA polymerase III | Q33775383 |
| | The structure of DNA in a nucleosome | Q33811321 |
| | Histone tails modulate nucleosome mobility and regulate ATP-dependent nucleosome sliding by NURF | Q33951814 |
| | Conformational dynamics of the chromatin fiber in solution: determinants, mechanisms, and functions | Q33958912 |
| | Specific interaction of a purified transcription factor with an internal control region of 5S RNA genes | Q34248726 |
| | In vitro reconstitution and analysis of mononucleosomes containing defined DNAs and proteins | Q34427572 |
| | A new procedure for purifying histone pairs H2A+H2B and H3+H4 from chromatin using hydroxylapatite | Q35749964 |
| | High yield purification of active transcription factor IIIA expressed in E. coli | Q35793216 |
| | Acetylation of histone H4 plays a primary role in enhancing transcription factor binding to nucleosomal DNA in vitro. | Q35850301 |
| | Participation of core histone "tails" in the stabilization of the chromatin solenoid | Q36208922 |
| | Structural features of transcription factor IIIA bound to a nucleosome in solution | Q36222333 |
| | Mapping functional regions of transcription factor TFIIIA. | Q36786950 |
| | Histones H2A/H2B inhibit the interaction of transcription factor IIIA with the Xenopus borealis somatic 5S RNA gene in a nucleosome | Q36828678 |
| | Definition of the binding sites of individual zinc fingers in the transcription factor IIIA-5S RNA gene complex | Q37298954 |
| | Histone contributions to the structure of DNA in the nucleosome | Q37567894 |
| | Role of the histone amino termini in facilitated binding of a transcription factor, GAL4-AH, to nucleosome cores | Q38311432 |
| | The H3-H4 N-terminal tail domains are the primary mediators of transcription factor IIIA access to 5S DNA within a nucleosome | Q39584897 |
| | hSWI/SNF-catalyzed nucleosome sliding does not occur solely via a twist-diffusion mechanism | Q39681649 |
| | Spontaneous access of proteins to buried nucleosomal DNA target sites occurs via a mechanism that is distinct from nucleosome translocation | Q39695666 |
| | Transcription of class III genes: formation of preinitiation complexes | Q40161793 |
| | Human DNA ligase I efficiently seals nicks in nucleosomes | Q40430379 |
| | Transcriptionally active Xenopus laevis somatic 5 S ribosomal RNA genes are packaged with hyperacetylated histone H4, whereas transcriptionally silent oocyte genes are not. | Q41018819 |
| | Use of selectively trypsinized nucleosome core particles to analyze the role of the histone "tails" in the stabilization of the nucleosome | Q41307889 |
| | Structural analysis of a triple complex between the histone octamer, a Xenopus gene for 5S RNA and transcription factor IIIA. | Q41432044 |
| | Developmental regulation of two 5S ribosomal RNA genes | Q43973408 |
| | Large scale preparation of nucleosomes containing site-specifically chemically modified histones lacking the core histone tail domains | Q44810974 |
| | Functionally relevant histone-DNA interactions extend beyond the classically defined nucleosome core region | Q47723913 |
| | Differential nucleosome positioning on Xenopus oocyte and somatic 5 S RNA genes determines both TFIIIA and H1 binding: a mechanism for selective H1 repression | Q48932776 |
| | Binding of retinoic acid receptor heterodimers to DNA. A role for histones NH2 termini | Q50163992 |
| | Influence of chromatin folding on transcription initiation and elongation by RNA polymerase III | Q50790465 |
| | Nucleosome structural changes due to acetylation. | Q52381069 |
| | Electrostatic mechanism of chromatin folding. | Q52484628 |
| | Structure of the TFIIIA-5 S DNA complex | Q57636167 |
| | Chromatin Fiber Folding: Requirement for the Histone H4 N-terminal Tail | Q61041700 |
| | Role of the histone "tails" in the folding of oligonucleosomes depleted of histone H1 | Q68047390 |
| | A protein-protein interaction is essential for stable complex formation on a 5 S RNA gene | Q69580925 |
| | A positive role for histone acetylation in transcription factor access to nucleosomal DNA | Q70535287 |
| | Reversible oligonucleosome self-association: dependence on divalent cations and core histone tail domains | Q71165591 |
| | Mechanism of protein access to specific DNA sequences in chromatin: a dynamic equilibrium model for gene regulation | Q71566510 |
| | Transcription factor access to DNA in the nucleosome | Q72794068 |
| | Nucleosome sliding induced by the xMi-2 complex does not occur exclusively via a simple twist-diffusion mechanism | Q73438869 |
| | Effects of core histone tail domains on the equilibrium constants for dynamic DNA site accessibility in nucleosomes | Q73675481 |
| | Nucleosome sliding via TBP DNA binding in vivo | Q74558133 |
| | Targeted cross-linking and DNA cleavage within model chromatin complexes | Q77892535 |
| P433 | issue | 1 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 241-249 | |
| P577 | publication date | 2005-01-01 | |
| P1433 | published in | Molecular and Cellular Biology | Q3319478 |
| P1476 | title | The core histone N-terminal tail domains negatively regulate binding of transcription factor IIIA to a nucleosome containing a 5S RNA gene via a novel mechanism | |
| P478 | volume | 25 | |