| scholarly article | Q13442814 |
| P819 | ADS bibcode | 1998PNAS...95.3396A |
| P356 | DOI | 10.1073/PNAS.95.7.3396 |
| P8608 | Fatcat ID | release_7aultyrnvffide33zzxiwjhgtm |
| P932 | PMC publication ID | 19847 |
| P698 | PubMed publication ID | 9520377 |
| P5875 | ResearchGate publication ID | 51314434 |
| P50 | author | Sanford H. Leuba | Q55590607 |
| P2093 | author name string | W An | |
| J Zlatanova | |||
| K van Holde | |||
| P2860 | cites work | Crystal structure of the nucleosome core particle at 2.8 A resolution | Q22122355 |
| Footprinting of linker histones H5 and H1 on the nucleosome | Q24564110 | ||
| Cleavage of Structural Proteins during the Assembly of the Head of Bacteriophage T4 | Q25938983 | ||
| The nucleosomal core histone octamer at 3.1 A resolution: a tripartite protein assembly and a left-handed superhelix | Q27655585 | ||
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| DNA and protein determinants of nucleosome positioning on sea urchin 5S rRNA gene sequences in vitro | Q33713829 | ||
| Structural and functional features of a specific nucleosome containing a recognition element for the thyroid hormone receptor. | Q33887834 | ||
| Differential distribution of lysine and arginine residues in the closely related histones H1 and H5. Analysis of a human H1 gene | Q34165467 | ||
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| Contacts of the globular domain of histone H5 and core histones with DNA in a "chromatosome". | Q35665946 | ||
| A new procedure for purifying histone pairs H2A+H2B and H3+H4 from chromatin using hydroxylapatite | Q35749964 | ||
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| Structural features of a phased nucleosome core particle | Q37600221 | ||
| A positive role for nucleosome mobility in the transcriptional activity of chromatin templates: restriction by linker histones | Q37621095 | ||
| Binding of disparate transcriptional activators to nucleosomal DNA is inherently cooperative | Q38298166 | ||
| Chromatin reconstituted from tandemly repeated cloned DNA fragments and core histones: a model system for study of higher order structure | Q38351993 | ||
| The linker histones and chromatin structure: new twists | Q41121283 | ||
| Where is the globular domain of linker histone located on the nucleosome? | Q41379453 | ||
| Linker histone-dependent DNA structure in linear mononucleosomes. | Q41634090 | ||
| Structure of nucleosomes and organization of internucleosomal DNA in chromatin | Q44282981 | ||
| Chromatosome positioning on assembled long chromatin. Linker histones affect nucleosome placement on 5 S rDNA. | Q44364943 | ||
| Reconstitution of chromatin core particles | Q44470486 | ||
| Mobility of positioned nucleosomes on 5 S rDNA. | Q46406291 | ||
| A DNA Sequence for Positioning Chromatosomes | Q57985854 | ||
| DNA Sequence Organization in Chromatosomes | Q57985856 | ||
| Structure of the chromatosome, a chromatin particle containing 160 base pairs of DNA and all the histones | Q67427258 | ||
| Site-directed cleavage of DNA by a linker histone--Fe(II) EDTA conjugate: localization of a globular domain binding site within a nucleosome | Q71541214 | ||
| An asymmetric model for the nucleosome: a binding site for linker histones inside the DNA gyres | Q71635050 | ||
| P433 | issue | 7 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 3396-3401 | |
| P577 | publication date | 1998-03-01 | |
| P1433 | published in | Proceedings of the National Academy of Sciences of the United States of America | Q1146531 |
| P1476 | title | Linker histone protects linker DNA on only one side of the core particle and in a sequence-dependent manner | |
| P478 | volume | 95 |
| Q34800325 | 30 nm chromatin fibre decompaction requires both H4-K16 acetylation and linker histone eviction |
| Q39985143 | A 'one-pot' assay for the accessibility of DNA in a nucleosome core particle |
| Q40124451 | A quantitative investigation of linker histone interactions with nucleosomes and chromatin |
| Q52171757 | An early developmental transcription factor complex that is more stable on nucleosome core particles than on free DNA. |
| Q44225436 | Asymmetric binding of histone H1 stabilizes MMTV nucleosomes and the interaction of progesterone receptor with the exposed HRE. |
| Q55475878 | Can neural stem cells be used as therapeutic vehicles in the treatment of brain tumors? |
| Q86264221 | Combined micrococcal nuclease and exonuclease III digestion reveals precise positions of the nucleosome core/linker junctions: implications for high-resolution nucleosome mapping |
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| Q39572409 | DNase I digestion reveals alternating asymmetrical protection of the nucleosome by the higher order chromatin structure |
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| Q47668891 | Emerging roles of linker histones in regulating chromatin structure and function |
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| Q39724811 | Linker histone protection of chromatosomes reconstituted on 5S rDNA from Xenopus borealis:a reinvestigation |
| Q34168040 | Linker histone tails and N-tails of histone H3 are redundant: scanning force microscopy studies of reconstituted fibers |
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| Q77174860 | Linker histones versus HMG1/2: a struggle for dominance? |
| Q77779461 | Linker histones: paradigm lost but questions remain |
| Q36442007 | Lipid droplets control the maternal histone supply of Drosophila embryos |
| Q77659483 | Location and function of linker histones |
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| Q34213222 | Molecular modeling of the chromatosome particle |
| Q34056519 | Multifunctionality of the linker histones: an emerging role for protein-protein interactions |
| Q46594976 | Nucleosome dynamics as studied by single-pair fluorescence resonance energy transfer: a reevaluation |
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| Q31147983 | Parathymosin affects the binding of linker histone H1 to nucleosomes and remodels chromatin structure. |
| Q38675151 | Role of H1 linker histones in mammalian development and stem cell differentiation. |
| Q64905975 | Sensitive effect of linker histone binding mode and subtype on chromatin condensation. |
| Q43236082 | Simplified method for recombinant linker histone H1 purification |
| Q35987539 | Structural Mechanisms of Nucleosome Recognition by Linker Histones. |
| Q37352963 | Structural insights into the histone H1-nucleosome complex |
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| Q27940297 | The high mobility group protein HMO1 functions as a linker histone in yeast |
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| Q77359686 | The non-histone chromatin protein HMG1 protects linker DNA on the side opposite to that protected by linker histones |
| Q73006499 | The site of binding of linker histone to the nucleosome does not depend upon the amino termini of core histones |
| Q91757516 | What is the role of histone H1 heterogeneity? A functional model emerges from a 50 year mystery |
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