What determines the folding of the chromatin fiber? - Wikidata - awgldk - TriplyDB

What determines the folding of the chromatin fiber?

What determines the folding of the chromatin fiber?

http://www.wikidata.org/entity/Q24602085

about

Diffusion-driven looping provides a consistent framework for chromatin organization HIV-1 tat transactivator recruits p300 and CREB-binding protein histone acetyltransferases to the viral promoter A topological approach to nucleosome structure and dynamics: the linking number paradox and other issues Entropy gives rise to topologically associating domains.Histone H1 compacts DNA under force and during chromatin assembly Activation of integrated provirus requires histone acetyltransferase. p300 and P/CAF are coactivators for HIV-1 Tat Comprehensive phosphoprotein analysis of linker histone H1 from Tetrahymena thermophila.Wavelet Analysis of DNA Bending Profiles reveals Structural Constraints on the Evolution of Genomic Sequences.Phosphorylation-induced rearrangement of the histone H3 NH2-terminal domain during mitotic chromosome condensation.Pulling a single chromatin fiber reveals the forces that maintain its higher-order structure.Parathymosin affects the binding of linker histone H1 to nucleosomes and remodels chromatin structure.Higher-order structure of mammalian chromatin deduced from viscoelastometry data.Ultraviolet-induced detection of halogenated pyrimidines: simultaneous analysis of DNA replication and cellular markers.Chromatin dynamics in interphase cells revealed by tracking in a two-photon excitation microscope.Signaling to chromatin through histone modifications: how clear is the signal?Organization of chromatin in cancer cells: role of signalling pathways.Disruption of higher-order folding by core histone acetylation dramatically enhances transcription of nucleosomal arrays by RNA polymerase III The immunoglobulin heavy chain locus control region increases histone acetylation along linked c-myc genes Electrostatic mechanism of nucleosomal array folding revealed by computer simulation.MENT, a heterochromatin protein that mediates higher order chromatin folding, is a new serpin family member.Linker histones' role revisited Chromatin dynamics.Matrix attachment region-dependent function of the immunoglobulin mu enhancer involves histone acetylation at a distance without changes in enhancer occupancy.Effect of DNA groove binder distamycin A upon chromatin structure.Sperm chromatin.Loops determine the mechanical properties of mitotic chromosomes.Chromatin fiber structure: morphology, molecular determinants, structural transitions.Contributions of linker histones and histone H3 to chromatin structure: scanning force microscopy studies on trypsinized fibers.Linker histone tails and N-tails of histone H3 are redundant: scanning force microscopy studies of reconstituted fibers.DNA folding: structural and mechanical properties of the two-angle model for chromatin Conformation of reconstituted mononucleosomes and effect of linker histone H1 binding studied by scanning force microscopy.Molecular modeling of the chromatosome particle NF-Y is associated with the histone acetyltransferases GCN5 and P/CAF.Assembly of single chromatin fibers depends on the tension in the DNA molecule: magnetic tweezers study Differential effect of H1 variant overproduction on gene expression is due to differences in the central globular domain.Innate and adaptive factors regulating human immunodeficiency virus type 1 genomic activation.30 nm chromatin fibre decompaction requires both H4-K16 acetylation and linker histone eviction Forcing chromatin.Transcriptional coactivator PC4, a chromatin-associated protein, induces chromatin condensation.Genomic imprinting: a chromatin connection

P2860

Q21562174-1D0F7DF7-66B7-43BB-B4C9-C0C1C3B9E791 Q22007982-7D69E656-72EA-41B2-B935-71CC9028D037 Q24537244-F60725D9-E915-4D38-9DE6-EF0A692A6CB6 Q27323070-D5E9FA2F-0662-4845-B8B2-9CEB7FC5C1CB Q28277907-63909600-1407-45BD-8E29-7BF9C7BE730E Q28282041-30A3BDCB-6A6D-4DBF-A268-560C0B31F2CF Q30440955-4D7A318E-293B-497C-88B1-6936E219EABE Q30458944-809B3A41-F4D6-4660-ADA3-83869E94AA79 Q30671436-94B6F313-1D14-49C9-ACAC-C346AD0FF0DA Q30830081-31461DA0-9511-4835-A50B-46C6BAE38576 Q31147983-E2CE538C-BEB8-46F5-A2FB-F8E2A8F43036 Q33179496-A2FD5868-0307-4D6D-B347-B6EF1BB4B78D Q33180788-D8637A1C-49F9-4996-AA97-A5ACA5E0AADA Q33223019-12FAB892-0FF1-4CB6-B5DD-FEBAFDF1F77E Q33671512-30C66513-1F8B-4DA4-8467-2816631332C0 Q33765339-63E7C18E-9F9E-4B85-BDA6-3DFFA8368DAC Q33775383-BD4C875A-6BB5-4E76-8BBA-CC99CDFED0AA Q33781322-2F3ACCB4-AD25-4B5A-8D6B-F2D007E3CB49 Q33836463-3AB2CBA5-3F1A-458B-B81A-51D2B167C177 Q33852576-38C90864-A04C-4B38-8074-D08A23EA661D Q33915650-3FF38CA4-2080-4635-BC87-23B591B040BE Q33950324-FE272F4E-BE37-4BE7-9A72-F4F301C5412D Q33975148-36ABC162-6CD1-4299-ABCD-A32C3DDFC043 Q34064478-B07234A6-DBDC-42F6-B885-7E9BF40CEF8E Q34101873-1E1CE25A-F3B1-446C-B3ED-4F9C4E874B7E Q34117373-6CF06BEF-891A-4F83-B5C5-8CD6B14C701C Q34167910-6057E322-A7CD-4DD5-947E-B03A9DE001D6 Q34168034-5AE3AC40-A954-47AF-A6EE-4B7BDE45F536 Q34168040-1CA427EC-1675-4F45-833A-4E83ABF2E4BF Q34175412-A411B90F-9423-4700-BEA0-7CE945AF8352 Q34184032-42D09B28-81F7-4FB8-A1C1-D146A00BD0A5 Q34213222-DCC9AAFD-CB81-4AD6-BD5F-0FDC7168E6E6 Q34452475-DD83F619-A9D1-4517-B8C0-46FF797904A3 Q34470003-3269CA1E-2642-4067-9560-B6F05BDA67F4 Q34646179-74CA1C57-D398-4254-96F0-4600F9611CCF Q34671609-C7450403-0E7F-49B5-BEFA-BA87B77CE786 Q34800325-F26ABBE1-0FB5-4FE4-BEAF-A644C5DF35AB Q35120964-E7ADDB3A-1B44-41CB-A1E5-5E417BDE232D Q35131476-89A47513-1698-4562-816A-29E374927B1F Q35250186-E52C74B4-38FC-4727-965D-08F2FDACE672

P2860

What determines the folding of the chromatin fiber?

http://www.wikidata.org/entity/Q24602085

description

1996 nî lūn-bûn

@nan

1996 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած

@hyw

1996 թվականի հոտեմբերին հրատարակված գիտական հոդված

@hy

1996年の論文

@ja

1996年論文

@yue

1996年論文

@zh-hant

1996年論文

@zh-hk

1996年論文

@zh-mo

1996年論文

@zh-tw

1996年论文

@wuu

name

What determines the folding of the chromatin fiber?

@ast

What determines the folding of the chromatin fiber?

@en

What determines the folding of the chromatin fiber?

@nl

type

label

What determines the folding of the chromatin fiber?

@ast

What determines the folding of the chromatin fiber?

@en

What determines the folding of the chromatin fiber?

@nl

prefLabel

What determines the folding of the chromatin fiber?

@ast

What determines the folding of the chromatin fiber?

@en

What determines the folding of the chromatin fiber?

@nl

P1433

Q24602085-BB755FE5-476E-4F42-AE69-0A767FD450F5

P1476

Q24602085-834E254A-325B-4A8D-8723-8C9CD2093EFF

P2093

Q24602085-1B6B40DE-3B3E-4D84-8C6F-41BDBC09E240

Q24602085-5DCBE0FE-6718-4177-8EF4-5637F95B78D2

P2860

Q24602085-023D3D42-C38A-4695-80CE-525964AB9603

Q24602085-05C6C0A3-3AA7-4600-A9EC-1D99AC6D1CF1

Q24602085-145E1511-2327-45AD-8FA4-66E58C6CC1FA

Q24602085-16D921C8-8C07-42B5-88F0-07DAE479270E

Q24602085-186EA0FB-5964-4B96-9C26-1170B4671F32

Q24602085-1B06AD65-6A89-4062-A157-51D626039329

Q24602085-299F4020-EC70-4AEA-9B65-94EECD6BB46A

Q24602085-3BC7DDCA-85BB-4C47-A8AC-2CB684F31192

Q24602085-3E74F071-E1BA-4071-BD4C-605CF9A45C45

Q24602085-3F8336D1-7DE2-411A-A0A1-7A4D16E30C0F

P304

Q24602085-DC30B4B4-0F74-4289-BD65-65154120EF08

P31

Q24602085-6833D3A1-6DCB-4F82-9FEA-215318C8A00F

P3181

Q24602085-EA9A2D64-9823-49C2-86D2-828C45B50E06

P356

Q24602085-E0C9770E-743C-449E-93B8-168118667390

P407

Q24602085-46CFECA4-1EEA-4DBA-B435-26EC5A9DFA36

P433

Q24602085-D2663705-8238-4CF8-A280-09339F7144B6

P478

Q24602085-F87B8E11-37CC-456D-ACCB-5E0D010B4088

P577

Q24602085-0E4E86C3-2F93-493D-85DE-6D2DA63F47E5

P5875

Q24602085-50279965-58B3-46BF-8FCD-02C78E7375A6

P698

Q24602085-2B2E1946-508A-4D14-AA64-0C784913F0C6

P932

Q24602085-FBC13926-150A-4C41-830C-6F5E0231EE9E

P3181

P356

PNAS.93.20.10548

P1433

Proceedings of the National Academy of Sciences of the United States of America

P1476

What determines the folding of the chromatin fiber?

@en

P2093

J Zlatanova

http://www.w3.org/2001/XMLSchema#string

K van Holde

http://www.w3.org/2001/XMLSchema#string

P2860

Solenoidal model for superstructure in chromatin

Involvement of histone H1 in the organization of the nucleosome and of the salt-dependent superstructures of chromatin

The nucleosomal core histone octamer at 3.1 A resolution: a tripartite protein assembly and a left-handed superhelix

Tetrahymena histone acetyltransferase A: a homolog to yeast Gcn5p linking histone acetylation to gene activation.

Direct detection of linker DNA bending in defined-length oligomers of chromatin.

Chromatin structure of transcriptionally competent and repressed genes

Organization of spacer DNA in chromatin.

Chromatin fibers are left-handed double helices with diameter and mass per unit length that depend on linker length.

Thymine dimer formation as a probe of the path of DNA in and between nucleosomes in intact chromatin

Histone H1 and transcription: still an enigma?

P304

10548-55

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P3181

1101290

http://www.w3.org/2001/XMLSchema#string

P356

10.1073/PNAS.93.20.10548

http://www.w3.org/2001/XMLSchema#string

P407

P433

20

http://www.w3.org/2001/XMLSchema#string

P478

93

http://www.w3.org/2001/XMLSchema#string

P577

1996-10-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

14350657

http://www.w3.org/2001/XMLSchema#string

P698

8855215

http://www.w3.org/2001/XMLSchema#string

P932

38190

http://www.w3.org/2001/XMLSchema#string