A stepwise epigenetic process controls immunoglobulin allelic exclusion. - sprookjes - yvandenbroek - TriplyDB

A stepwise epigenetic process controls immunoglobulin allelic exclusion.

A stepwise epigenetic process controls immunoglobulin allelic exclusion.

http://www.wikidata.org/entity/Q34354933

about

Deconstructing the Antiviral Neutralizing-Antibody Response: Implications for Vaccine Development and Immunity B cell receptor editing in tolerance and autoimmunity Epigenetics and human disease: translating basic biology into clinical applications BET proteins are a key component of immunoglobulin gene expression.Replication timing aberrations and aneuploidy in peripheral blood lymphocytes of breast cancer patients.Single-molecule analysis of chromatin: changing the view of genomes one molecule at a time Epigenetic control of recombination in the immune system Allelic silencing at the tumor-suppressor locus 13q14.3 suggests an epigenetic tumor-suppressor mechanism.Epigenetic regulation of beta2-adrenergic receptor expression in T(H)1 and T(H)2 cells.Histone deacetylase regulation of immune gene expression in tumor cells.Mitochondrial regulation of epigenetics and its role in human diseases.Transcriptional networks in developing and mature B cells.Silence of the genes--mechanisms of long-term repression.Igkappa allelic inclusion is a consequence of receptor editing.Gene repression paradigms in animal cells.Natural antisense transcripts: sound or silence?Helix-loop-helix proteins and lymphocyte development.The Presence of Anti-HLA Antibodies before and after Allogeneic Hematopoietic Stem Cells Transplantation from HLA-Mismatched Unrelated Donors.Epigenetics of antigen-receptor gene assembly.Microdeletion syndromes disclose replication timing alterations of genes unrelated to the missing DNA.Beyond genetics: epigenetic code in chronic kidney disease.Allelic exclusion of immunoglobulin genes: models and mechanisms.Regulation of antigen receptor gene assembly by genetic-epigenetic crosstalk.Non-coding RNAs mediate the rearrangements of genomic DNA in ciliates.B lymphocytes: development, tolerance, and their role in autoimmunity-focus on systemic lupus erythematosus.Identification of transcriptional regulatory elements for Ntng1 and Ntng2 genes in mice.Visualization of looping involving the immunoglobulin heavy-chain locus in developing B cells.Transcription of productive and nonproductive VDJ-recombined alleles after IgH allelic exclusion.Germline transcription from T-cell receptor Vbeta gene is uncoupled from allelic exclusion.Immunoglobulin heavy chains in medaka (Oryzias latipes).Antibodies in a heavy chain knock-in mouse exhibit characteristics of early heavy chain rearrangement.

P2860

Q27654848-204F6DC0-DDAA-4DE1-9B1C-AFB7ED5969B6 Q27692084-B71A8D40-07E7-403A-861D-C31AD4BAE62A Q28768502-02D2A90B-24A4-414C-9505-7B0ADD3473AD Q33811659-6BAE8EEB-7DD5-4A42-A053-3C2224E08782 Q34041338-52761B59-F19F-425D-B7B5-B4CC1B4EFB71 Q34091977-82F80460-7E8E-432C-BD19-8F33F8F9E5BE Q34311397-73DB652A-1B31-4752-AFF0-F7BE0B7A06C2 Q34650812-ED809AB7-08F3-4ADE-A355-1D081870C10F Q34777193-B261FDAE-6BF5-4065-BBBA-F6A0EAE6068A Q35092304-F6D64A73-D9A2-47D6-887D-B368EB42AC8D Q36012679-1EC1D886-43C6-44C1-893A-3619D4904318 Q36146925-50736F75-DDEC-42F0-8561-293A605FAD05 Q36191962-BEDB6B93-C153-4953-8001-3C2D5B5C28BE Q36228958-C5265711-562D-42F7-B2A5-C7023616A907 Q36238535-A7C4235D-C439-44C1-8CE4-570DB79A8A9D Q36288741-EDF86904-3B5F-4BE7-91F2-8F1D21D1B5A4 Q36292892-3AB33C0B-673B-4D32-9139-B2A1571C0328 Q36369256-913076EC-7FDD-4302-86FD-94137F400374 Q36963398-0E1623D1-79A7-4E9B-94BA-0DBECC6F6DDA Q37139251-AAE1B5B6-9E3E-47EB-9BD0-11E713A42F92 Q37402757-8585A0F9-1E43-41CB-AAD0-AFB330F67069 Q37781386-6ED58E95-B5AF-45DC-8144-3A8CF26047E6 Q37786746-02AC010C-3E99-4271-99C9-2A3DDF910956 Q38134567-DC8A5766-7FAC-4C65-8ECD-3C0A2A4D0AE1 Q38159695-2DF95F50-3FFA-4AA9-BA82-1180C2C6BFFF Q38973620-DB408D27-0117-451A-A36E-D43F09FFE995 Q40974584-2EAF4CFC-61FF-4B24-BCD2-5B8C851FC6F0 Q41944163-59BE71BF-2064-4DD4-9C4A-FB2AE0680BC2 Q42042088-5F077306-B20B-4D4B-BD6C-84E04A2019EC Q42210618-6A21B080-1144-4A9F-B73B-C1F193FFE9D5 Q43107121-CB065D0F-B0DC-4407-B9C8-8518BCF64C20

P2860

A stepwise epigenetic process controls immunoglobulin allelic exclusion.

http://www.wikidata.org/entity/Q34354933

description

2004 nî lūn-bûn

@nan

2004 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած

@hyw

2004 թվականի հոտեմբերին հրատարակված գիտական հոդված

@hy

2004年の論文

@ja

2004年論文

@yue

2004年論文

@zh-hant

2004年論文

@zh-hk

2004年論文

@zh-mo

2004年論文

@zh-tw

2004年论文

@wuu

name

A stepwise epigenetic process controls immunoglobulin allelic exclusion.

@ast

A stepwise epigenetic process controls immunoglobulin allelic exclusion.

@en

A stepwise epigenetic process controls immunoglobulin allelic exclusion.

@nl

type

label

A stepwise epigenetic process controls immunoglobulin allelic exclusion.

@ast

A stepwise epigenetic process controls immunoglobulin allelic exclusion.

@en

A stepwise epigenetic process controls immunoglobulin allelic exclusion.

@nl

prefLabel

A stepwise epigenetic process controls immunoglobulin allelic exclusion.

@ast

A stepwise epigenetic process controls immunoglobulin allelic exclusion.

@en

A stepwise epigenetic process controls immunoglobulin allelic exclusion.

@nl

P1433

Q34354933-3E0B586E-DA2A-48A6-B7CA-89002B3FAC82

P1476

Q34354933-CC616176-C626-49F2-AC01-32133DED8945

P2093

Q34354933-8584973E-BBBD-46B9-8B23-883A60417B11

Q34354933-D9E28090-914B-4FAB-918D-D8BAB7543F36

P2860

Q34354933-02053184-1919-46CB-A11A-ED88E3BD9144

Q34354933-039849C5-4AB1-4AE5-8EA6-32DD63649282

Q34354933-06C3720D-09BF-45E1-87CA-305A2FDB5B13

Q34354933-0784C373-E6A0-4A2C-94D1-E3C5D89362FE

Q34354933-0C1D2E8F-F89B-4E71-9421-FDA45F4BDA53

Q34354933-1A01B105-14A3-4554-9717-5462B40D7C7F

Q34354933-20E7224A-7ABE-47B0-A672-1024AAB67834

Q34354933-29D76D2E-4068-45A3-945F-DF4E4C8F4178

Q34354933-2D19B5B4-9A37-4813-ADF8-8DC690C24531

Q34354933-2DF634C9-A8F5-4394-9279-8081FC4AB712

P2888

Q34354933-150310B4-4E75-4CC9-AF36-C47E272A8145

P304

Q34354933-67077A64-BA06-4A32-89CF-D78524D0714A

P31

Q34354933-261C1256-1662-4668-A9CF-AC10C1714694

P356

Q34354933-1F5C237E-966E-4A49-B5D4-9B46DF9AB47F

P433

Q34354933-60F85753-A731-4391-BC29-DE13DB7BB8C1

P478

Q34354933-CB71E393-08EC-4825-9FA2-213ED14ED555

P577

Q34354933-2C9B1FEB-43DD-44B6-A026-4827954A20CA

P6179

Q34354933-422B19B6-7DAB-4ABF-AE09-11A03BA5ED82

P698

Q34354933-3BE415CD-D5D8-4CD6-9BBC-AA8BDB3644B6

P356

P1433

Nature Reviews Immunology

P1476

A stepwise epigenetic process controls immunoglobulin allelic exclusion.

@en

P2093

Howard Cedar

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

Yehudit Bergman

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

P2860

Translating the Histone Code

Epigenetic regulation of gene expression: how the genome integrates intrinsic and environmental signals

Impaired immunoglobulin gene rearrangement in mice lacking the IL-7 receptor

Response to RAG-mediated VDJ cleavage by NBS1 and gamma-H2AX

Recent advances in understanding chromatin remodeling by Swi/Snf complexes

Histone H2A variants H2AX and H2AZ

The nucleosome: from genomic organization to genomic regulation

Developmentally controlled and tissue-specific expression of unrearranged VH gene segments

Introduced T cell receptor variable region gene segments recombine in pre-B cells: evidence that B and T cells use a common recombinase

Histone H2AX phosphorylation is dispensable for the initial recognition of DNA breaks

P2888

P304

753-761

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

P31

scholarly article

P356

10.1038/NRI1458

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

P433

10

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

P478

4

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

P577

2004-10-01T00:00:00Z

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

P6179

1021210881

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

P698

15459667

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