Human genes encoding U3 snRNA associate with coiled bodies in interphase cells and are clustered on chromosome 17p11.2 in a complex inverted repeat structure. - sprookjes - yvandenbroek - TriplyDB

Human genes encoding U3 snRNA associate with coiled bodies in interphase cells and are clustered on chromosome 17p11.2 in a complex inverted repeat structure.

Human genes encoding U3 snRNA associate with coiled bodies in interphase cells and are clustered on chromosome 17p11.2 in a complex inverted repeat structure.

http://www.wikidata.org/entity/Q39721767

about

Coiled bodies and gems: Janus or gemini?An unconventional human Ccr4-Caf1 deadenylase complex in nuclear cajal bodies Functional architecture in the cell nucleus Mammalian and yeast U3 snoRNPs are matured in specific and related nuclear compartments.Nuclear retention elements of U3 small nucleolar RNA Coiled bodies preferentially associate with U4, U11, and U12 small nuclear RNA genes in interphase HeLa cells but not with U6 and U7 genes PML is critical for ND10 formation and recruits the PML-interacting protein daxx to this nuclear structure when modified by SUMO-1 An evolutionary intra-molecular shift in the preferred U3 snoRNA binding site on pre-ribosomal RNA.Coilin: The first 25 years Gene expression within a dynamic nuclear landscape.U3 snoRNA genes are multi-copy and frequently linked to U5 snRNA genes in Euglena gracilis.Genome architecture catalyzes nonrecurrent chromosomal rearrangements Reciprocal crossovers and a positional preference for strand exchange in recombination events resulting in deletion or duplication of chromosome 17p11.2.The breakpoint region of the most common isochromosome, i(17q), in human neoplasia is characterized by a complex genomic architecture with large, palindromic, low-copy repeats On the road with WRAP53β: guardian of Cajal bodies and genome integrity High-resolution whole-genome sequencing reveals that specific chromatin domains from most human chromosomes associate with nucleoli Nuclear domain 10, the site of DNA virus transcription and replication.Small nucleolar RNAs: versatile trans-acting molecules of ancient evolutionary origin.Interactions of U2 gene loci and their nuclear transcripts with Cajal (coiled) bodies: evidence for PreU2 within Cajal bodies.Replication-dependent histone gene expression is related to Cajal body (CB) association but does not require sustained CB contact.Nuclear bodies: random aggregates of sticky proteins or crucibles of macromolecular assembly?Ribosome biogenesis: role of small nucleolar RNA in maturation of eukaryotic rRNA.Genomic disorders: genome architecture results in susceptibility to DNA rearrangements causing common human traits.The perinucleolar compartment and transcription.Microinjection of anti-coilin antibodies affects the structure of coiled bodies The spinal muscular atrophy disease gene product, SMN: A link between snRNP biogenesis and the Cajal (coiled) body.Hypophosphorylated SR splicing factors transiently localize around active nucleolar organizing regions in telophase daughter nuclei.RNA-mediated interaction of Cajal bodies and U2 snRNA genes.Cajal bodies are linked to genome conformation Nucleolar localization elements of Xenopus laevis U3 small nucleolar RNA.Coilin can form a complex with the U7 small nuclear ribonucleoprotein.Spectral imaging to visualize higher-order genomic organization.A role for the Cajal-body-associated SUMO isopeptidase USPL1 in snRNA transcription mediated by RNA polymerase II.Cajal bodies: where form meets function.Nuclear domains enriched in RNA 3'-processing factors associate with coiled bodies and histone genes in a cell cycle-dependent manner Cajal body function in genome organization and transcriptome diversity.SMN - A chaperone for nuclear RNP social occasions?Copy number variation at the breakpoint region of isochromosome 17q.Specific genomic cues regulate Cajal body assembly Cajal body surveillance of U snRNA export complex assembly.

P2860

Q22066143-E5B93661-67CA-4FF4-BE63-F94E441003F0 Q24337378-0CD56121-147C-43C8-8F00-A7B39D82FB63 Q24532790-5597949D-D679-4928-B465-85D56674E009 Q24536497-249DE47D-CB96-4A24-97AB-1AFF56AF36C3 Q24554377-4EFBDBFD-FD18-4F58-BA27-4176428A34BB Q24609646-30C07876-8A23-490F-885A-A3A4BD2A04F9 Q24670576-C5D55029-EB62-4C3B-9290-17F976BAFBA6 Q24811246-5AF821C3-41A5-4A22-9108-CA97BE4E3294 Q28084574-43C9127F-B1F5-4111-B776-B2B5CD82788F Q30477787-BF8251A7-2D77-4725-A2B0-69B6E2FF093B Q30886764-F09DADEA-1E5A-4A1F-B650-E45F507F6B49 Q33904646-DB465244-3DE1-404C-9A02-C792E54C1F4F Q33905308-F00701F5-4775-40F0-8A55-3CF7F789DBF8 Q33909470-55969E1F-0F18-4FAD-A1EA-118C87963ACF Q34043691-A817CD20-9478-47F9-A1FC-0A73BA4D8BAD Q34136894-1690793C-2055-4F6C-BBAA-086419A72229 Q34476075-132CD72F-D22E-45DC-8963-B145099F898E Q34546169-CAD17CA7-ECC6-4C37-9617-993D1D279A9A Q34752060-5723CD69-3316-416F-8089-ED430CC329BC Q34986765-A8C2A44C-30C0-4107-A712-65096062EFEB Q35003162-69C67542-535F-4D7B-978F-1FC9F1052180 Q35133803-30636513-C474-4A6C-8271-99DFA1829B07 Q35875197-76F70594-4875-464A-9E7B-4174532FDBA3 Q36255502-28095DCD-E8DB-470D-814B-6BC75643F896 Q36255640-534E4322-5E15-4C65-917C-42FAAD08CF0D Q36301531-CBA8C065-159F-492B-A4EE-F7348D27AA8A Q36322671-A6C616E7-FC4E-42AE-B5F9-6056E887B23F Q36377543-406BA81F-FA22-4554-B714-FA5425275813 Q36713390-AC1081BB-405E-4FE2-8F1A-F4BD2704BDBB Q36917526-686BDCDE-39B6-4EC8-BFA4-4A6DF02D8DE5 Q36918030-E69A7AD7-888E-4937-84DC-AD8AAD8548E3 Q37189660-87EA00DE-2B76-413A-9DD8-1BF4E2B733EC Q37608722-50138F4A-4E5D-43F1-809E-3682E22F3FBE Q38050096-5685BC61-8F7C-4BA1-93F8-FF8ECAB78055 Q38614649-893DF8CA-5249-46E5-8E3D-7DEF23EA147C Q38808242-BE536261-D085-48BE-AC64-BD3AA7B8F257 Q38959600-433521BD-8622-44D0-94E6-83B8D3E73746 Q41766829-554C9F95-0BDB-4D89-AC09-BF1C8A9CDB08 Q42335063-1BCF4175-F15F-42BE-B4D0-9C3A8DB2DCCF Q42485984-08C17FF6-A16D-45BF-B50C-9C180BFC1801

P2860

Human genes encoding U3 snRNA associate with coiled bodies in interphase cells and are clustered on chromosome 17p11.2 in a complex inverted repeat structure.

http://www.wikidata.org/entity/Q39721767

description

1997 nî lūn-bûn

@nan

1997年の論文

@ja

1997年論文

@yue

1997年論文

@zh-hant

1997年論文

@zh-hk

1997年論文

@zh-mo

1997年論文

@zh-tw

1997年论文

@wuu

1997年论文

@zh

1997年论文

@zh-cn

name

Human genes encoding U3 snRNA ...... lex inverted repeat structure.

@en

Human genes encoding U3 snRNA ...... lex inverted repeat structure.

@nl

type

label

Human genes encoding U3 snRNA ...... lex inverted repeat structure.

@en

Human genes encoding U3 snRNA ...... lex inverted repeat structure.

@nl

prefLabel

Human genes encoding U3 snRNA ...... lex inverted repeat structure.

@en

Human genes encoding U3 snRNA ...... lex inverted repeat structure.

@nl

P1433

Q39721767-9156863E-C6BC-4E58-8C0F-F294D64C868D

P1476

Q39721767-90FFE712-3CC4-49FA-8293-FCF06D89DDAC

P2093

Q39721767-170A04BF-A265-484F-B728-A6DA1A5A1065

Q39721767-2C22A13E-3D64-4EF5-9390-BC387E0EF927

Q39721767-4B3B0589-3C27-450C-B0EA-6CC1E96C2788

P2860

Q39721767-0B436496-5B75-4BF3-8AD9-4A4EE373AC6C

Q39721767-0CA63BD1-7EC4-4EE4-954E-C9C136C380A6

Q39721767-25BE410B-6B3E-4D92-B971-EF39644158BF

Q39721767-2E712710-6375-4043-A2E3-C055CAA4EDF5

Q39721767-45D3D69B-9CFD-46CC-8971-C403511F9E65

Q39721767-463CEC36-7DFF-4200-8CD9-446E996A4A4E

Q39721767-48D3841D-7D34-448E-9B47-AAB9E8491ED9

Q39721767-5008E1DF-E3D8-43F2-B27D-BFCBBCC3EF92

Q39721767-592BEC0F-3C1D-49D3-9F69-FF0F4C1EBB21

Q39721767-5CD15C6B-E834-4F0F-BF2B-2398A3D8E9E2

P304

Q39721767-49E830FF-760F-46CE-A75A-7B8E0EA74E02

P31

Q39721767-34CDAB00-8497-48D4-8A79-22A1A6477F10

P356

Q39721767-D2EADEA3-ECBA-4962-84ED-1C1887BF24DA

P407

Q39721767-DF17CCD2-CC7A-4C8E-80D8-11273622BCC0

P433

Q39721767-1571632F-7D48-4605-931D-C26DB9543CC7

P478

Q39721767-776172B4-F095-4B03-9E26-2E7907D197C7

P577

Q39721767-D1DE9A11-B7B9-4DAD-A53F-F0C570DE7050

P5875

Q39721767-E4554305-1E03-4293-958C-4903FDD51429

P698

Q39721767-575729CA-DFF7-42A2-ABEF-D3505A1673E2

P932

Q39721767-A1F5F39F-07A9-47E4-BC62-4B0AAF76311D

P356

P1433

Nucleic Acids Research

P1476

Human genes encoding U3 snRNA ...... lex inverted repeat structure.

@en

P2093

A G Matera

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

L Gao

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

M R Frey

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

P2860

Cloning of two proximal sequence element-binding transcription factor subunits (gamma and delta) that are required for transcription of small nuclear RNA genes by RNA polymerases II and III and interact with the TATA-binding protein

A TBP-TAF complex required for transcription of human snRNA genes by RNA polymerase II and III

Concerted evolution of the tandemly repeated genes encoding human U2 snRNA (the RNU2 locus) involves rapid intrachromosomal homogenization and rare interchromosomal gene conversion

The Sm binding site targets U7 snRNA to coiled bodies (spheres) of amphibian oocytes.

Coiled bodies contain U7 small nuclear RNA and associate with specific DNA sequences in interphase human cells

Concerted evolution of the tandem array encoding primate U2 snRNA occurs in situ, without changing the cytological context of the RNU2 locus

The SNAP45 subunit of the small nuclear RNA (snRNA) activating protein complex is required for RNA polymerase II and III snRNA gene transcription and interacts with the TATA box binding protein

Structure, expression and chromosomal localization of human p80-coilin gene

High-resolution mapping of human chromosome 11 by in situ hybridization with cosmid clones

Nucleocytoplasmic transport

P304

4740-4747

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

P31

scholarly article

P356

10.1093/NAR/25.23.4740

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

P407

P433

23

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

P478

25

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

P577

1997-12-01T00:00:00Z

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

P5875

13865117

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

P698

9365252

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

P932

147103

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