mof, a putative acetyl transferase gene related to the Tip60 and MOZ human genes and to the SAS genes of yeast, is required for dosage compensation in Drosophila.
about
Identification of a human histone acetyltransferase related to monocytic leukemia zinc finger proteinAndrogen receptor interacts with a novel MYST protein, HBO1MOZ and MORF histone acetyltransferases interact with the Runt-domain transcription factor Runx2The histone H4 acetyltransferase MOF uses a C2HC zinc finger for substrate recognition.Involvement of human MOF in ATM functionhMOF histone acetyltransferase is required for histone H4 lysine 16 acetylation in mammalian cellsA human protein complex homologous to the Drosophila MSL complex is responsible for the majority of histone H4 acetylation at lysine 16MYST family histone acetyltransferases in the protozoan parasite Toxoplasma gondii.Acetylation of histones and transcription-related factorsPLIP, a novel splice variant of Tip60, interacts with group IV cytosolic phospholipase A(2), induces apoptosis, and potentiates prostaglandin productionMOZ and MORF, two large MYSTic HATs in normal and cancer stem cellsX chromosome sites autonomously recruit the dosage compensation complex in Drosophila malesThe Functional Analysis of Histone Acetyltransferase MOF in TumorigenesisPosttranscriptional control of X-chromosome dosage compensationEpigenetic virtues of chromodomainsAutoregulation of the Drosophila Noncoding roX1 RNA GeneRestricting dosage compensation complex binding to the X chromosomes by H2A.Z/HTZ-1Structural basis for MOF and MSL3 recruitment into the dosage compensation complex by MSL1Structural insight into the regulation of MOF in the male-specific lethal complex and the non-specific lethal complexEsa1p is an essential histone acetyltransferase required for cell cycle progression.The yeast NuA4 and Drosophila MSL complexes contain homologous subunits important for transcription regulation.A conserved motif common to the histone acetyltransferase Esa1 and the histone deacetylase Rpd3.p53 Acetylation: Regulation and ConsequencesHistone acetyltransferase HBO1 interacts with the ORC1 subunit of the human initiator proteinTip60 acetylates six lysines of a specific class in core histones in vitroIdentification and analysis of chromodomain-containing proteins encoded in the mouse transcriptomeTip60 is a nuclear hormone receptor coactivatorReplication factors MCM2 and ORC1 interact with the histone acetyltransferase HBO1MRG15, a novel chromodomain protein, is present in two distinct multiprotein complexes involved in transcriptional activationNovel substrate specificity of the histone acetyltransferase activity of HIV-1-Tat interactive protein Tip60Cyclin-dependent kinase 11(p58) interacts with HBO1 and enhances its histone acetyltransferase activityReversible acetylation of the chromatin remodelling complex NoRC is required for non-coding RNA-dependent silencingcPLA2-interacting protein, PLIP, causes apoptosis and decreases G1 phase in mesangial cellsRNF8-dependent histone modifications regulate nucleosome removal during spermatogenesisStructure of the chromo barrel domain from the MOF acetyltransferase.A novel H2A/H4 nucleosomal histone acetyltransferase in Tetrahymena thermophila.Drosophila male-specific lethal-2 protein: structure/function analysis and dependence on MSL-1 for chromosome association.The drosophila MSL complex acetylates histone H4 at lysine 16, a chromatin modification linked to dosage compensationTransient expression of TIP60 protein during early chick heart development.The non-dosage compensated Lsp1alpha gene of Drosophila melanogaster escapes acetylation by MOF in larval fat body nuclei, but is flanked by two dosage compensated genes
P2860
Q22010568-D6BB0496-7749-4360-A18C-FDFE5915688FQ22254743-EBB890AD-5DD6-4594-919F-E0D3F63F36ADQ24294814-07A1DF51-7285-4BCC-9BAB-7B2F740B2FB3Q24522499-B6E4C535-4056-4227-80BA-C0CF78044F90Q24529072-78B4EAA7-0997-43EB-9D4E-FF8CE7024DCAQ24529984-CFAFFE9F-755F-439C-A1FD-26B77C48A773Q24534923-C0E8DC17-82FB-4607-BDD5-DF3ACFD9092FQ24535529-30302B27-F2C1-49EF-9228-912C56F059B4Q24548503-D85966BF-F0BF-411C-8F65-24C7E822457BQ24550934-A99ACDD3-6AE3-4411-8B42-BAC0017764F3Q24570117-88680166-DED4-45D4-A143-7E2046B379B4Q24797364-C08B037A-FB18-4EFD-91FD-61AE49DA5CCDQ26771181-8C0188D0-9085-4938-AB9A-B6B1AB371CA0Q27003991-D5952D27-B2E9-48A3-8F3B-CE7719FED255Q27016161-FC5ACC85-2549-4869-8E6E-F9D25EB8245CQ27334691-FA282DD0-92FB-41CE-A6AF-61A26C1CBF43Q27348721-44ABDC2F-4370-4CF7-84B4-025026204373Q27666481-92F86709-68BF-4309-A3C6-E03B98580611Q27678826-9DDD20D5-9815-4A29-AF7C-EF232D6A1003Q27934638-0AC59194-A94B-4121-9121-09DBDFB77127Q27935520-02978184-798F-45C3-ACF3-4ACFACF1A678Q27937262-AA4B4994-1541-434B-9F7A-8979F8F53D78Q28085076-1E6361BC-C00C-4FE5-A92D-C81113308382Q28116036-A2A9374B-4832-4262-B58E-39F350C67C77Q28140015-1A525859-8947-43BE-88D2-B3BB00CA76EDQ28181031-FF2360D2-74C4-4758-A785-43295A6A2516Q28199349-29957EBF-1B49-496A-8853-E144458D6360Q28208502-CE1ABE3F-9967-40A8-AA6C-022E8B0241F9Q28210381-CC3E38E6-F769-483B-8B7B-57BCB9270A23Q28255673-92FBEC31-B929-4C47-B2D0-7493F539045BQ28257262-1B39BF90-A8B3-4C00-88EE-62AB9190F324Q28508559-9EB108F9-7F4D-4DBA-963A-71000FEE73EBQ28564835-F8A7BBDC-F29C-4D74-ACB7-08D0E3608377Q28589254-A63CB24B-E004-4949-AC84-F987E4CB12A6Q30160207-5D18D04D-8686-47E2-989F-D4DA7B189467Q30303582-4E3ED036-74DD-42AA-B15A-FE62D105CF9BQ30429073-9DA09481-9957-40C1-8243-4026D8616BCFQ30453594-5F62E47C-6237-42D4-8B5F-3284799ABFE2Q30700002-CCCC0187-DBB6-412D-B481-526ACCE841CCQ33285070-EC33E7CE-3AD0-4D4F-BB9A-96969334522A
P2860
mof, a putative acetyl transferase gene related to the Tip60 and MOZ human genes and to the SAS genes of yeast, is required for dosage compensation in Drosophila.
description
1997 nî lūn-bûn
@nan
1997 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
1997 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
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
name
mof, a putative acetyl transfe ...... ge compensation in Drosophila.
@ast
mof, a putative acetyl transfe ...... ge compensation in Drosophila.
@en
type
label
mof, a putative acetyl transfe ...... ge compensation in Drosophila.
@ast
mof, a putative acetyl transfe ...... ge compensation in Drosophila.
@en
prefLabel
mof, a putative acetyl transfe ...... ge compensation in Drosophila.
@ast
mof, a putative acetyl transfe ...... ge compensation in Drosophila.
@en
P2093
P2860
P356
P1433
P1476
mof, a putative acetyl transfe ...... ge compensation in Drosophila.
@en
P2093
A Hilfiker
D Hilfiker-Kleiner
J C Lucchesi
P2860
P304
P356
10.1093/EMBOJ/16.8.2054
P407
P577
1997-04-01T00:00:00Z