about
TRNA methyltransferase 61BCbl proto-oncogene like 1TRNA methyltransferase 10C, mitochondrial RNase P subunitCap methyltransferase 1Methyltransferase like 16Methyltransferase like 14Zinc finger CCCH-type containing 13TRNA methyltransferase 61ATRNA methyltransferase 6Methyltransferase like 3WT1 associated proteinVir like m6A methyltransferase associatedCap-specific mRNA (nucleoside-2'-O-)-methyltransferase 1Casitas B-lineage lymphoma-like 1Wilms tumour 1-associating proteinTRNA methyltransferase 10C, mitochondrial RNase P subunitMethyltransferase like 8Cap methyltransferase 1Methyltransferase like 14Methyltransferase like 3Methyltransferase like 16PDX1 C-terminal inhibiting factor 1Zinc finger CCCH type containing 13TRNA methyltransferase 61ATRNA methyltransferase 6Vir like m6A methyltransferase associatedMum2p YBR057CSlz1p YNL196CMRNA (N6-adenosine)-methyltransferase YGL192WTRNA methyltransferase 61ACap methyltransferase 1TRNA methyltransferase 10C, mitochondrial RNase P subunitMethyltransferase-like 3Cbl proto-oncogene like 1PDX1 C-terminal inhibiting factor 1Vir like m6A methyltransferase associatedTRNA methyltransferase 6Cap-specific mRNA (nucleoside-2'-O-)-methyltransferase 1 CELE_Y53F4B.13Methyltransferase like 3 Dmel_CG5933Spenito Dmel_CG2910
P682
Characterization of hMTr1, a human Cap1 2'-O-ribose methyltransferaseA METTL3-METTL14 complex mediates mammalian nuclear RNA N6-adenosine methylationN(6)-methyladenosine-dependent RNA structural switches regulate RNA-protein interactionsMTA is an Arabidopsis messenger RNA adenosine methylase and interacts with a homolog of a sex-specific splicing factorThe tRNA methyltransferase NSun2 stabilizes p16INK⁴ mRNA by methylating the 3'-untranslated region of p16Base-Resolution Mapping Reveals Distinct m1A Methylome in Nuclear- and Mitochondrial-Encoded Transcripts.The m1A landscape on cytosolic and mitochondrial mRNA at single-base resolution.Methylation of Structured RNA by the mA Writer METTL16 Is Essential for Mouse Embryonic Developmentm⁶A mRNA Destiny: Chained to the rhYTHm by the YTH-Containing ProteinsStructural Basis for Regulation of METTL16, an S-Adenosylmethionine Homeostasis FactorPCIF1 Catalyzes m6Am mRNA Methylation to Regulate Gene ExpressionCap-specific, terminal N6-methylation by a mammalian m6Am methyltransferase
P921
Q21101315-AF592520-9124-4248-BE92-C80992D696B3Q21111010-214A0959-E218-4E0F-85C1-E423B1200F55Q21114677-D4067E18-06ED-4CCF-ACE5-25AA51BAD5D9Q21117259-46235084-7DF8-4FB0-904E-DCA833DBA2C5Q21119433-4EB2D185-868F-4659-ACFF-AC7730A84C46Q21119433-6901C917-940B-4072-AF8E-5EDEC6B54E2FQ21120849-8A37C405-F3DF-4CE1-9A13-B95A7ADA3D4DQ21122773-4F3CAB75-0564-4DF7-88B6-B60686A62D73Q21122873-6CB01F32-72FB-444D-9083-D1C420EF997AQ21122876-CD426D3B-C0ED-41FC-A015-6FA6F8E2AFCCQ21124024-005B3878-EE78-46D7-9B6E-4F4A11167D46Q21132235-2018BDC2-4577-4B85-A5E9-17F04C30F44EQ21132235-C422397F-8127-41B2-B95F-00258F31EE4BQ21135908-0239709F-0EC9-4BAA-BE8B-411C081C83DAQ21135908-EF09B3B2-9FE9-4C69-8624-14F848F351C2Q21139832-5F92AF95-D3F3-4B31-848D-B4DBBBF61830Q21496162-1C7DFC5E-E6D7-44D6-B727-73B1D6B6696BQ21496162-6718182A-B89E-4DE3-AE7B-D966E24047E2Q21496162-D30D2538-4E66-4D7A-9061-98EE06423AC7Q21498456-42C28FBC-FBB8-4622-9DC3-69EB9F00A7DDQ21980014-80461DB8-CCB9-463E-8B63-F9CD517F5B4BQ21984681-30580C90-7517-45D1-BE69-B3546F01555AQ21984781-4EFDD1EB-AEEE-4C1E-9369-B4E7DEBA238EQ21985121-EC48771E-0187-439D-AC2F-96ECE8C6CDFDQ21987736-46F70904-99AD-4387-9F80-E72A55C0312FQ21988297-51C91C98-F72A-4558-86C9-D362F97A42DEQ21988297-5A7F20A7-84A0-4A89-B719-87910EE26DE7Q21988297-F261DAC1-67BE-4835-B741-5AEFBFAC7116Q21988884-CEA7F724-B5BB-4DF7-AFDA-B7C646FC8197Q21988884-D6A25294-EB14-4DF2-B3D1-D0D690677FE2Q21989713-5F57228D-76EE-4077-8FAD-24F3A64AB8A2Q21990270-84AD9C1E-804F-4E1F-A762-4C6FE3D8E18BQ21990271-E3741E94-5ABF-497D-9DA6-94BA88D4155DQ21991386-11EAC979-275D-448D-B10F-9AF0B483C5F2Q27549016-1B3EC79A-6DD3-43F4-8B53-5E0E5C01D32BQ27549463-FB5042CC-8643-454B-801B-278546860AB3Q27552673-E28A07A0-7753-4BE7-B176-05D352213901Q28560568-28A7421B-7AEE-4E70-940B-5491EF310333Q28562813-C3A52BA1-8EBD-4299-847B-83D88036EECBQ28563207-BABF6975-A74D-406D-9D38-CC8533988B95
P682
Q24296280-B3C3C858-CF97-41D2-8A50-9186BF2B2795Q24311871-BAE9E118-C9E1-4798-921A-3626A978ACC9Q24320088-F2CACF1E-C98D-4C54-AC2B-D95E97E50423Q24650812-9EDAFAC2-02E0-45AD-AE48-BE6E9CB46BD0Q36431161-27DE0A7D-F659-430B-BDBD-3D8E914A0C72Q47037321-76848E8D-1D52-4993-A164-B86B86830557Q47037328-90C1EF22-E00F-4EB6-BE8A-6FAF677D3800Q58709961-3CE6844A-2DCD-4995-A2D5-196C43C56BB8Q61816789-7FF11151-2415-4214-B48A-9F20CA4E6C71Q61990245-9B434138-78C4-4FFC-94FC-BDF1EE508CCDQ91676003-CF041735-987B-4119-BAAC-FFF74E36CB8BQ93382016-0A465630-F701-4144-8289-CE4E33863628
P921
description
The posttranscriptional additi ...... residues in an mRNA molecule.
@en
biologisch proces
@nl
name
mRNA methylation
@en
type
label
mRNA methylation
@en
prefLabel
mRNA methylation
@en
P2888
P686
GO:0080009