about
Endoplasmic reticulum to nucleus signaling 2Translin associated factor XEndonuclease, poly(U) specificStaphylococcal nuclease and tudor domain containing 1Cleavage and polyadenylation specific factor 4 likeCleavage and polyadenylation specific factor 4Cleavage and polyadenylation specific factor 3SMG6 nonsense mediated mRNA decay factorRibonuclease LZinc finger CCCH-type containing 12AArgonaute RISC catalytic component 3Argonaute RISC component 1Dicer 1, ribonuclease IIIArgonaute RISC catalytic component 2Endoplasmic reticulum to nucleus signaling 1Piwi like RNA-mediated gene silencing 1Endonuclease GExo/endonuclease GLactamase beta 2Ribonuclease KPiwi like RNA-mediated gene silencing 4Piwi like RNA-mediated gene silencing 2NIN1 (RPN12) binding protein 1 homologRNA terminal phosphate cyclase like 1Schlafen family member 14Schlafen family member 13YbeY metalloendoribonucleaseZinc finger CCCH-type containing 3Endoribonuclease CT_422Endoribonuclease CTL0681Endo/exonuclease (5'-3'), endonuclease G-likeLactamase, beta 2Apurinic/apyrimidinic endonuclease 1Endoplasmic reticulum (ER) to nucleus signalling 1Endoplasmic reticulum (ER) to nucleus signalling 2Zinc finger CCCH type containing 12ATranslin-associated factor XArgonaute RISC catalytic subunit 3Argonaute RISC catalytic subunit 2Hypothetical protein BU442
P680
Molecular cloning and characterization of the human RNase kappa, an ortholog of Cc RNaseEukaryote-specific insertion elements control human ARGONAUTE slicer activitySMG6 is the catalytic endonuclease that cleaves mRNAs containing nonsense codons in metazoanGradual processing of the ITS1 from the nucleolus to the cytoplasm during synthesis of the human 18S rRNABoth endonucleolytic and exonucleolytic cleavage mediate ITS1 removal during human ribosomal RNA processingC21orf57 is a human homologue of bacterial YbeY proteins.
P921
Q21103047-4AEA5409-E058-46F0-AB18-8ADAC950BB68Q21105095-56B23DA0-25BD-4381-8BA2-AA40E2C833BCQ21105878-4084AB43-EE68-4241-8B68-43262290451FQ21105878-5CD2A645-3DA8-49A2-96EA-9E8E5320D85FQ21106119-5052A972-4566-449A-8604-328C85B00F10Q21106897-D200DC45-039A-4267-9E2D-75E3AE686BBBQ21106902-83F5B425-4882-4F11-8121-46AB63EFA9A1Q21106961-20CF0F3A-7FDE-454F-B045-BD0A67DC4AE8Q21106961-B7637B57-E51D-48C9-9B9E-AD0ADCFBAE14Q21107304-13BDEB0D-0DCC-4223-AC05-77262D00FF76Q21107304-EDA40046-A043-474A-814E-84DC2D7211A4Q21107689-AA0018D8-D7F8-42D7-8638-D2C49F40650DQ21107689-B8ADCE57-4BFA-4211-B9E2-860EE5C08DB7Q21108146-26FD1007-86CB-4A7D-B619-D8D2FDA686A2Q21111273-5551D57A-7C02-48AE-835E-56414ABD4BE9Q21111286-A0A3DAD0-324C-4BC3-9E01-5F287D5C63A6Q21111297-CB38EC0A-BE33-4EE4-825C-431E7FF6829BQ21115073-20AF71A5-9690-4540-85F3-63C15D3710C9Q21115073-96F02068-1B5B-41FC-8AFF-64E33FFBE2AEQ21115427-1AA6F3A6-89C8-4234-9350-DF4D8024C7A7Q21115427-464CE86C-E5DA-4C07-AE05-3732878C59CCQ21115427-EFC1FCFB-0A26-481A-8CB9-E91C21EEA4E6Q21115786-9436E33C-CC11-4A56-9DF0-54AF7F0317A3Q21117957-27E4EF21-B680-4623-82B6-5F7D12E7EC6BQ21118088-939F571D-A577-4B2A-94CD-FD31CD1ED1F3Q21118632-D05DDEC6-B5D6-4E49-B832-D12F2DFA4139Q21118632-F7F8108E-C556-433F-A979-DADC128118C3Q21120559-5228DF6F-23FA-4EBD-A16A-DC12BE6511E5Q21120559-A5D48142-4FDB-4019-9CE3-6863BC48B2A5Q21124294-421DFD14-7396-4D94-8BCE-E2ED712A60E9Q21124296-8224AAC2-CDF4-4F7D-BCCA-61ABAA3AD101Q21124874-8B8ABBD3-2931-42C0-9A14-2C564B5B0A23Q21125060-6A171DBE-69D6-43EC-BF27-7F4E4E584170Q21133587-21F703A4-E82D-4732-B372-8B80286977A7Q21133587-520F71AF-0A1F-4EB5-96AE-CEA79452024BQ21133588-B26A07A5-EE75-484E-865C-6E42F39E7FD8Q21133588-E60F03D8-F9E0-45D9-904D-497099C9A0F1Q21136436-B3CBC096-EFA3-4061-BD7A-DFDFBAD0749BQ21136783-5523C347-C74D-4D84-9585-D6FE220D88E2Q21168349-77EBABF1-2995-454D-B809-6A8D3D62598F
P680
description
Catalysis of the hydrolysis of ...... d by creating internal breaks.
@en
biologisch proces
@nl
name
aktiveco de endoribonukleazo
@eo
endoribonuclease activity
@en
type
label
aktiveco de endoribonukleazo
@eo
endoribonuclease activity
@en
altLabel
GO:0004521
@en
prefLabel
aktiveco de endoribonukleazo
@eo
endoribonuclease activity
@en
P2888
P686
GO:0004521