about
P361
Poly(A)-specific ribonucleaseKH-type splicing regulatory proteinCCR4-NOT transcription complex subunit 10ZFP36 ring finger proteinArgonaute RISC catalytic component 3Argonaute RISC component 4Endoplasmic reticulum to nucleus signaling 1Decapping exoribonucleaseHeat shock protein family A (Hsp70) member 1AMethyltransferase like 16Heat shock protein family A (Hsp70) member 1BZFP36 ring finger protein like 1Nudix hydrolase 16Methyltransferase like 14ZFP36 ring finger protein like 2Polyribonucleotide nucleotidyltransferase 1Methyltransferase like 3CCR4-NOT transcription complex subunit 9Nanos C2HC-type zinc finger 2Schlafen family member 14Zinc fingers and homeoboxes 2Polyribonucleotide nucleotidyltransferase 1, mitochondrialPolyribonucleotide nucleotidyltransferase CT_842Polyribonucleotide nucleotidyltransferase CTL0214Decapping mRNA 2Zinc finger protein 36Decapping mRNA 2Decapping exoribonucleaseLSM6 homolog, U6 small nuclear RNA and mRNA degradation associatedLSM7 homolog, U6 small nuclear RNA and mRNA degradation associatedMex3 RNA binding family member DKH-type splicing regulatory proteinArgonaute RISC catalytic subunit 4Argonaute RISC catalytic subunit 3Nanos C2HC-type zinc finger 2CCR4-NOT transcription complex, subunit 10Exoribonuclease II BU266Polynucleotide phosphorylase BU373Ribonuclease E BU347Carbon storage regulator BU404
P682
Interactions of CCCH zinc finger proteins with mRNA. Binding of tristetraprolin-related zinc finger proteins to Au-rich elements and destabilization of mRNAInteractions of CCCH zinc finger proteins with mRNA: non-binding tristetraprolin mutants exert an inhibitory effect on degradation of AU-rich element-containing mRNAsMapping of the human ribonuclease inhibitor gene (RNH) to chromosome 11p15 by in situ hybridization2'-O-methylation of the mRNA cap protects RNAs from decapping and degradation by DXO.
P921
Q21100322-3C412FB8-7801-4BD7-BD56-A634040DFBB7Q21107520-810EC907-9185-440C-97C6-AFB063088366Q21109873-1EEF721C-F3E7-4383-A924-922BCB050C32Q21110024-3BE53F4A-8B81-4401-8D17-4F83E4AAD0FDQ21111273-D89361D3-D79D-40F9-8775-C216847BF94BQ21111277-49BD5D9C-892A-4EED-841F-54D260B0C78CQ21115427-A7A3929C-E3D6-46C1-893A-9CE210F5FB97Q21118044-74DE67A1-3C89-46F4-ADE5-4642F9ACC9EEQ21118347-C0ECCE90-BE17-46A7-8215-27D1120E151AQ21119433-C0A16508-F9B3-436E-9A9A-37975FD511B7Q21119777-52104143-201F-452A-AB42-623CAF4F0D6AQ21120026-5451BD0D-C085-45F1-8CCE-80F3D7C428BFQ21120178-766BF5B1-66AC-4F0D-BA1D-DE406294BBAAQ21120849-80892C81-81F7-47F7-8B60-38D2991C8163Q21122858-F00DB0F1-2FC7-4C0C-903B-CC63A1E0A1F7Q21123297-D3A85A20-2C22-41DD-8374-A8005A15AC5FQ21124024-997CBC6D-2B65-4064-BA96-0B5A7AB15DCCQ21126969-DA266B7D-AEF7-4BFE-B482-229A1F2587EAQ21132458-CE09F535-0C65-43DC-AB07-3B2A67E4647FQ21133587-90AD061A-2E8C-4AAB-B906-9ED6BBBD1F7EQ21133587-EA7A1C67-80C0-42D5-9B23-5F8F63D5655EQ21136837-A20B0011-0BE5-4DEB-B2BD-553D620F7BEDQ21142018-3A1CAB5A-4F95-4D5F-A891-7FC7DD53ED17Q21153886-DD721895-1A7D-4408-A38D-BA81AC43CBC0Q21172846-E0FB116A-ADEB-40BC-98D4-A22ED8FA3412Q21173237-B0D1C28A-AEA3-40D5-8A94-2E6B006F9659Q21491046-64F32B50-4BA3-4FEE-8B4A-053F50F697CDQ21495170-40125CF0-E901-4D76-BC89-09280384E818Q21495170-E7CCAF69-FD2F-4372-A6D7-2C3773431DC7Q21495533-0E10BE28-A3C6-4885-A486-AA18D46B2151Q21495929-01FA3ECB-6116-403B-9FE4-1F998EA190EFQ21495932-7F63DAE3-E477-42DB-B862-8E27E0F79661Q21496015-D3693DB2-CBD2-45C8-BDF0-1C9CCFF5BDDDQ21496379-0D28EABC-37DD-4B3D-B46D-24000EA868B0Q21498898-FDBB82CC-1595-49CB-B60D-4C7079CF3E5BQ21498900-ECEBA59E-7EC7-4805-839C-E9AF3B5F068BQ21499311-F58D2047-B6E0-4F71-95AE-005401A464E2Q21499320-76110666-B5B3-452E-AD76-E6C0FCC5E410Q21599460-6B02C1F8-831A-4D1A-BCF6-2EB844EAB394Q21599781-B2591AC7-2AA0-4934-B6D0-823FA855B7C5
P682
description
The chemical reactions and pat ...... ein assembly at the ribosomes.
@en
biologisch proces
@nl
name
mRNA catabolic process
@en
type
label
mRNA catabolic process
@en
altLabel
GO:0006402
@en
mRNA breakdown
@en
mRNA catabolism
@en
mRNA degradation
@en
prefLabel
mRNA catabolic process
@en
P279
P2888
P527
P686
GO:0006402