about
Mitochondrial ribosomal protein L44DGCR8 microprocessor complex subunitSerrate, RNA effector moleculeNuclear cap binding protein subunit 1Heterogeneous nuclear ribonucleoprotein A2/B1Methyltransferase like 3DGCR8, microprocessor complex subunitMethyltransferase like 3Nuclear cap binding protein subunit 1Mitochondrial ribosomal protein L44Serrate RNA effector molecule homolog (Arabidopsis)Drosha, ribonuclease type IIIHeterogeneous nuclear ribonucleoprotein A2/B1Drosha ribonuclease IIISto1p YMR125WMitochondrial 54S ribosomal protein YmL3 YMR024WRibonuclease III YMR239CNuclear cap binding protein subunit 1Heterogeneous nuclear ribonucleoprotein A2/B1Drosha ribonuclease IIIDGCR8 microprocessor complex subunitMethyltransferase-like 3Mitochondrial ribosomal protein L44Ribonuclease 3 CELE_F26E4.10Nuclear cap-binding protein subunit 1 CELE_F37E3.1Serrate RNA effector molecule homolog CELE_E01A2.2Cap binding protein 20 Dmel_CG12357Uncharacterized protein Dmel_CG7907Mitochondrial ribosomal protein L44 Dmel_CG2109Arsenic resistance protein 2 Dmel_CG7843Cap binding protein 80 Dmel_CG7035Drosha Dmel_CG8730DGCR8 microprocessor complex subunitSerrate RNA effector molecule homolog (Arabidopsis)Methyltransferase like 3partner droshamicroprocessor complex subunit DGCR8microprocessor complex subunit DGCR8SMAD family member 2SMAD family member 3
P682
The nuclear RNase III Drosha initiates microRNA processingThe Microprocessor complex mediates the genesis of microRNAsArs2 links the nuclear cap-binding complex to RNA interference and cell proliferationProcessing of microRNA primary transcripts requires heme in mammalian cellsMicroRNAs: small RNAs with a big role in gene regulation
P921
Q21104888-1FA9353D-9A64-46B7-961F-2314E7A890C6Q21112176-170D82F1-3065-42BC-A4ED-9922A2E0661DQ21112176-4408E263-041C-4E04-9B65-6A8F1B4D84D4Q21112176-86ABFD30-2A54-4799-91F0-6532BD5BA486Q21117889-EA240F04-B86A-4E90-9233-5DE48EE8CD06Q21120093-04DCEE73-968F-4F96-AC85-BC4DB9851859Q21123854-42582575-877C-469B-A01A-DF0553E10C61Q21124024-ED7DFACF-3E40-49BB-8DE6-42F296953FF8Q21982899-20F95B76-60EB-4E4B-ABE2-E32DC674978AQ21982899-B03C35C3-9329-40BB-BC82-86F6844C1B16Q21982899-C49525DE-08FE-4ED7-B5B0-1CF55CAB85E2Q21987736-5B00C408-6D5B-4969-A7D9-CEB6E172DC0EQ21988714-2DA4893C-D621-4B05-988E-2990A42EB9BDQ21989031-78081FE7-D9C0-4D5E-A3CF-3373B5FC3B8DQ21990191-27194DC0-7E03-4EAC-9BAD-9BA24063BE68Q21990985-8BC6385F-3DA3-4011-97A0-31F62E0D481BQ22677418-0CAB32C6-4843-4270-8069-BB6A5AC40E66Q261483-14530D64-773E-438F-A678-41625AB0A793Q261483-7EE7AA28-CA4C-443C-BDBE-A489DD84DC23Q27547259-61C05A11-9848-4370-A196-9D0DF7B81BA0Q27547865-5ED95861-96D6-4B71-BBEB-171FCB01FF7EQ27551899-417D0D71-5178-47AC-81AB-A7A6C4EEA3CDQ28556691-F406638B-1FF9-44DD-A0E3-CFFF3FF0D0F9Q28561687-F2B15186-4A68-4B02-836E-BD162FFCFDF0Q29516557-122A0E20-EC3A-426A-89EC-A343D72EB8E2Q29518312-0518FF04-C711-4432-8ADF-CD5839ED6276Q29518312-B7171DAD-F646-4F89-A636-B9C5DF5DAD05Q29519372-2550D53E-D362-4387-8279-ADFBCB789A1BQ29526585-9F97BB1D-B19D-4BFB-8F77-22D037B1F2E3Q29794687-1CEEFE3B-A74F-4160-A56C-758CBBAA3203Q29794687-C729DEF5-1FC2-4A1E-87BC-F10ACC1BB4F6Q29803229-512E560B-6558-4D0D-936F-50A7AAFFD8BEQ29805590-EE30CAB4-21B6-4CD9-A806-A002435DEEF3Q29809609-EB7B4E35-9A16-4797-B761-2ECF18D700D9Q29809808-2A0AD1B5-9E7F-4AE3-8322-BD03AB199E49Q29815807-434A0108-7BAE-4620-86B3-117B2BD14B44Q29818034-3559072D-6877-4354-A4DF-A5B7623ED2EEQ29819587-2334F64C-9FA8-4A7F-8C85-189F49AA89D3Q29819587-3195E8D1-1DD2-429B-9454-429E7AC0B33CQ29820013-537512E2-C6F0-4D13-B1E1-D4F9D59E26CB
P682
description
Any process involved in the co ...... into a pre-microRNA molecule.
@en
biologisch proces
@nl
name
primary miRNA processing
@en
type
label
primary miRNA processing
@en
altLabel
GO:0031053
@en
pri-miRNA processing
@en
primary microRNA processing
@en
prefLabel
primary miRNA processing
@en
P279
P2888
P686
GO:0031053