sameAs
P527
The role of protein elongation factor eEF1A2 in ovarian cancerThe ribosomal subunit assembly line.Signalling to eIF4E in cancerPositive mRNA Translational Control in Germ Cells by Initiation Factor SelectivityFunctional Importance of Mobile Ribosomal ProteinsExperimental Evidence Shows Salubrinal, an eIF2α Dephosphorylation Inhibitor, Reduces Xenotoxicant-Induced Cellular DamageRibosomal proteins as unrevealed caretakers for cellular stress and genomic instability'Ribozoomin'--translation initiation from the perspective of the ribosome-bound eukaryotic initiation factors (eIFs)Modulation of translation and induction of autophagy by bacterial exoproductsA long-range foresight for the medical application of apoptosis specifically induced by Dd-MRP4, Dictyostelium mitochondrial ribosomal protein S4, to cancer therapyThe translational factor eIF3f: the ambivalent eIF3 subunitRole of ribosomal protein mutations in tumor development (Review)Review: Translational GTPasesTranslation initiation and its deregulation during tumorigenesisRegulation of translation factor EEF1D gene function by alternative splicingPernicious pathogens or expedient elements of inheritance: the significance of yeast prions.eIF4E as a control target for viruses.The RP-Mdm2-p53 pathway and tumorigenesisThe origin and evolution of the ribosomeHarnessing the integrated stress response for the treatment of multiple sclerosis.The role of disordered ribosomal protein extensions in the early steps of eubacterial 50 S ribosomal subunit assemblyHuman eIF3: from 'blobology' to biological insight.Ribosome dynamics during decoding.The other lives of ribosomal proteins.Targeting translation dependence in cancerTargeting Mnks for cancer therapy.Life cycle of cytosolic prions.Roles of eukaryotic initiation factor 5A2 in human cancer.Mitochondrial protein synthesis: figuring the fundamentals, complexities and complications, of mammalian mitochondrial translation.Plant Translation Factors and Virus Resistance.RNA- and protein-mediated control of Listeria monocytogenes virulence gene expression.Ribosomal Proteins Control or Bypass p53 during Nucleolar Stress.Localization of ribosomal protein S1 in the granular component of the interphase nucleolus and its distribution during mitosis.Endoplasmic reticulum stress and eIF2α phosphorylation: The Achilles heel of pancreatic β cells.Elevated levels of ribosomal proteins eL36 and eL42 control expression of Hsp90 in rhabdomyosarcoma.Proteomic analysis of mTOR inhibition-mediated phosphorylation changes in ribosomal proteins and eukaryotic translation initiation factors.Emerging Roles of Mitochondrial Ribosomal Proteins in Plant Development.Two distinct nodes of translational inhibition in the Integrated Stress Response.The eIF4E2-Directed Hypoxic Cap-Dependent Translation Machinery Reveals Novel Therapeutic Potential for Cancer Treatment.Survival of the drowsiest: the hibernating 100S ribosome in bacterial stress management.
P921
Q21093260-0E71E8E6-9595-45CE-8F51-63C8B88A93ACQ24812632-42E2C2D4-8274-4A50-B8B3-D2D58DC78872Q26777735-1CB78B52-67BA-4406-897E-DE352CC68D7DQ26781719-87AB9ED6-8A03-45FE-859C-7712583AFABEQ26784264-84317ABF-7096-46EE-82CE-8D3FB5FCEBBEQ26801783-15FF8C25-5315-42CF-B185-370E1A73FCECQ26829490-4D455D40-6053-42AB-A66E-79502F7B4A2EQ26852951-75875F9D-6B33-4C32-8297-91E7611928D3Q27000440-1C2EAA47-23DB-42BC-B644-12BA07B4210CQ27001642-3065B7A5-FE79-4117-99E9-7A3FEA10A128Q27016102-7B63C6BF-419E-463E-96F8-5DFE1B349DD4Q28068265-153C8E28-E548-401B-B2ED-26BA05F7C61BQ28077489-AD485AA9-C0D6-4C0E-A1A7-B7534E6178DBQ34601604-5EF96FF9-E3F2-4732-98C5-35BF78C90560Q35139166-F7BEDE5B-89D4-4768-87A8-C35FB79AEF66Q35145581-54880ADD-C86C-4839-8C69-8E553510C608Q35160012-4A0BEF00-0829-4AEC-A12F-0FD5AE16DE31Q35679348-63F27884-AFD5-4D9A-9D7F-920F28CA7069Q36662496-1D4D6AD7-781B-48B6-A318-B6BCC07A4195Q36689566-C34D0422-0CCE-45DC-8680-AC5E7B529700Q37462213-5A982BE1-FB26-4373-931B-8147F2D23EBBQ37644283-322D43A7-FDB5-4103-881A-8D2FD2EFB4AAQ37644287-711A33E3-55EF-4B38-9F6F-AD1225F21AC4Q37774777-ABEBE1D8-661A-47B5-9045-A9BB569B522EQ37850227-9002A1BB-4544-4A00-9113-4E845713167AQ37990881-213C238F-6F30-4269-9F04-3BFDADFA987CQ38136055-ABB0FA71-924B-4F0C-A451-206DAA4815D9Q38163977-EE70BB21-DCEC-4687-B3AE-396654A3569BQ38218724-76D1D171-EA8E-43DC-99B0-843CD4AD7D38Q38538455-CDEEB0CC-0CF6-49C9-974F-A01F75F8762EQ38842729-7EE2D34F-EA4A-495E-8570-839EFA4D10CAQ39085684-F4CBEECF-8CA6-4691-BE1A-F05295129E1AQ39814965-96A9C3C2-1C87-4295-873F-97FD7E9CB132Q41689677-A810CD05-8FBF-43AC-A228-2BDF88464859Q42346113-D08B0367-D78A-4E15-BBE1-235B0E53C2DCQ42436996-C73B872E-7E1C-4EFF-AD6A-ACF32F0F710EQ46247601-2DCD5712-B209-4749-801C-7EC9FB8C21B7Q47147251-8677EBEE-6CEF-474B-8B17-FE54EBA12E9AQ47215309-A0D446E8-1F5A-4C18-93A4-1982CCDC8388Q48113261-4645B0A6-FB65-4ED6-B997-F6B6194585B8
P921
description
proteins found in ribosomes
@en
proteïne
@nl
بروتين
@ar
name
Białka rybosomalne
@pl
Protein ribosome
@vi
Proteína ribosómica
@es
Protéine ribosomique
@fr
Ribosomaal eiwit
@nl
ribosomal proteins
@en
ribosomalt protein
@nn
Рибосомні білки
@uk
核糖体蛋白质
@zh
type
label
Białka rybosomalne
@pl
Protein ribosome
@vi
Proteína ribosómica
@es
Protéine ribosomique
@fr
Ribosomaal eiwit
@nl
ribosomal proteins
@en
ribosomalt protein
@nn
Рибосомні білки
@uk
核糖体蛋白质
@zh
altLabel
Protéines ribosomiques
@fr
ribosomal protein
@en
核糖体蛋白
@zh
真核糖体蛋白质
@zh
prefLabel
Białka rybosomalne
@pl
Protein ribosome
@vi
Proteína ribosómica
@es
Protéine ribosomique
@fr
Ribosomaal eiwit
@nl
ribosomal proteins
@en
ribosomalt protein
@nn
Рибосомні білки
@uk
核糖体蛋白质
@zh
P486
P6366
P672
P279
P361
P3827
ribosomal-proteins
P486
P6366
P672
D12.776.835