Species barrier to RNA recognition overcome with nonspecific RNA binding domains.
about
Structure of the EMAPII domain of human aminoacyl-tRNA synthetase complex reveals evolutionary dimer mimicryA recurrent RNA-binding domain is appended to eukaryotic aminoacyl-tRNA synthetasesStructure of Hsp15 reveals a novel RNA-binding motifStructural conservation of an ancient tRNA sensor in eukaryotic glutaminyl-tRNA synthetaseThe Structure of Yeast Glutaminyl-tRNA Synthetase and Modeling of Its Interaction with tRNACex1p is a novel cytoplasmic component of the Saccharomyces cerevisiae nuclear tRNA export machineryUtp8p is an essential intranuclear component of the nuclear tRNA export machinery of Saccharomyces cerevisiae.Saccharomyces cerevisiae possesses a stress-inducible glycyl-tRNA synthetase gene.Arc1p organizes the yeast aminoacyl-tRNA synthetase complex and stabilizes its interaction with the cognate tRNAs.The intracellular location of two aminoacyl-tRNA synthetases depends on complex formation with Arc1pAn inserted region of leucyl-tRNA synthetase plays a critical role in group I intron splicing.Catalytic peptide of human glutaminyl-tRNA synthetase is essential for its assembly to the aminoacyl-tRNA synthetase complexEvolution of RNA-protein interactions: non-specific binding led to RNA splicing activity of fungal mitochondrial tyrosyl-tRNA synthetasesIdentification of lethal mutations in yeast threonyl-tRNA synthetase revealing critical residues in its human homolog.Aminoacyl-tRNA synthetases database Y2KFunctional expansion of human tRNA synthetases achieved by structural inventionsA tryptophan-rich peptide acts as a transcription activation domainMethionyl-tRNA synthetase from Caenorhabditis elegans: a specific multidomain organization for convergent functional evolution.A recurrent general RNA binding domain appended to plant methionyl-tRNA synthetase acts as a cis-acting cofactor for aminoacylationTrans-kingdom rescue of Gln-tRNAGln synthesis in yeast cytoplasm and mitochondria.A Flexible peptide tether controls accessibility of a unique C-terminal RNA-binding domain in leucyl-tRNA synthetases.Assembly of a catalytic unit for RNA microhelix aminoacylation using nonspecific RNA binding domains.An insertion peptide in yeast glycyl-tRNA synthetase facilitates both productive docking and catalysis of cognate tRNAs.Promoting the formation of an active synthetase/tRNA complex by a nonspecific tRNA-binding domainA domain in the N-terminal extension of class IIb eukaryotic aminoacyl-tRNA synthetases is important for tRNA binding.Evolutionary basis of converting a bacterial tRNA synthetase into a yeast cytoplasmic or mitochondrial enzymeModulating the Structure and Function of an Aminoacyl-tRNA Synthetase Cofactor by Biotinylation.Functional redundancy in the nonspecific RNA binding domain of a class I tRNA synthetase.Utp9p facilitates Msn5p-mediated nuclear reexport of retrograded tRNAs in Saccharomyces cerevisiae.Scyl1 facilitates nuclear tRNA export in mammalian cells by acting at the nuclear pore complex.Unique residues crucial for optimal editing in yeast cytoplasmic Leucyl-tRNA synthetase are revealed by using a novel knockout yeast strain.
P2860
Q24536732-F38A4038-249B-4C29-9894-EAB5F50D51B3Q27621163-412AAAE5-81D9-4ADC-AF54-7AC6D72BB74EQ27621387-C47ABD3F-730B-403A-AD75-7623BE286C09Q27676294-71BC14F6-84E4-4F54-A591-99C9062DF5E8Q27677353-DDEF420A-2C0D-4EB7-A4E8-7E18D42E7C2FQ27930107-2D04AB72-DB6A-4CD0-95CB-B79E72B0764BQ27931437-6B3C144A-8A0E-4EED-8E86-C22CA23B58AFQ27931746-4D6ECB9E-882F-45CC-9935-CA9D85B75FC1Q27936092-E5F3E32B-0D86-4E5D-B3B1-95E55301F426Q27937481-8F6873CC-0C6D-496E-A860-90239424953BQ27937516-740D4B66-6F4B-4181-BCE8-46E21A7EF150Q28143873-142898C8-D18A-4184-A737-8A64C2524EADQ28542826-AAAD4599-3C19-49C1-B5E2-5634EC068C27Q30368860-05D1E4FA-C56E-4D95-9416-9DA6DE625804Q33610771-2024072D-FE06-493C-89E1-396D31762B40Q33677123-4EE57D5C-5FA9-4E2E-8751-5488CB56E58FQ33747149-6F50BECD-FB01-4C91-BB74-B7A160A0B794Q34436494-738D0EFA-B11E-476A-A248-34050924CCE6Q34683911-32993E2D-3890-404A-BAA7-A1D4DA525650Q36305712-DE78D807-8425-4664-A2A0-4A37F3044BE0Q36502386-7F3FDFE4-23FB-453A-BAE9-9C75E02543FFQ36536549-BA59FA57-299B-444D-BC5D-4852B4119C2AQ37122752-1EAF6300-8DFD-4171-B87E-955EEE05E9E1Q37142698-E44ECCFD-00AB-4BD3-BAAE-2AA1250EE045Q37350089-31EC705F-2854-4757-A55E-7C0533173AE5Q37433232-DD9D67D2-EE5D-48F1-ABC0-4C9A3A42F173Q41045732-629D333C-6FF0-429C-9A55-E9A12EAA568DQ41728104-D9E24E3D-BE9C-47ED-AA83-885398200E6EQ41975517-7A5E8CAE-B017-466B-8569-E428460381E4Q41978566-EA3A91BE-48E4-43B8-B657-117CF36D7BADQ46542921-2E1897EE-9816-48C7-A60A-5241478C8114
P2860
Species barrier to RNA recognition overcome with nonspecific RNA binding domains.
description
1999 nî lūn-bûn
@nan
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
1999年论文
@zh
1999年论文
@zh-cn
name
Species barrier to RNA recognition overcome with nonspecific RNA binding domains.
@en
type
label
Species barrier to RNA recognition overcome with nonspecific RNA binding domains.
@en
prefLabel
Species barrier to RNA recognition overcome with nonspecific RNA binding domains.
@en
P2860
P356
P1476
Species barrier to RNA recognition overcome with nonspecific RNA binding domains.
@en
P2093
P2860
P304
16508-16512
P356
10.1074/JBC.274.23.16508
P407
P577
1999-06-01T00:00:00Z