scholarly article | Q13442814 |
P356 | DOI | 10.1128/MCB.19.10.6543 |
P8608 | Fatcat ID | release_xuc663aofvcoxk5gnhijuftucm |
P932 | PMC publication ID | 84624 |
P698 | PubMed publication ID | 10490594 |
P50 | author | Iain William Mattaj | Q21127249 |
David Tollervey | Q21165903 | ||
P2093 | author name string | P Fortes | |
D Lafontaine | |||
J Kufel | |||
M Fornerod | |||
M Polycarpou-Schwarz | |||
P2860 | cites work | The family of box ACA small nucleolar RNAs is defined by an evolutionarily conserved secondary structure and ubiquitous sequence elements essential for RNA accumulation | Q22065786 |
DNA sequencing with chain-terminating inhibitors | Q22066207 | ||
Identification of the factors that interact with NCBP, an 80 kDa nuclear cap binding protein | Q24303559 | ||
Cloning and domain structure of the mammalian splicing factor U2AF | Q24305104 | ||
Nucleolar KKE/D repeat proteins Nop56p and Nop58p interact with Nop1p and are required for ribosome biogenesis | Q24308842 | ||
A nuclear cap binding protein complex involved in pre-mRNA splicing | Q24318104 | ||
Participation of the nuclear cap binding complex in pre-mRNA 3' processing | Q24320261 | ||
A nuclear cap-binding complex binds Balbiani ring pre-mRNA cotranscriptionally and accompanies the ribonucleoprotein particle during nuclear export | Q24322859 | ||
A cap-binding protein complex mediating U snRNA export | Q24336104 | ||
mRNA capping enzyme is recruited to the transcription complex by phosphorylation of the RNA polymerase II carboxy-terminal domain | Q24602633 | ||
Transformation of intact yeast cells treated with alkali cations | Q24672708 | ||
A system of shuttle vectors and yeast host strains designed for efficient manipulation of DNA in Saccharomyces cerevisiae | Q27860636 | ||
Ssd1p of Saccharomyces cerevisiae associates with RNA. | Q27929991 | ||
GCR1 of Saccharomyces cerevisiae encodes a DNA binding protein whose binding is abolished by mutations in the CTTCC sequence motif | Q27930929 | ||
A yeast cap binding protein complex (yCBC) acts at an early step in pre-mRNA splicing. | Q27932647 | ||
Conditional mutants of the yeast mRNA capping enzyme show that the cap enhances, but is not required for, mRNA splicing | Q27933237 | ||
The yeast splicing factor Mud13p is a commitment complex component and corresponds to CBP20, the small subunit of the nuclear cap-binding complex | Q27933398 | ||
Synthetic lethality of yeast slt mutations with U2 small nuclear RNA mutations suggests functional interactions between U2 and U5 snRNPs that are important for both steps of pre-mRNA splicing | Q27933470 | ||
The yeast MUD2 protein: an interaction with PRP11 defines a bridge between commitment complexes and U2 snRNP addition | Q27933542 | ||
A comprehensive biochemical and genetic analysis of the yeast U1 snRNP reveals five novel proteins. | Q27934040 | ||
The splicing factor BBP interacts specifically with the pre-mRNA branchpoint sequence UACUAAC. | Q27934071 | ||
An enhancer screen identifies a gene that encodes the yeast U1 snRNP A protein: implications for snRNP protein function in pre-mRNA splicing | Q27934609 | ||
Nop5p is a small nucleolar ribonucleoprotein component required for pre-18 S rRNA processing in yeast | Q27935192 | ||
The box H + ACA snoRNAs carry Cbf5p, the putative rRNA pseudouridine synthase | Q27935785 | ||
Cross-intron bridging interactions in the yeast commitment complex are conserved in mammals | Q27936705 | ||
The GCR1 gene encodes a positive transcriptional regulator of the enolase and glyceraldehyde-3-phosphate dehydrogenase gene families in Saccharomyces cerevisiae | Q27937439 | ||
Site-specific ribose methylation of preribosomal RNA: a novel function for small nucleolar RNAs | Q27939349 | ||
Cloning of a complementary DNA encoding an 80 kilodalton nuclear cap binding protein | Q28116491 | ||
Getting started with yeast | Q28131602 | ||
From nucleoporins to nuclear pore complexes | Q28238651 | ||
SR proteins: a conserved family of pre-mRNA splicing factors | Q28240185 | ||
The C-terminal domain of RNA polymerase II couples mRNA processing to transcription | Q28301744 | ||
5'-Capping enzymes are targeted to pre-mRNA by binding to the phosphorylated carboxy-terminal domain of RNA polymerase II | Q28623635 | ||
Involvement of the MRE2 gene of yeast in formation of meiosis-specific double-strand breaks and crossover recombination through RNA splicing | Q64389299 | ||
A factor, U2AF, is required for U2 snRNP binding and splicing complex assembly | Q70046647 | ||
mRNA cap binding proteins: essential factors for initiating translation | Q70049052 | ||
The effect of temperature-sensitive RNA mutants on the transcription products from cloned ribosomal protein genes of yeast | Q70159118 | ||
Normal and mutant human β-globin pre-mRNAs are faithfully and efficiently spliced in vitro | Q70196254 | ||
Heterologous expression of the human D2S dopamine receptor in protease-deficient Saccharomyces cerevisiae strains | Q71989313 | ||
Isolation of S. cerevisiae snRNPs: comparison of U1 and U4/U6.U5 to their human counterparts | Q72336928 | ||
RNA polymerase II is an essential mRNA polyadenylation factor | Q29614773 | ||
Nuclear export of different classes of RNA is mediated by specific factors | Q29618449 | ||
Small nucleolar RNAs direct site-specific synthesis of pseudouridine in ribosomal RNA | Q29618482 | ||
Function and synthesis of small nucleolar RNAs | Q29618483 | ||
Depletion of U14 small nuclear RNA (snR128) disrupts production of 18S rRNA in Saccharomyces cerevisiae | Q29618484 | ||
A yeast small nuclear RNA is required for normal processing of pre-ribosomal RNA | Q29620542 | ||
The YDp plasmids: a uniform set of vectors bearing versatile gene disruption cassettes for Saccharomyces cerevisiae | Q29620826 | ||
Identification of functional U1 snRNA-pre-mRNA complexes committed to spliceosome assembly and splicing | Q29620837 | ||
Yeast snR30 is a small nucleolar RNA required for 18S rRNA synthesis | Q29620872 | ||
Depletion of U3 small nucleolar RNA inhibits cleavage in the 5′ external transcribed spacer of yeast pre-ribosomal RNA and impairs formation of 18S ribosomal RNA | Q29620875 | ||
The RNA polymerase II holoenzyme and its implications for gene regulation | Q29622942 | ||
Synthetic lethality with fibrillarin identifies NOP77p, a nucleolar protein required for pre-rRNA processing and modification | Q29622954 | ||
Fungal small nuclear ribonucleoproteins share properties with plant and vertebrate U-snRNPs. | Q30403263 | ||
GCR3 encodes an acidic protein that is required for expression of glycolytic genes in Saccharomyces cerevisiae | Q33202544 | ||
Cloning by function: an alternative approach for identifying yeast homologs of genes from other organisms | Q33763820 | ||
The yeast homologue of U3 snRNA. | Q33929379 | ||
Preferential excision of the 5' proximal intron from mRNA precursors with two introns as mediated by the cap structure | Q34332907 | ||
Nucleolar localization elements in U8 snoRNA differ from sequences required for rRNA processing | Q34361453 | ||
Modification of U6 spliceosomal RNA is guided by other small RNAs | Q34482644 | ||
A conserved family of nuclear phosphoproteins localized to sites of polymerase II transcription | Q34573390 | ||
MIPS: a database for protein sequences and complete genomes | Q34649726 | ||
Accelerated mRNA decay in conditional mutants of yeast mRNA capping enzyme | Q34664939 | ||
The cap and the 3' splice site similarly affect polyadenylation efficiency | Q36559866 | ||
Structurally related but functionally distinct yeast Sm D core small nuclear ribonucleoprotein particle proteins | Q36567098 | ||
MIPS: a database for protein sequences, homology data and yeast genome information | Q36844562 | ||
Further evidence that the rna2 mutation of Saccharomyces cerevisiae affects mRNA processing | Q36975493 | ||
Structure of spliceosomal snRNPs and their role in pre-mRNA splicing | Q37862777 | ||
A 7-methylguanosine cap commits U3 and U8 small nuclear RNAs to the nucleolar localization pathway | Q39722739 | ||
The yeast branchpoint sequence is not required for the formation of a stable U1 snRNA-pre-mRNA complex and is recognized in the absence of U2 snRNA. | Q41080746 | ||
The GCR1 gene of Saccharomyces cerevisiae is a split gene with an unusually long intron. | Q42965162 | ||
The NAM8 gene in Saccharomyces cerevisiae encodes a protein with putative RNA binding motifs and acts as a suppressor of mitochondrial splicing deficiencies when overexpressed. | Q43478554 | ||
Capping of eucaryotic mRNAs | Q44537736 | ||
Importin provides a link between nuclear protein import and U snRNA export | Q48059143 | ||
Monomethylated cap structures facilitate RNA export from the nucleus. | Q50804073 | ||
Birth of the snoRNPs: the evolution of the modification-guide snoRNAs. | Q51093637 | ||
Construction of a yeast strain deleted for the TRP1 promoter and coding region that enhances the efficiency of the polymerase chain reaction-disruption method. | Q52525239 | ||
Overview of the yeast genome. | Q53359682 | ||
Poly(A) site cleavage in a HeLa nuclear extract is dependent on downstream sequences. | Q55060176 | ||
Recognition of cap structure in splicing in vitro of mRNA precursors. | Q55062652 | ||
A nuclear cap-binding complex facilitates association of U1 snRNP with the cap-proximal 5' splice site. | Q55066526 | ||
Yeast contains small nuclear RNAs encoded by single copy genes | Q57268106 | ||
Multiple factors are required for specific RNA cleavage at a poly(A) addition site | Q64379503 | ||
P433 | issue | 10 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 6543-6553 | |
P577 | publication date | 1999-10-01 | |
P1433 | published in | Molecular and Cellular Biology | Q3319478 |
P1476 | title | Genetic and physical interactions involving the yeast nuclear cap-binding complex | |
P478 | volume | 19 |
Q73819258 | 7The yeast mRNA-binding protein Npl3p interacts with the cap-binding complex |
Q27676995 | A Mammalian Pre-mRNA 5′ End Capping Quality Control Mechanism and an Unexpected Link of Capping to Pre-mRNA Processing |
Q39337622 | A mutation in the Cap Binding Protein 20 gene confers drought tolerance to Arabidopsis |
Q27934198 | A targeted bypass screen identifies Ynl187p, Prp42p, Snu71p, and Cbp80p for stable U1 snRNP/Pre-mRNA interaction |
Q27939445 | A yeast intronic splicing enhancer and Nam8p are required for Mer1p-activated splicing. |
Q38297398 | An mRNA cap binding protein, ABH1, modulates early abscisic acid signal transduction in Arabidopsis |
Q61443390 | Both anti-inflammatory and antiviral properties of novel drug candidate ABX464 are mediated by modulation of RNA splicing |
Q38172648 | Cap-binding complex (CBC). |
Q27934046 | Cap-binding protein 1-mediated and eukaryotic translation initiation factor 4E-mediated pioneer rounds of translation in yeast |
Q35067664 | Cap-binding protein complex links pre-mRNA capping to transcription elongation and alternative splicing through positive transcription elongation factor b (P-TEFb) |
Q35174719 | Composition of yeast snRNPs and snoRNPs in the absence of trimethylguanosine caps reveals nuclear cap binding protein as a gained U1 component implicated in the cold-sensitivity of tgs1Δ cells |
Q27634739 | Crystal structure of the human nuclear cap binding complex |
Q53861674 | DEAD-box RNA helicase Sub2 is required for expression of lacZ fusions in Saccharomyces cerevisiae and is a dosage-dependent suppressor of RLR1 (THO2). |
Q35169986 | Degradation of normal mRNA in the nucleus of Saccharomyces cerevisiae |
Q78864873 | Dissecting dyskeratosis |
Q42108487 | Distance-dependent processing of adeno-associated virus type 5 RNA is controlled by 5' exon definition |
Q58564553 | Domain Requirements and Genetic Interactions of the Mud1 Subunit of the Saccharomyces cerevisiae U1 snRNP. |
Q28757913 | Dual roles of the nuclear cap-binding complex and SERRATE in pre-mRNA splicing and microRNA processing in Arabidopsis thaliana |
Q48297242 | Emerging Roles of the Nuclear Cap-Binding Complex in Abiotic Stress Responses. |
Q31805213 | Eukaryote-specific domains in translation initiation factors: implications for translation regulation and evolution of the translation system |
Q33887269 | Expanding the functional repertoire of CTD kinase I and RNA polymerase II: novel phosphoCTD-associating proteins in the yeast proteome |
Q31150177 | Functional genomics reveals relationships between the retrovirus-like Ty1 element and its host Saccharomyces cerevisiae. |
Q36342236 | Genetic interactions of hypomorphic mutations in the m7G cap-binding pocket of yeast nuclear cap binding complex: an essential role for Cbc2 in meiosis via splicing of MER3 pre-mRNA |
Q39459203 | Interaction of eukaryotic translation initiation factor 4G with the nuclear cap-binding complex provides a link between nuclear and cytoplasmic functions of the m(7) guanosine cap. |
Q42868567 | Interaction of yeast eIF4G with spliceosome components: implications in pre-mRNA processing events. |
Q24651932 | Involvement of the nuclear cap-binding protein complex in alternative splicing in Arabidopsis thaliana |
Q35447539 | Key features of the two-intron Saccharomyces cerevisiae gene SUS1 contribute to its alternative splicing |
Q52087638 | Lesions in the mRNA cap-binding gene ABA HYPERSENSITIVE 1 suppress FRIGIDA-mediated delayed flowering in Arabidopsis. |
Q27937679 | Luc7p, a novel yeast U1 snRNP protein with a role in 5' splice site recognition |
Q30430063 | Malleable ribonucleoprotein machine: protein intrinsic disorder in the Saccharomyces cerevisiae spliceosome |
Q90570357 | Mud2 functions in transcription by recruiting the Prp19 and TREX complexes to transcribed genes |
Q33260080 | N-terminal region of Saccharomyces cerevisiae eRF3 is essential for the functioning of the eRF1/eRF3 complex beyond translation termination |
Q27000261 | RNA helicases in splicing |
Q28221126 | RNA polymerase II conducts a symphony of pre-mRNA processing activities |
Q38341305 | RPL30 regulation of splicing reveals distinct roles for Cbp80 in U1 and U2 snRNP cotranscriptional recruitment |
Q42914749 | Release of SF3 from the intron branchpoint activates the first step of pre-mRNA splicing |
Q34644394 | Saccharomyces cerevisiae SSD1-V confers longevity by a Sir2p-independent mechanism |
Q36540298 | Snu56p is required for Mer1p-activated meiotic splicing |
Q41747163 | Structure-function analysis and genetic interactions of the Luc7 subunit of the Saccharomyces cerevisiae U1 snRNP. |
Q36044842 | Structure-function analysis and genetic interactions of the yeast branchpoint binding protein Msl5. |
Q37122051 | Structure-function analysis of the 5' end of yeast U1 snRNA highlights genetic interactions with the Msl5*Mud2 branchpoint-binding complex and other spliceosome assembly factors |
Q37701302 | Structure-function analysis of the Yhc1 subunit of yeast U1 snRNP and genetic interactions of Yhc1 with Mud2, Nam8, Mud1, Tgs1, U1 snRNA, SmD3 and Prp28. |
Q27933850 | Synthesis and assembly of the box C+D small nucleolar RNPs |
Q34364453 | T7 RNA polymerase-directed transcripts are processed in yeast and link 3' end formation to mRNA nuclear export |
Q27930711 | The DEAD-box helicase Ded1 from yeast is an mRNP cap-associated protein that shuttles between the cytoplasm and nucleus |
Q28609616 | The RNA-binding protein TIA-1 is a novel mammalian splicing regulator acting through intron sequences adjacent to a 5' splice site |
Q57476714 | The U1 snRNP subunit LUC7 modulates plant development and stress responses via regulation of alternative splicing |
Q57378139 | The Yeast Nuclear Cap Binding Complex Can Interact with Translation Factor eIF4G and Mediate Translation Initiation |
Q38352748 | The cap binding complex influences H2B ubiquitination by facilitating splicing of the SUS1 pre-mRNA |
Q47766930 | The conserved AU dinucleotide at the 5' end of nascent U1 snRNA is optimized for the interaction with nuclear cap-binding-complex. |
Q28749801 | The distribution of active RNA polymerase II along the transcribed region is gene-specific and controlled by elongation factors |
Q38354474 | The interaction of the cap-binding complex (CBC) with eIF4G is dispensable for translation in yeast |
Q34723440 | The mRNA cap-binding complex stimulates the formation of pre-initiation complex at the promoter via its interaction with Mot1p in vivo |
Q35038202 | The many facets of H/ACA ribonucleoproteins |
Q28910445 | The nuclear cap-binding complex interacts with the U4/U6·U5 tri-snRNP and promotes spliceosome assembly in mammalian cells |
Q33229795 | The protein phosphatase AtPP2CA negatively regulates abscisic acid signal transduction in Arabidopsis, and effects of abh1 on AtPP2CA mRNA. |
Q34102252 | Ubiquitin-mediated mRNP dynamics and surveillance prior to budding yeast mRNA export |
Q33903468 | Understanding and predicting synthetic lethal genetic interactions in Saccharomyces cerevisiae using domain genetic interactions |
Q28352508 | Yeast U1 snRNP-pre-mRNA complex formation without U1snRNA-pre-mRNA base pairing |
Q27929949 | Yeast mRNA cap-binding protein Cbc1/Sto1 is necessary for the rapid reprogramming of translation after hyperosmotic shock |
Q46808378 | mRNA metabolism of flowering-time regulators in wild-type Arabidopsis revealed by a nuclear cap binding protein mutant, abh1. |
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