about
Mrd1p binds to pre-rRNA early during transcription independent of U3 snoRNA and is required for compaction of the pre-rRNA into small subunit processomes.Multiple RNA interactions position Mrd1 at the site of the small subunit pseudoknot within the 90S pre-ribosome.Mrd1p is required for processing of pre-rRNA and for maintenance of steady-state levels of 40 S ribosomal subunits in yeast.Rrp5 binding at multiple sites coordinates pre-rRNA processing and assemblyEvolutionary conservation of the ribosomal biogenesis factor Rbm19/Mrd1: implications for functionMrd1p is required for release of base-paired U3 snoRNA within the preribosomal complex.The intranuclear movement of Balbiani ring premessenger ribonucleoprotein particles.The Chironomus tentans genome sequence and the organization of the Balbiani ring genes.The cell nucleus.Intranuclear binding in space and time of exon junction complex and NXF1 to premRNPs/mRNPs in vivo.Evidence for a common ancestor sequence for the Balbiani ring 1 and Balbiani ring 2 genes in Chironomus tentans.Linker 2 of the eukaryotic pre-ribosomal processing factor Mrd1p is an essential interdomain functionally coupled to upstream RNA Binding Domain 2 (RBD2).A new member of the balbiani ring multigene family in the dipteran Chironomus tentans consists of a single-copy version of a unit repeated in other gene family members.Sequence organization of the Balbiani ring 2.1 gene in Chironomus tentans.Specific combinations of SR proteins associate with single pre-messenger RNAs in vivo and contribute different functionsDifferent evolutionary behavior of structurally related, repetitive sequences occurring in the same Balbiani ring gene in Chironomus tentansNucleocytoplasmic mRNP export is an integral part of mRNP biogenesis.Mechanisms of mRNA export.The Balbiani Ring Story: Synthesis, Assembly, Processing, and Transport of Specific Messenger RNA-Protein Complexes.Integration of mRNP formation and export.The 75 S RNA transcription unit in Balbiani ring 2 and its relation to chromosome structure.In situ transcription and splicing in the Balbiani ring 3 gene.The mRNA export factor Dbp5 is associated with Balbiani ring mRNP from gene to cytoplasmA novel conserved RNA-binding domain protein, RBD-1, is essential for ribosome biogenesis.Express protocol for generating G+A sequencing ladders.Improved preservation of chromatin structure in ethanol-fixed cells.Transcriptional termination in the Balbiani ring 1 gene is closely coupled to 3'-end formation and excision of the 3'-terminal intron.Structure of a gene in the dipteran Chironomus tentans encoding a yeast ribosomal YL10 protein homologueThe size and chromosomal location of the 75S RNA transcription unit in Balbiani ring 2.A BR 1 gene in Chironomus tentans has a composite structure: a large repetitive core block is separated from a short unrelated 3'-terminal domain by a small intron.The Balbiani ring multigene family: coding repetitive sequences and evolution of a tissue-specific cell function.A simple method to recover intact high molecular weight RNA and DNA after electrophoretic separation in low gelling temperature agarose gels.In situ demonstration of DNA hybridizing with chromosomal and nuclear sap RNA in Chironomus tentansDemonstration of Balbiani ring RNA sequences in polysomes.Processing of pre-mRNA in polytene nuclei of Chironomus tentans salivary gland cells.The Balbiani ring 2 gene in Chironomus tentans is built from two types of tandemly arranged major repeat units with a common evolutionary originThe Balbiani ring 3 gene in Chironomus tentans has a diverged repetitive structure split by many introns.High-throughput RNA structure probing reveals critical folding events during early 60S ribosome assembly in yeast.Demonstration of a dynamic, transcription-dependent organization of pre-mRNA splicing factors in polytene nuclei.Chironomus tentans-repressor splicing factor represses SR protein function locally on pre-mRNA exons and is displaced at correct splice sites.
P50
Q27932039-E860F5DA-CA97-42A6-9772-38A9286BF78AQ27932767-E17E09F8-8915-41E7-9E68-868F986E5F2AQ27934964-B634D642-91C4-465B-8D94-1960155EC2A8Q27938937-858ABD69-36E9-4440-8B82-1AE70DE38174Q28483706-350562D7-8B5F-41E0-A66C-D429FD5D76C2Q30436302-C35F5946-310E-45F7-8437-B8A1F62D90E4Q30751759-6B263026-2E39-42BD-B3C4-08F6297C8AF5Q34317130-96842008-7067-4927-8F25-9EA058792BE0Q35761779-85500106-678F-4875-9BB0-ED4C4A5FC6BCQ36149408-77615A71-6329-4B61-A703-A1A81321E99FQ36321095-FBC19F41-8C28-4E2D-8577-1326BF104FF2Q36339972-18139158-A7BB-4176-847B-82DC64F615ABQ36760127-CA6FBCF1-679A-4BFF-B094-AA474D8BEFDCQ37017672-E33C0C80-1D9F-4940-973E-571B137084AEQ37124355-D85EB0C3-70B4-47C5-9554-D7D9A8D708D5Q37563595-590B273A-EB3E-4860-8AD3-44E851C60136Q37809760-B26C8A73-5FF5-48DF-842A-FDE52C4564B8Q38210592-EEA77F4D-AC7D-4E53-8BEF-350084637BBBQ38512688-5C22F81D-D216-42DE-BDE2-B0A9AF0F035AQ39185469-D69D67AE-DF18-4FF0-9660-41783979B1DBQ39193185-48E08E67-99EC-4BD4-B286-77C6987A622BQ39645223-7A956ABA-70A0-486B-B8EE-04C334210C7CQ39646820-98332244-E914-4AD7-B2EF-707D39FBC7D7Q39661968-D28A7314-0EEB-425A-8874-BA3F4BC1E970Q40392740-E5D3E362-2548-4FE4-A33D-4C148A89402AQ40399902-A0C2B812-FBE6-4D26-8192-BCE9D980A49EQ40445738-0A563882-BCD3-4DF1-8808-40B4730FBC64Q40534926-0D63EDC0-4191-4660-AFCA-7DF153C05600Q40545004-04BDB5DA-977C-4C1D-B6BC-98A3935FC1E1Q40559807-3DBA7383-E612-4B28-9B34-2BF610848FEAQ40639084-E69A70D4-070D-45AF-9B00-5CE15509BC17Q41114834-5B083BD1-E581-4832-8980-DF09942B70E8Q41154118-1BDD4E76-69CA-45CF-AE18-C865CE883941Q41216271-1378CA75-391C-4F82-84B7-5F25A82E1407Q41295478-32DAB4E3-4FCD-4197-A461-C7538CD05726Q41458056-7318146F-F23C-49DC-953F-2DA3200C7371Q41840020-79FFF18B-EB1A-4DD0-B308-12D28024057BQ41845731-5E71679F-24BD-4A87-8F60-B9F64F0BA1D4Q42772206-52C86257-9F39-4053-B66A-839EA2ABC548Q42786019-B7AA4211-BD6E-43DF-B954-3650A999168D
P50
description
Zweeds onderzoeker
@nl
hulumtues
@sq
researcher
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ricercatore
@it
taighdeoir
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հետազոտող
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name
Lars Wieslander
@ast
Lars Wieslander
@en
Lars Wieslander
@es
Lars Wieslander
@ga
Lars Wieslander
@nl
Lars Wieslander
@sl
Lars Wieslander
@sq
type
label
Lars Wieslander
@ast
Lars Wieslander
@en
Lars Wieslander
@es
Lars Wieslander
@ga
Lars Wieslander
@nl
Lars Wieslander
@sl
Lars Wieslander
@sq
prefLabel
Lars Wieslander
@ast
Lars Wieslander
@en
Lars Wieslander
@es
Lars Wieslander
@ga
Lars Wieslander
@nl
Lars Wieslander
@sl
Lars Wieslander
@sq
P1053
B-4670-2016
P106
P21
P213
0000 0001 3782 241X
P214
4113149198257674940007
P27
P31
P3829
P496
0000-0003-3271-6946
P735
P7859
viaf-4113149198257674940007