Systematic identification of protein complexes in Saccharomyces cerevisiae by mass spectrometry
about
Discovering novel cis-regulatory motifs using functional networksWhy do hubs in the yeast protein interaction network tend to be essential: reexamining the connection between the network topology and essentialityUnequal evolutionary conservation of human protein interactions in interologous networksA genome annotation-driven approach to cloning the human ORFeomeHuntingtin interacting proteins are genetic modifiers of neurodegenerationConsolidating the set of known human protein-protein interactions in preparation for large-scale mapping of the human interactome.Ulysses - an application for the projection of molecular interactions across species.Identification of functional modules using network topology and high-throughput data.A zebrafish screen for craniofacial mutants identifies wdr68 as a highly conserved gene required for endothelin-1 expressionPublishing perishing? Towards tomorrow's information architectureAn automated method for finding molecular complexes in large protein interaction networksNetwork compression as a quality measure for protein interaction networksLarge-scale assessment of the effect of popularity on the reliability of researchA systematic approach to infer biological relevance and biases of gene network structures.Temporal patterns of genes in scientific publicationsProteins interacting with cloning scars: a source of false positive protein-protein interactionsA quantitative protein interaction network for the ErbB receptors using protein microarraysA protein interaction network for Ecm29 links the 26 S proteasome to molecular motors and endosomal componentsLabel-free quantitative proteomics and SAINT analysis enable interactome mapping for the human Ser/Thr protein phosphatase 5A proteomics strategy to elucidate functional protein-protein interactions applied to EGF signalingCharacterization of the human heart mitochondrial proteomeBBS6, BBS10, and BBS12 form a complex with CCT/TRiC family chaperonins and mediate BBSome assemblyCrystal structure of the tetrameric Mad1-Mad2 core complex: implications of a 'safety belt' binding mechanism for the spindle checkpointA census of human soluble protein complexesDown-regulation of human RNA/DNA helicase SUV3 induces apoptosis by a caspase- and AIF-dependent pathwayInterdependence of Pes1, Bop1, and WDR12 controls nucleolar localization and assembly of the PeBoW complex required for maturation of the 60S ribosomal subunitThe human Pat1b protein: a novel mRNA deadenylation factor identified by a new immunoprecipitation techniqueExpression and genomic analysis of midasin, a novel and highly conserved AAA protein distantly related to dynein.Ataxin-2 interacts with the DEAD/H-box RNA helicase DDX6 and interferes with P-bodies and stress granulesSplicing factor 2-associated protein p32 participates in ribosome biogenesis by regulating the binding of Nop52 and fibrillarin to preribosome particlesA novel proteomic screen for peptide-protein interactionsA human MAP kinase interactomeWDRPUH, a novel WD-repeat-containing protein, is highly expressed in human hepatocellular carcinoma and involved in cell proliferationThe putative cancer stem cell marker USP22 is a subunit of the human SAGA complex required for activated transcription and cell-cycle progressionInosine 5'-monophosphate dehydrogenase binds nucleic acids in vitro and in vivoCharacterization of mammalian Ecm29, a 26 S proteasome-associated protein that localizes to the nucleus and membrane vesiclesCoordinate expression of NADPH-dependent flavin reductase, Fre-1, and Hint-related 7meGMP-directed hydrolase, DCS-1A PP2A phosphatase high density interaction network identifies a novel striatin-interacting phosphatase and kinase complex linked to the cerebral cavernous malformation 3 (CCM3) proteinA novel, evolutionarily conserved protein phosphatase complex involved in cisplatin sensitivitySHQ1 is required prior to NAF1 for assembly of H/ACA small nucleolar and telomerase RNPs
P2860
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
P248
Q21061187-0A4FA731-1FE8-48B4-B1DC-7BFCB45AE51CQ21092571-5D0C70FA-590D-410E-9C44-82ECB55222FFQ21092867-F29427B3-4630-44E6-8E92-ED4939FF6ABCQ21092885-1F09083A-23A8-4CAA-81C8-302C1161C211Q21145230-E52AC0FE-556D-4332-9488-BDA8E9ED06E8Q21184164-597C32A0-DF86-49ED-BF9D-2C7977B88942Q21184172-B8AC65D0-61D0-4E4E-9203-143B91BB3EB3Q21202795-AB688003-EA98-4A85-B5C2-F027F0363F69Q21284144-A694A6A0-5BA4-45CD-A7C2-A55534C12A84Q21284236-7E9DDA99-9A9D-484E-97FF-88F3BE2AE67EQ21284295-53318BB1-DB5F-494C-B0E5-47B0D506DEB2Q21560992-626F2A9D-444A-4F87-8359-A0A64AD7C08CQ24288728-50D35A3D-7D95-41C0-9C36-839620243967Q24289178-B903F715-4AA4-478E-A357-AF26100ACAC9Q24289269-8EA3F810-7DBB-4766-BA78-9AFEB697A570Q24289298-7F7AFFC9-3010-4B0F-88BF-E47080681245Q24293746-A9ED2A84-74BF-43CE-B3D2-CA4298F832D6Q24294383-CF5A4128-FF07-4069-905B-F4EC2FD1A45FQ24294415-19862B18-5E6A-4677-8A17-2B75D128217FQ24294449-ED42700D-EB69-4C20-973C-5A143570E463Q24294999-72E53DF4-72FC-4858-98DE-858A4B432340Q24295491-21112993-C575-40CB-BE27-067C29D9D356Q24297170-BE2ABFB9-7D8D-4F3A-82CE-F2CADE6AD7FCQ24297808-B1EA34C6-1A32-4397-A33C-2409713598DCQ24299795-EEB2F2DE-E715-44D5-A4B7-485FFAFD8F0DQ24299871-0B270567-A579-491C-AEB5-0978CB98396BQ24300195-57A19EB4-BB53-4EEA-81E4-12E72DE59E19Q24301018-B541B7E4-FB6F-487A-BD4C-A9A9A5D4CC79Q24301077-F76F3592-2324-4651-AC1E-07471040AC7DQ24301124-A6D2C4BC-6A53-456C-90F1-706131111CA9Q24302054-CCF7E668-1DD8-4446-B24D-FBF1E09AD7F7Q24302302-9976CBA6-C14A-4ED2-B742-A8EAAF985B01Q24305671-4FAB0099-58D3-4F16-98D5-31AD7F2C153CQ24307439-C05E851C-4332-4311-A2DA-91A54DED147FQ24307563-1CC587E7-1A4D-4C19-8F8B-FFAD674F40F7Q24307896-100F0DD0-1F17-40DC-9117-D31BC073CAA5Q24309646-5796532E-7F06-41B8-BB70-BD782737D0AAQ24311685-1802D66F-3562-4D8F-BAAA-FB8FE9E5245AQ24313389-22025695-8529-48B3-9A56-45DA58D291AAQ24317979-E62E0C9C-59A3-4BD4-8E83-55366C5E6DFD
P2860
Systematic identification of protein complexes in Saccharomyces cerevisiae by mass spectrometry
description
2002 nî lūn-bûn
@nan
2002 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
name
Systematic identification of p ...... erevisiae by mass spectrometry
@ast
Systematic identification of p ...... erevisiae by mass spectrometry
@en
Systematic identification of p ...... erevisiae by mass spectrometry
@nl
type
label
Systematic identification of p ...... erevisiae by mass spectrometry
@ast
Systematic identification of p ...... erevisiae by mass spectrometry
@en
Systematic identification of p ...... erevisiae by mass spectrometry
@nl
prefLabel
Systematic identification of p ...... erevisiae by mass spectrometry
@ast
Systematic identification of p ...... erevisiae by mass spectrometry
@en
Systematic identification of p ...... erevisiae by mass spectrometry
@nl
P2093
P50
P3181
P356
P1433
P1476
Systematic identification of p ...... erevisiae by mass spectrometry
@en
P2093
Adrian Heilbut
Albrecht Gruhler
Alexandre Podtelejnikov
Andrew R Willems
Anna Millar
Birgitte D Sørensen
Brenda Muskat
Christopher W V Hogue
Cris Alfarano
Daniel Figeys
P2888
P3181
P356
10.1038/415180A
P407
P577
2002-01-10T00:00:00Z
P5875
P6179
1005267371