Functional repurposing revealed by comparing S. pombe and S. cerevisiae genetic interactions
about
Identification of interphase functions for the NIMA kinase involving microtubules and the ESCRT pathway.A yeast phenomic model for the gene interaction network modulating CFTR-ΔF508 protein biogenesis.Surveillance of nuclear pore complex assembly by ESCRT-III/Vps4.Fission of SNX-BAR-coated endosomal retrograde transport carriers is promoted by the dynamin-related protein Vps1.Tiered assembly of the yeast Far3-7-8-9-10-11 complex at the endoplasmic reticulumRNAi screening comes of age: improved techniques and complementary approachesLEM2 recruits CHMP7 for ESCRT-mediated nuclear envelope closure in fission yeast and human cells.Systems level analysis of the Chlamydomonas reinhardtii metabolic network reveals variability in evolutionary co-conservation.Big data mining powers fungal research: recent advances in fission yeast systems biology approaches.Functional genomics platform for pooled screening and generation of mammalian genetic interaction maps.Tracking the evolution of 3D gene organization demonstrates its connection to phenotypic divergenceGenomic evidence for adaptation by gene duplication.All or nothing: protein complexes flip essentiality between distantly related eukaryotes.Evolutionarily conserved genetic interactions with budding and fission yeast MutS identify orthologous relationships in mismatch repair-deficient cancer cells.Dissection of Ire1 functions reveals stress response mechanisms uniquely evolved in Candida glabrata.A systematic mammalian genetic interaction map reveals pathways underlying ricin susceptibility.Integrated platform for genome-wide screening and construction of high-density genetic interaction maps in mammalian cells.SANTA: quantifying the functional content of molecular networks.A fungal sarcolemmal membrane-associated protein (SLMAP) homolog plays a fundamental role in development and localizes to the nuclear envelope, endoplasmic reticulum, and mitochondriaComparative 3D genome structure analysis of the fission and the budding yeast.Germinal Center Kinases SmKIN3 and SmKIN24 Are Associated with the Sordaria macrospora Striatin-Interacting Phosphatase and Kinase (STRIPAK) ComplexBeyond Agar: Gel Substrates with Improved Optical Clarity and Drug Efficiency and Reduced Autofluorescence for Microbial Growth Experiments.KRE5 Suppression Induces Cell Wall Stress and Alternative ER Stress Response Required for Maintaining Cell Wall Integrity in Candida glabrataThe Spontaneous Mutation Rate in the Fission Yeast Schizosaccharomyces pombe.ESCRTs breach the nuclear border.The unfolded protein response in fission yeast modulates stability of select mRNAs to maintain protein homeostasis.Synergistic drug combinations for cancer identified in a CRISPR screen for pairwise genetic interactionsThe contribution of systematic approaches to characterizing the proteins and functions of the endoplasmic reticulumEpigenetic epistatic interactions constrain the evolution of gene expression.AP2 hemicomplexes contribute independently to synaptic vesicle endocytosis.Systematic identification and correction of annotation errors in the genetic interaction map of Saccharomyces cerevisiae.Cross-species protein interactome mapping reveals species-specific wiring of stress response pathways.Genotype to phenotype via network analysis.Regulation of Ras localization and cell transformation by evolutionarily conserved palmitoyltransferasesSTRIPAK complexes: structure, biological function, and involvement in human diseases.Evolutionary cell biology of chromosome segregation: insights from trypanosomes.SOcK, MiSTs, MASK and STicKs: the GCKIII (germinal centre kinase III) kinases and their heterologous protein-protein interactions.From cradle to grave: high-throughput studies of aging in model organisms.Endoplasmic reticulum stress response in yeast and humans.STRIPAK complexes in cell signaling and cancer.
P2860
Q27316630-0FB2C000-DD9F-49D1-8680-5CCC6D03BE96Q27931694-8F2C6AB4-C5BC-41DD-A12B-2B0C97BF4760Q27937027-68B17478-104F-4474-AA5F-78511E690728Q27938179-9E193D78-4BB5-4FEE-8664-A1213DFE5BDCQ27939085-B0D97642-C911-491C-BAC8-B8A284C5FB34Q28654521-702E7C71-FAE6-4F60-9C05-43AC89E526EFQ29977774-54103083-C8FB-4821-A9B2-9BF0CB466F0BQ30276470-91A19581-A5E3-408B-8DE7-AFACEF9D05C5Q31136180-DC14184E-D400-4C8A-8D89-9FD57CCF335CQ31172555-885A4EC5-57B0-418A-885C-9277660031B2Q33636006-22531932-83A4-41B9-B9BB-93BED314A861Q33994854-A3F5B29B-48D1-4E18-BD71-6024A4740179Q34036638-9D49E034-1A28-4E12-9C06-A9F8B929D23CQ34306599-C6919BE5-FE0C-4843-861E-474914BAB7D1Q34574891-75A56429-EB3A-461F-BCC6-EAAEB8E6441DQ34581520-C9472CE5-880C-4073-9030-27F67F4BD0E0Q34759985-DD968BAF-0B5F-40D0-B457-5E9E7D3CDC25Q35247564-18A2B392-AA10-4C5B-9D9D-660792B6DC04Q35273150-50A8E861-F848-4900-B035-BC6FE557173CQ35584337-87D99C4B-B63F-4E4E-A15A-06855D48BF9BQ35791768-5A1243AB-F5E7-4038-AA2A-44467F787811Q35876448-22CC8325-3F47-479B-A4A1-A76B3A987C74Q36109051-42D93E64-343C-4B74-9406-883182B869BCQ36132354-0B2887A6-183B-4A4A-843A-9EA33B4724DEQ36189597-050F3490-3E29-4959-BB0A-F801F0B8468FQ36314567-0851053B-F776-48B5-B637-20577AB3806FQ36314597-01170CCA-757C-45A9-804D-06F040EC307FQ36626677-C6EB64F8-D1FB-42E5-A390-6A5FBF263DDAQ36658548-D1FD6AF8-2F0D-404F-B949-A97883B94374Q36666714-E3E3E404-5FD8-4956-B193-BC80859A17D3Q36701055-AF5358EF-3B01-4CE1-BD49-424507D7CB64Q37184407-AC7E3F01-5E60-4108-BE95-746FB3A14A9DQ37399103-0C0A38F7-36D4-4BBF-8324-8B57B55C5C7DQ37546926-490A1E7D-39B2-46DF-95A9-490ED9FDF38BQ37590616-CC843E94-41E3-4707-91FF-8304AB92025BQ38103341-4EBEE4AC-E150-4DFF-90D5-1D3AA86A14CAQ38124367-CC8686EC-CCA5-4E67-9ECB-D7AC84699060Q38188810-F00E7B24-F39B-49B5-8E35-618423ECB8A9Q38218597-C6499DFA-217E-4D46-B25E-E3ED93D331E7Q38733181-BE82687E-2F0C-4BCC-AAAA-492B52DD4E4A
P2860
Functional repurposing revealed by comparing S. pombe and S. cerevisiae genetic interactions
description
2012 nî lūn-bûn
@nan
2012 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2012 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
name
Functional repurposing reveale ...... erevisiae genetic interactions
@ast
Functional repurposing reveale ...... erevisiae genetic interactions
@en
Functional repurposing reveale ...... erevisiae genetic interactions
@nl
type
label
Functional repurposing reveale ...... erevisiae genetic interactions
@ast
Functional repurposing reveale ...... erevisiae genetic interactions
@en
Functional repurposing reveale ...... erevisiae genetic interactions
@nl
prefLabel
Functional repurposing reveale ...... erevisiae genetic interactions
@ast
Functional repurposing reveale ...... erevisiae genetic interactions
@en
Functional repurposing reveale ...... erevisiae genetic interactions
@nl
P2093
P2860
P50
P3181
P1433
P1476
Functional repurposing reveale ...... erevisiae genetic interactions
@en
P2093
Adam Frost
Clinton Ives
Lakshmi Miller-Vedam
Marc G Elgort
Matthias Mann
Onn Brandman
P2860
P304
P3181
P356
10.1016/J.CELL.2012.04.028
P407
P577
2012-06-08T00:00:00Z