about
Identification of human proteins that modify misfolding and proteotoxicity of pathogenic ataxin-1MedlineRanker: flexible ranking of biomedical literatureDevelopment and application of a DNA microarray-based yeast two-hybrid systemSynSysNet: integration of experimental data on synaptic protein-protein interactions with drug-target relationsA Comprehensive View of the β-Arrestinome.Protein conservation and variation suggest mechanisms of cell type-specific modulation of signaling pathways.Functional and genomic analyses of alpha-solenoid proteins.HIPPIE: Integrating protein interaction networks with experiment based quality scores.Adding protein context to the human protein-protein interaction network to reveal meaningful interactions.Characterizing protein interactions employing a genome-wide siRNA cellular phenotyping screen.Evolution and function of CAG/polyglutamine repeats in protein-protein interaction networks.Cell type-specific properties and environment shape tissue specificity of cancer genes.HIPPIE v2.0: enhancing meaningfulness and reliability of protein-protein interaction networks.Correcting for the study bias associated with protein-protein interaction measurements reveals differences between protein degree distributions from different cancer types.Aggregation of polyQ-extended proteins is promoted by interaction with their natural coiled-coil partnersCrossLink: visualization and exploration of sequence relationships between (micro) RNAsThe cis-regulatory code of Hox function in Drosophila.A network of epigenetic modifiers and DNA repair genes controls tissue-specific copy number alteration preference.The cis-regulatory code of Hox function in Drosophila.Tissue-specific subnetworks and characteristics of publicly available human protein interaction databases.Spatiotemporal Proteomic Profiling of Huntington's Disease Inclusions Reveals Widespread Loss of Protein Function.Negative selection in tumor genome evolution acts on essential cellular functions and the immunopeptidome.Tissue-specific DNA methylation loss during ageing and carcinogenesis is linked to chromosome structure, replication timing and cell division ratesTranslational efficiency across healthy and tumor tissues is proliferation-relatedTranslational adaptation of human viruses to the tissues they infect
P50
Q21144909-FCAC83D2-963D-4867-8E81-ECC5BE48ABF2Q22242846-356B5CFA-C0BF-43B4-87E0-C45A3AA69E7DQ24307459-3054F99E-EEE9-40E4-A3C4-D20965A2D876Q30577130-0EEC9F8F-EF0D-498E-AF3F-57087E3EDDEBQ30840655-63A529A4-241F-4A01-8D24-A7F8E3FF49DBQ33747611-9D90B76B-BFCF-4736-8464-6A85CCFCDFD1Q34039121-7EBDF4C7-BB42-4C9E-837F-60C1A0AA0598Q34163733-7FC642F4-23D1-4128-A0D7-89236DA6182CQ34539744-2AD86189-0D89-4FE9-A8D8-EE4BAA105B34Q35276881-DC8ACC0A-3E70-4717-913C-ACA74075C621Q36044701-5A38DBBC-19E8-4574-9BD0-8EAC62A45454Q36559901-4D7535F3-9DFE-4CE1-87C0-629C87334271Q39235654-01E21CEE-D200-4577-8027-DA1073D4197EQ40614200-9FDACE1F-EF5A-4351-9B24-12920D3FFB5CQ42142509-B9E84312-969F-4F66-B707-A8EB44A8CEE8Q42150540-BC6D212E-AD10-49AC-8078-18028B3AF0A6Q42260319-819E933B-BAA5-4113-9814-EA95A0CD51E0Q42363667-454E33CD-97A3-4716-B444-9B60936EC27DQ43125047-1723AE21-5DDA-4AE4-BD64-B4D5DEBAE9B9Q44408592-1309AFC1-11BB-4133-80DE-B178DF35480BQ47232763-779C4BC3-29BC-4BD2-A7C0-8B0D10A174D3Q55069302-EE29D852-8C9E-45C9-8271-944BAD192086Q89076128-51943F85-7C22-4E0D-A4BE-6B6FCF984289Q90154798-2CD3E89F-0A50-460A-9BBC-955D9015DE8AQ95627600-130B760E-419E-4E2E-8C94-EC781A786DD1
P50
description
researcher
@en
հետազոտող
@hy
name
Martin Schaefer
@ast
Martin Schaefer
@en
Martin Schaefer
@es
Martin Schaefer
@nl
Martin Schaefer
@sl
type
label
Martin Schaefer
@ast
Martin Schaefer
@en
Martin Schaefer
@es
Martin Schaefer
@nl
Martin Schaefer
@sl
prefLabel
Martin Schaefer
@ast
Martin Schaefer
@en
Martin Schaefer
@es
Martin Schaefer
@nl
Martin Schaefer
@sl
P108
P106
P2456
155/2566-1
P31
P496
0000-0001-7503-6364