about
Rodent phylogeny revised: analysis of six nuclear genes from all major rodent cladesFastML: a web server for probabilistic reconstruction of ancestral sequencesConSurf 2005: the projection of evolutionary conservation scores of residues on protein structuresIndel reliability in indel-based phylogenetic inferenceThe interface of protein structure, protein biophysics, and molecular evolutionState-of the art methodologies dictate new standards for phylogenetic analysisConSurf 2010: calculating evolutionary conservation in sequence and structure of proteins and nucleic acidsA fast algorithm for joint reconstruction of ancestral amino acid sequencesComparative analysis identifies exonic splicing regulatory sequences--The complex definition of enhancers and silencersEvolutionary modeling of rate shifts reveals specificity determinants in HIV-1 subtypesCombined Analysis of Variation in Core, Accessory and Regulatory Genome Regions Provides a Super-Resolution View into the Evolution of Bacterial PopulationsA covarion-based method for detecting molecular adaptation: application to the evolution of primate mitochondrial genomesConSurf: identification of functional regions in proteins by surface-mapping of phylogenetic informationThe ConSurf-HSSP database: the mapping of evolutionary conservation among homologs onto PDB structures.GUIDANCE: a web server for assessing alignment confidence scores.Combining multiple data sets in a likelihood analysis: which models are the best?Selecton: a server for detecting evolutionary forces at a single amino-acid site.Paths of lateral gene transfer of lysyl-aminoacyl-tRNA synthetases with a unique evolutionary transition stage of prokaryotes coding for class I and II varieties by the same organisms.Epitope mapping using combinatorial phage-display libraries: a graph-based algorithm.Stepwise prediction of conformational discontinuous B-cell epitopes using the Mapitope algorithm.The "alternative" choice of constitutive exons throughout evolution.Transfer of noncoding DNA drives regulatory rewiring in bacteriaGenome-scale identification of Legionella pneumophila effectors using a machine learning approachInference and characterization of horizontally transferred gene families using stochastic mappingAn evolutionary analysis of lateral gene transfer in thymidylate synthase enzymes.Phosphatidylserine increases IKBKAP levels in familial dysautonomia cellsAn alignment confidence score capturing robustness to guide tree uncertaintyChanges in exon-intron structure during vertebrate evolution affect the splicing pattern of exons.Identification of novel Coxiella burnetii Icm/Dot effectors and genetic analysis of their involvement in modulating a mitogen-activated protein kinase pathway.Deep Panning: steps towards probing the IgOme.Pepitope: epitope mapping from affinity-selected peptides.Revealing bacterial targets of growth inhibitors encoded by bacteriophage T7.Synonymous site conservation in the HIV-1 genomeNative homing endonucleases can target conserved genes in humans and in animal models.Inference of gain and loss events from phyletic patterns using stochastic mapping and maximum parsimony--a simulation study.A machine learning approach to identify hydrogenosomal proteins in Trichomonas vaginalis.Assessing the prediction fidelity of ancestral reconstruction by a library approach.GUIDANCE2: accurate detection of unreliable alignment regions accounting for the uncertainty of multiple parametersSelecton 2007: advanced models for detecting positive and purifying selection using a Bayesian inference approachLarge-scale comparative analysis of splicing signals and their corresponding splicing factors in eukaryotes.
P50
Q21093400-4750EAAF-592B-4662-AE7A-4767A1C577A4Q24498093-43649F6E-92EA-47C8-97CB-9BBF59830BADQ24812180-2D43FD3C-D294-43B4-B697-05EC5ED4C14FQ26779526-390D7D3E-2556-46C9-B01D-FA80DC761BBBQ26863623-0C846CDC-718A-4760-8AD6-B68085E8B1B1Q27023650-AD27B864-DA0C-4AEB-A3EF-895CA0F18934Q27860850-32BE75CD-FBD9-46D1-957C-142E009C738AQ28145427-0C4FB28E-8AB6-4E2B-8B9F-4E36060DF795Q28247879-BAE0788C-4F43-4161-8D83-2FEFB32ED70FQ28473878-B987B423-FA18-43AF-9BE8-8136254177B9Q28554017-C567CA8D-4EB2-4592-A935-FAE8E1D09F48Q28765687-87563270-B8FF-46FC-9679-C0BA768EBDE3Q29547192-26884BB5-C92D-4526-8CC1-DB6BB5839F9AQ30349877-AB976476-025F-4E26-8D86-56DFBBE939A2Q30484518-73DB224E-890D-4B26-9A68-304E5B4BACDCQ30748204-F5EF2876-CF0E-43F2-9D20-45A586ED8CE4Q31140943-EC2392C5-E3DF-4325-A4B6-9CBA9D19866BQ33236101-9F973FFC-1B9C-43AE-AB62-DA3D9B8BD280Q33265689-362C1783-B80C-48AC-9425-C9CF5ACE2E44Q33281773-C0F662E3-61CD-4507-9DFD-C0AA75ACC1A0Q33306111-248C0962-CD10-4617-97F7-1179B3AAE9DBQ33359280-6D423111-4709-447B-A91A-4BC94A5F67FFQ33480961-EFFE6302-D51E-4220-8277-D58BCC19CAC0Q33654633-0C4320BA-F26E-4B5A-8B92-8ACACF987A04Q33677595-1D93258A-C93E-4283-882C-83878ACC98A3Q33786976-3A46C0D2-134D-4B03-A0F9-85B6525C258BQ34014420-2DE20855-63AF-4940-B619-FFDE0FD0B1A6Q34221537-072C01A1-DF88-4D77-8FEF-F695AF340EB8Q34298317-D9C6FDE4-2806-47EA-9708-16C64B6D8C77Q34368932-CC256F3E-4A5A-4EA0-A403-091F84048FE9Q34708595-38C4B8C8-1A60-4E93-8785-E32CEE4B9564Q34832269-C6C4CE0B-8C87-4371-A02A-A0B1EB399D75Q34893298-11B00BAB-5734-4835-9368-E51BD92D87F6Q35174685-A514901D-928E-4934-83F5-C44045AF9726Q35547349-7ADFE5EB-6AF2-4B3E-91AF-4B7F7AAB72E6Q35738981-8EB8056F-69A3-49EE-8056-5FB467BA0744Q35746785-B474FEAC-7ABC-4D6D-8195-70346EAA7C1DQ35810115-CAB2A1F1-C805-49CF-A286-20438CD30111Q35914100-0A3BC34B-0C9D-4DD3-B1EC-6EA8B5B41D3FQ36259275-CB21F997-5C49-4911-98E6-3BF877A2CAA4
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Tal Pupko
@ast
Tal Pupko
@en
Tal Pupko
@es
Tal Pupko
@fr
Tal Pupko
@nl
Tal Pupko
@sl
type
label
Tal Pupko
@ast
Tal Pupko
@en
Tal Pupko
@es
Tal Pupko
@fr
Tal Pupko
@nl
Tal Pupko
@sl
prefLabel
Tal Pupko
@ast
Tal Pupko
@en
Tal Pupko
@es
Tal Pupko
@fr
Tal Pupko
@nl
Tal Pupko
@sl
P106
P2456
P31
P496
0000-0001-9463-2575