about
The LHCb Detector at the LHCGenome-wide association study of CNVs in 16,000 cases of eight common diseases and 3,000 shared controlsDirectional collective cell migration emerges as a property of cell interactionsMeasurement of the Bs(0) lifetime using semileptonic decaysObservation and properties of the X(3872) decaying to J/psipi(+)pi(-) in pp collisions at sqrt[s]=1.96 TeVExperimental Discrimination between Charge 2 e / 3 Top Quark and Charge 4 e / 3 Exotic Quark Production ScenariosDirect Limits on the B s 0 Oscillation FrequencyEvidence for Production of Single Top Quarks and First Direct Measurement of | V t b |A genome-wide association study confirms VKORC1, CYP2C9, and CYP4F2 as principal genetic determinants of warfarin doseOrigins and functional impact of copy number variation in the human genomeGenome-wide screen for metabolic syndrome susceptibility Loci reveals strong lipid gene contribution but no evidence for common genetic basis for clustering of metabolic syndrome traitsIntegrating common and rare genetic variation in diverse human populationsA framework for parameter estimation and model selection from experimental data in systems biology using approximate Bayesian computation.ABC-SysBio--approximate Bayesian computation in Python with GPU support.GPU accelerated biochemical network simulation.Founder population-specific HapMap panel increases power in GWA studies through improved imputation accuracy and CNV tagging.Calibrating spatio-temporal models of leukocyte dynamics against in vivo live-imaging data using approximate Bayesian computation.A theoretical framework for the regulation of Shh morphogen-controlled gene expressionModel selection in systems biology depends on experimental design.Bayesian design of synthetic biological systems.Ptch1 and Gli regulate Shh signalling dynamics via multiple mechanisms.SMN1 gene duplications are associated with sporadic ALS.Independent estimation of the frequency of rare CNVs in the UK population confirms their role in schizophrenia.Mechanistic Modelling and Bayesian Inference Elucidates the Variable Dynamics of Double-Strand Break Repair.A computational method for the investigation of multistable systems and its application to genetic switches.Robustness of MEK-ERK Dynamics and Origins of Cell-to-Cell Variability in MAPK Signaling.Reciprocal duplication of the Williams-Beuren syndrome deletion on chromosome 7q11.23 is associated with schizophrenia.A robust statistical method for case-control association testing with copy number variation.Computational design approaches and tools for synthetic biology.Designing attractive models via automated identification of chaotic and oscillatory dynamical regimes.Catch my drift? Making sense of genomic intra-tumour heterogeneity.Identification of neutral tumor evolution across cancer types.Bayesian design strategies for synthetic biologyA Statistical Approach Reveals Designs for the Most Robust Stochastic Gene Oscillators.On optimality of kernels for approximate Bayesian computation using sequential Monte Carlo.Clinical drug resistance linked to interconvertible phenotypic and functional states of tumor-propagating cells in multiple myeloma.Reply: Uncertainties in tumor allele frequencies limit power to infer evolutionary pressures.Reduced burden of very large and rare CNVs in bipolar affective disorder.Mathematical models help explain experimental data. Response to 'Transcriptional interpretation of Shh morphogen signaling: computational modeling validates empirically established models'.Measurement of dijet azimuthal decorrelations at central rapidities in pp collisions at sqrt s =1.96 TeV.
P50
Q21994527-2CE040F1-20E5-4FAD-9CEA-A37386D5F311Q24628710-16AD59D4-522F-446A-8C7E-F57F9DFA3F4EQ27315012-D6F697DC-9542-4EC4-96C5-12EBB816377CQ27340392-9F2A7A25-1068-4622-85EC-1B1EE1BD3826Q27345508-63F19B8E-6057-48C6-8AD2-4AE0E6914B13Q27349997-5850542A-476D-46E1-BAD9-4A7AEF20FED4Q27350737-B1383B40-BEB5-43CE-A204-97601F39E1CDQ27454610-EE61378A-5183-4F75-9BE5-EB8D1A3C1CECQ28475004-837BFE95-4B5A-4ADE-BBFD-9A45B3FB490BQ28730507-84B5AAE5-FB86-4679-A119-1DF9675F6F08Q28943337-91D855B1-BD79-4076-901D-B4830BCDFD33Q29547220-B571BFFD-1F07-4244-9D24-1D3ED1AC4CEBQ30741216-7802B49A-92CC-4D23-81AC-CA68D60D3E9DQ33622196-9005B693-1787-4B42-A14D-3437C59B1D52Q33790734-390123D3-E36E-492C-AA5D-448030717FC7Q34153597-4FE6CBB2-DF64-4799-822B-F992B6334903Q34156838-EC20C8E8-DB27-40C0-8EDA-EE2E2B3281B8Q34341804-61398142-5CD4-44C5-8B97-A3C483ADDCFEQ35186818-CA7CEC44-BD3D-41BD-B199-18DD8036641DQ35216924-0F721F8A-8CFD-44DC-BE72-823D620E3681Q35407375-B634BC5A-AAAE-4D04-838D-7EBC6F23FE32Q35833523-0CF99D62-49F2-4CC4-90D6-211921A7E8E9Q35861470-98F41053-F35F-4053-84A0-5B2A378CF983Q36163627-8769B0A2-F197-4AAE-88CC-1769985CDE7BQ36215279-9F5FBB3E-2014-4FAE-84F4-62B73173C584Q37023543-0934AF3E-BBFA-40B6-BFDF-C9FAA47EE701Q37337299-C5014B68-4198-4DED-81A7-63092B9E27ADQ37443927-9A08862B-1AF4-4523-BAF1-BC5E0358F815Q37831809-B47C5FDA-FF45-4F66-B7CA-B20F81F6D529Q38469889-0CCBA9E6-3287-42B1-8D38-1FEF371EA4BAQ39030893-29F0D163-4BFB-40D5-A9E8-AF17D060EBA8Q40093976-9F41A5EE-29C3-4FFF-8BE5-7CD0022AADA4Q40538554-7E52CF73-E017-403C-A6C3-85DF66505EECQ42578914-40E3675A-8083-4D10-AA9C-2437C70E7AADQ45181604-8236FC65-DB3D-46CB-A6FA-0B1CF0CCC521Q46027082-34366230-72F6-4ACC-ACF5-DD3EF87F76F6Q47708938-DFC969DC-1929-40AE-A8CF-1B6D5207C84EQ50309743-055B0D46-834C-4006-8132-70EE8756F78AQ50643974-3DD311D0-4487-4550-B8DA-98C0D4D2437BQ50759063-CEAF7268-F1E9-49F6-A02C-4F7EA163E470
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Chris Barnes
@ast
Chris Barnes
@en
Chris Barnes
@es
Chris Barnes
@nl
Chris Barnes
@sl
type
label
Chris Barnes
@ast
Chris Barnes
@en
Chris Barnes
@es
Chris Barnes
@nl
Chris Barnes
@sl
prefLabel
Chris Barnes
@ast
Chris Barnes
@en
Chris Barnes
@es
Chris Barnes
@nl
Chris Barnes
@sl
P106
P1153
24764733700
P21
P31
P496
0000-0002-9459-1395