about
Genomewide pharmacogenomic study of metabolic side effects to antipsychotic drugsInfluence of life stress on depression: moderation by a polymorphism in the 5-HTT geneRole of genotype in the cycle of violence in maltreated childrenGenotype-based ancestral background consistently predicts efficacy and side effects across treatments in CATIE and STAR*DA comprehensive family-based replication study of schizophrenia genesIn silico whole genome association scan for murine prepulse inhibition.Large-scale neurochemical metabolomics analysis identifies multiple compounds associated with methamphetamine exposureRefinement of schizophrenia GWAS loci using methylome-wide association data.Genome-wide pharmacogenomic analysis of response to treatment with antipsychotics.SNP-based analysis of neuroactive ligand-receptor interaction pathways implicates PGE2 as a novel mediator of antipsychotic treatment response: data from the CATIE studyModeration of the effect of adolescent-onset cannabis use on adult psychosis by a functional polymorphism in the catechol-O-methyltransferase gene: longitudinal evidence of a gene X environment interaction.Genome-wide and gene-based association studies of anxiety disorders in European and African American samplesGenome-wide pharmacogenomic study of neurocognition as an indicator of antipsychotic treatment response in schizophrenia.Genomewide association study of movement-related adverse antipsychotic effects.Methylome-wide association study of schizophrenia: identifying blood biomarker signatures of environmental insultsCombined Whole Methylome and Genomewide Association Study Implicates CNTN4 in Alcohol UseNeurochemical Metabolomics Reveals Disruption to Sphingolipid Metabolism Following Chronic Haloperidol AdministrationDeep Sequencing of 71 Candidate Genes to Characterize Variation Associated with Alcohol Dependence.High density methylation QTL analysis in human blood via next-generation sequencing of the methylated genomic DNA fractionThe influence of five monoamine genes on trajectories of depressive symptoms across adolescence and young adulthood.Genes, environments, and developmental research: methods for a multi-site study of early substance abuseAKT1 is associated with schizophrenia across multiple symptom dimensions in the Irish study of high density schizophrenia familiesA systematic method for estimating individual responses to treatment with antipsychotics in CATIE.A methylome-wide study of aging using massively parallel sequencing of the methyl-CpG-enriched genomic fraction from blood in over 700 subjects.Genome-wide association study of patient-rated and clinician-rated global impression of severity during antipsychotic treatmentBehavioral metabolomics analysis identifies novel neurochemical signatures in methamphetamine sensitizationMBD-seq as a cost-effective approach for methylome-wide association studies: demonstration in 1500 case--control samples.Deep Sequencing of Three Loci Implicated in Large-Scale Genome-Wide Association Study Smoking Meta-Analyses.Genetics and diagnostic refinement.(1)H nuclear magnetic resonance metabolomics analysis identifies novel urinary biomarkers for lung function.Variance component analysis of polymorphic metabolic systems.Catechol-O-methyltransferase and the clinical features of psychosis.A region of 35 kb containing the trace amine associate receptor 6 (TAAR6) gene is associated with schizophrenia in the Irish study of high-density schizophrenia families.Initial characterization of behavior and ketamine response in a mouse knockout of the post-synaptic effector gene Anks1b.High-Throughput Single-Nucleotide Polymorphism Genotyping by Fluorescent Competitive Allele-Specific Polymerase Chain Reaction (SNiPTag)Institutional Profile: The Center for Biomarker Research and Personalized Medicine at Virginia Commonwealth University: advancing psychiatric drug treatmentMicrobial genetics: Split genes uncovered through science fusionBuilding a schizophrenia genetic network: transcription factor 4 regulates genes involved in neuronal development and schizophrenia riskDNA methylation and histone acetylation changes to cytochrome P450 2E1 regulation in normal aging and impact on rates of drug metabolism in the liverThe ANKS1B gene and its associated phenotypes: focus on CNS drug response
P50
Q24630309-70B8957D-5DD2-4AB5-B0A3-EBCF7C2346F7Q27860482-40287F35-27AD-4AB0-B9E1-C1592A615AC5Q28216871-B844AB97-F17B-4DA7-8E74-C1A94ED9480DQ28486019-EEFF3F59-2E81-469D-BCF3-E8A0FC35C9B6Q29417040-C30A7DB2-67BA-4745-A09C-A0C2B7654ACBQ30490152-D268E45E-CB35-4DD7-8326-2AD77E260062Q30538147-7BF4ECA4-A623-4140-92F8-39365B021A58Q30857458-D6FB8B69-8DE3-4816-8D9C-82C308C292F8Q33926334-C8A96942-D283-43F0-A89E-4A15E59B91ACQ34078643-00FDEB15-3545-48DF-B625-D4EFB1CF469EQ34415424-16357AA1-1326-4515-9B1D-6A3735DB35D2Q34447563-FC7E461F-FDCC-4EC6-B0C2-BF38AFF20F92Q34661875-CB6C259B-336D-4C22-9A6B-8EC839BB6552Q35010386-A9404625-7630-4148-B365-7E0630F9720AQ35090701-026F439E-C737-4D08-8651-4567AE5C9F21Q35889359-4CE525FE-24D8-4FEA-A018-1F601F9C4EABQ35987580-90D37613-3AE4-4B08-91E7-37B5E738CB10Q36280198-1FE3DB7C-D11A-414B-B385-1ACC16B8A7F1Q36424823-BE00FDC5-957C-4DE5-A414-DFA216407D1DQ36448838-C74F42B4-E996-405D-B274-6536BE012B29Q36721624-7A4ADC5D-DD31-427D-9621-C14A5D0E5D9EQ36739834-71F203DE-034B-4A9E-BA40-F571AC8BC571Q37120211-D092B28B-C6B7-4AF8-AB59-FBEB2CA950E0Q37572145-428E0FFC-5306-484F-AB7D-45F3A735477EQ37581282-4A6822F6-D963-4796-89DA-9694C6B66FD4Q37581290-087DA08B-C42D-4DD7-8B59-A5EA25459FC9Q37581443-FAF439AF-48DA-4895-B983-049944FD86D1Q41474054-577A92FC-2331-4CE0-96C4-722844B6BE45Q42605907-510543B6-C794-4D06-AD43-B4F93E1A8D93Q43090703-2D4A0CB4-D78B-456F-9992-5DE19134481DQ44915281-9AC4C080-4EF4-498D-975C-3A15BDBA8A1EQ44922685-2DBA6EF7-764D-4B9C-B28C-950E2F1DCE56Q44929435-2947EFC8-9868-4F30-B4C2-0E80E0AE888EQ45051325-513E26EE-9B45-4C89-91F5-70F95141D326Q60641465-FD7F9F4A-2ECA-43B1-976C-F06ACDC2AD47Q61422574-622F683E-E4D5-4642-A7FE-285F33521699Q61422700-EED521BF-7B2A-4455-9623-E735CF24668AQ89113653-6B835AB4-7266-4C6C-BA50-79A035755CF5Q90716412-DCF9076F-D8D5-4763-B091-D276BC9F064DQ93097385-EABC2EDD-9D0E-43CA-8EFC-351CDCDB0A42
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Joseph L. McClay
@ast
Joseph L. McClay
@en
Joseph L. McClay
@es
Joseph L. McClay
@nl
Joseph L. McClay
@sl
type
label
Joseph L. McClay
@ast
Joseph L. McClay
@en
Joseph L. McClay
@es
Joseph L. McClay
@nl
Joseph L. McClay
@sl
prefLabel
Joseph L. McClay
@ast
Joseph L. McClay
@en
Joseph L. McClay
@es
Joseph L. McClay
@nl
Joseph L. McClay
@sl
P106
P1153
8627461600
P21
P31
P496
0000-0002-3628-2447