Biological insights from 108 schizophrenia-associated genetic loci.
paper
Cited
Public
- Authors
- Schizophrenia Working Group of the Psychiatric Genomics Consortium
- Year
- 2014
- Journal
- Nature
- PMID
- 25056061
- DOI
- 10.1038/nature13595
- PMCID
- PMC4112379
Schizophrenia is a highly heritable disorder. Genetic risk is conferred by a large number of alleles, including common alleles of small effect that might be detected by genome-wide association studies. Here we report a multi-stage schizophrenia genome-wide association study of up to 36,989 cases and 113,075 controls. We identify 128 independent associations spanning 108 conservatively defined loci that meet genome-wide significance, 83 of which have not been previously reported. Associations were enriched among genes expressed in brain, providing biological plausibility for the findings. Many findings have the potential to provide entirely new insights into aetiology, but associations at DRD2 and several genes involved in glutamatergic neurotransmission highlight molecules of known and potential therapeutic relevance to schizophrenia, and are consistent with leading pathophysiological hypotheses. Independent of genes expressed in brain, associations were enriched among genes expressed in tissues that have important roles in immunity, providing support for the speculated link between the immune system and schizophrenia.
Manhattan plotManhattan plot of the discovery genome-wide association meta-analysis of 49 case control samples (34,241 cases and 45,604 controls) and 3 family based association studies (1,235 parent affected-offspring trios). The x-axis is chromosomal position and the y-axis is the significance of association (−log10(P)).The red line shows the genome-wide significance level (5×10−8). SNPs in green are in LD with the index SNPs (diamonds) which represent independent genome-wide significant associations.
EpistasisQuantile-quantile plot for all pair-wise (N=7750) combinations of the 125 independent autosomal genome-wide significant SNPs tested for non-additive effects on risk using case-control datasets of European ancestry (32,405 cases and 42,221 controls). We included as covariates the principal components from the main analysis as well as a study indicator. The interaction model is described by: Y=β0+β1X1+β2X2+β3∗X1∗X2+β4X4+β5X5 X1 and X2 are genotypes at the two loci, X1*X2 is the interaction between the two genotypes modeled in a multiplicative fashion, X4 is the vector of principal components, X5 is the vector of study indicator variables. Each β is the regression coefficient in the generalized linear model using logistic regression. The overall distribution of P-values did not deviate from the null and the smallest P-value (4.28×10−4) did not surpass the Bonferroni correction threshold (p=0.05/7750= 6.45×10−6). The line x=y indicates the expected null distribution with the grey area bounded by red lines indicating the expected 95% confidence interval for the null.
Enrichment in enhancersCell and tissue type specific enhancers were identified using ChIP-seq datasets (H3K27ac signal) from 56 cell line and tissue samples (Y-axis). We defined cell and tissue type enhancers as the top 10% of enhancers with the highest ratio of reads in that cell or tissue type divided by the total number of reads. Enrichment of credible causal associated SNPs from the schizophrenia GWAS was compared with frequency matched sets of 1000 Genomes SNPs (Supplementary Text). The X-axis is the −log10(P) for enrichment. P-values are uncorrected for the number of tissues/cells tested. A −log10(P) of roughly 3 can be considered significant after Bonferroni correction. Descriptions of cell and tissue types at the Roadmap Epigenome website (http://www.roadmapepigenomics.org).
Odds ratio by risk score profileOdds ratio for schizophrenia by risk score profile (RPS) decile in the Sweden (Sw1-6), Denmark (Aarhus), and Molecular Genetics of Schizophrenia studies (Supplementary text). Risk alleles and weights were derived from ‘leave one out’ analyses in which those samples were excluded from the GWAS meta-analysis (Supplementary text). The threshold for selecting risk alleles was PT < 0.05. The RPS were converted to deciles (1=lowest, 10=highest RPS), and nine dummy variables created to contrast deciles 2-10 to decile 1 as the reference. Odds ratios and 95% confidence intervals (bars) were estimated using logistic regression with PCs to control for population stratification.
Homogeneity of Effects Across StudiesPlot of the first two principal components (PC) from principal components analysis (PCA) of the logistic regression β coefficients for autosomal genome-wide significant associations. The input data were the β coefficients from 52 samples for 112 independent SNP associations (excluding 3 chrX SNPs and 13 SNPs with missing values in Asian samples). PCAs were weighted by the number of cases. Each circle shows the location of a study on PC1 and PC2. Circle size and colour are proportional to the number of cases in each sample (larger and redder circles correspond to more cases). Most samples cluster. Outliers had either small numbers of cases (“small”) or were genotyped on older arrays. Abbreviations. a500 (Affymetrix 500K); a5 (Affymetrix 5.0). Studies that did not use conventional research interviews are in the central cluster (CLOZUK, Sweden, and Denmark-Aarhus studies).
Quantile-quantile plotQuantile-quantile plot of GWAS meta-analysis. Expected −log10(P) -values are those expected under the null hypothesis. For clarity, we avoided expansion of the Y-axis by setting association P-values < 10−12 to 10−12. The shaded area surrounded by a red line indicates the 95% confidence interval under the null. Lambda is the observed median χ2 test statistic divided by the median expected χ2 test statistic under the null.
LD Score regression consistent with polygenic inheritanceThe relationship between marker χ2 association statistics and linkage disequilibrium (LD) as measured by the LD Score. LD Score is the sum of the r2 values between a variant and all other known variants within a 1 cM window, and quantifies the amount of genetic variation tagged by that variant. Variants were grouped into 50 equal-sized bins based on LD Score rank. LD Score Bin and Mean χ2 denotes mean LD score and test statistic for markers each bin. We simulated (Supplementary Text) test statistics under two scenarios: (a) no true association, inflation due to population stratification (b) polygenic inheritance (λGC =1.32), in which we assigned independent and identically distributed per-normalized-genotype effects to a randomly selected subset of variants. Panel (c) present results from the PGC schizophrenia GWAS (λGC =1.48). The real data are strikingly similar to the simulated data summarized in (b) but not (a). The intercept estimates the inflation in the mean χ2 that results from confounding biases, such as cryptic relatedness or population stratification. Thus, the intercept of 1.066 for the schizophrenia GWAS suggests that ~90% of the inflation in the mean χ2 results from polygenic signal. The results of the simulations are also consistent with theoretical expectation (see Supplementary Text).
Enrichment of Associations in Tissues and CellsGenes whose transcriptional start is nearest to the most associated SNP at each schizophrenia-associated locus were tested for enriched expression in a) purified brain cell subsets obtained from mouse ribotagged lines41. The red dotted line indicates P=0.05.
MGS Risk Profile Score AnalysisPolygenic risk profile score (RPS) analyses using the MGS18 sample as target, and deriving risk alleles from three published schizophrenia datasets (X-axis): ISC (2615 cases and 3338 controls) 10, PGC1 (excluding MGS, 9320 cases and 10,228 controls) 16, and the current meta analysis (excluding MGS) with 32,838 cases and 44,357 controls. Samples sizes differ slightly from original publication due to different analytical procedures. This shows the increasing RPS prediction with increasing training dataset size reflecting improved precision of estimates of the SNP effect sizes. The proportion of variance explained (Y-axis; Nagelkerke’s R2) was computed by comparison of a full model (covariates + RPS) score to a reduced model (covariates only). Ten different P-value thresholds (PT) for selecting risk alleles are denoted by the colour of each bar (legend above plot). For significance testing, see the bottom legend which denotes the P-value for the test that R2 is different from zero. All numerical data and methods used to generate these plots are available in Supplementary Tables 6, 7, and Supplementary Text.
Risk Profile Score AnalysisWe defined 40 target subgroups of the primary GWAS dataset and performed 40 leave-one-out GWAS analyses (see Supplementary Material) from which we derived risk alleles for RPS analysis (X-axis) for each target subgroup. a) The proportion of variance explained (Y-axis; Nagelkerke’s R2) was computed for each target by comparison of a full model (covariates + RPS) score to a reduced model (covariates only). For clarity, 3 different P-value thresholds (PT) are presented denoted by the colour of each bar (legend above plot) as for Extended Data Figure 5 but for clarity we restrict to fewer P-value thresholds (PT of 5×10−8, 1×10−4, and 0.05) and removed the significance values. (b) The proportion of variance on the liability scale from risk scores calculated at the PT 0.05 with 95% CI bar assuming baseline population disease risk of 1%. (C) Area under the receiver operating curve (AUC). All numerical data and methods used to generate these plots are available in Supplementary Tables 6, 7, and Supplementary Text.
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| Impact of common variants on brain gene expression from RNA to protein to schizophrenia risk. | Liang Q et al. | — | 2025 | → |
| Impact of Glucagon-like Peptide-1 Receptor Agonists on Mental Illness: Evidence from a Mendelian Randomization Study. | Xiang L et al. | — | 2025 | → |
| Impact of schizophrenia-associated risk genes on brain functional networks and executive deficits: a study of individuals with schizophrenia and genetic high risk. | Sun T et al. | — | 2025 | → |
| Impacts of Polyenvironmental Factors on DNA Methylation in Patients With Psychosis. | Rami FZ et al. | — | 2025 | → |
| Implications of gene × environment interactions in post-traumatic stress disorder risk and treatment. | Seah C et al. | — | 2025 | → |
| Improving Machine Learning Prediction of ADHD Using Gene Set Polygenic Risk Scores and Risk Scores From Genetically Correlated Phenotypes. | Barnett EJ et al. | — | 2025 | → |
| Increased plasma TRANK1 levels in first-episode drug-naïve schizophrenia: Association with delayed memory decline. | Yin XY et al. | — | 2025 | → |
| Independent versus joint effects of polygenic or family-based schizophrenia risk in diverse ancestry youth in the ABCD study. | Hyat M et al. | — | 2025 | → |
| Inflammation manipulation and a complement-centered reboot of the Toxoplasma gondii model of schizophrenia. | Xiao J et al. | — | 2025 | → |
| Influence of antipsychotic drugs on microglia-mediated neuroinflammation in schizophrenia: perspectives in an astrocyte-microglia co-culture model. | Faustmann TJ et al. | — | 2025 | → |
| Influence of Polymorphisms in Gene SATB2 on Antipsychotics Response in Chinese Han Population. | Du X et al. | — | 2025 | → |
| Inhibition of brain glutamate carboxypeptidase II (GCPII) to enhance cognitive function. | Wiseman R et al. | — | 2025 | → |
| Inhibition of striatal indirect pathway during second postnatal week leads to long-lasting deficits in motivated behavior. | Olivetti PR et al. | — | 2025 | → |
| Innovations in Meta-Analytic and Computational Methods in the Neuroscientific Investigation of Psychiatric and Neurological Disorders. | Miller CH et al. | — | 2025 | → |
| Integrating genetic regulation and schizophrenia-specific splicing quantitative expression with GWAS prioritizes novel risk genes for schizophrenia. | Li X et al. | — | 2025 | → |
| Integrative analysis of the 3D genome and epigenome in mouse embryonic tissues. | Yu M et al. | — | 2025 | → |
| Integrative transcriptomic and proteomic analysis reveals that SERPING1 inhibits neuronal proliferation <i>via</i> the CaMKII-CREB-BDNF pathway in schizophrenia. | Li F et al. | — | 2025 | → |
| Investigating Connectivity Gradients in Schizophrenia: Integrating Functional, Structural, and Genetic Perspectives. | Xiang J et al. | — | 2025 | → |
| Investigating the relationship between toll-like receptor activity, low-grade inflammation and cognitive deficits in schizophrenia patients - A mediation analysis. | Patlola SR et al. | — | 2025 | → |
| Involvement of membrane palmitoylated protein 6 (MPP6) in synapses of mouse cerebrum. | Saitoh Y et al. | — | 2025 | → |
| iPSCs and iPSC-derived cells as a model of human genetic and epigenetic variation. | Quaid K et al. | — | 2025 | → |
| Is it possible to prevent excessive synaptic pruning in schizophrenia? Possibilities and limitations. | Pawlak A et al. | — | 2025 | → |
| Isoform-level profiling of m<sup>6</sup>A epitranscriptomic signatures in human brain. | Gleeson J et al. | — | 2025 | → |
| IUPHAR review: Drug repurposing in Schizophrenia - An updated review of clinical trials. | Zaki JK et al. | — | 2025 | → |
| IUPHAR review: Moving beyond dopamine-based therapeutic strategies for schizophrenia. | Moran PM et al. | — | 2025 | → |
| Just a SNP away: The future of <i>in vivo</i> massively parallel reporter assay. | Degner KN et al. | — | 2025 | → |
| Kynurenic Acid and Promotion of Activity-Dependent Synapse Elimination in Schizophrenia. | Orhan F et al. | — | 2025 | → |
| L3MBTL2 as a novel therapeutic target for trigeminal neuralgia: evidence from integrated TWAS, multi-tissue MR, and experimental validation. | Wang H et al. | — | 2025 | → |
| Large-scale genetic mapping for human brain asymmetry. | Sha Z et al. | — | 2025 | → |
| Linking altered neuronal and synaptic properties to nicotinic receptor Alpha5 subunit gene dysfunction: a translational investigation in rat mPFC and human cortical layer 6. | Yang D et al. | — | 2025 | → |
| Linking Genome-Wide Association Studies to Pharmacological Treatments for Psychiatric Disorders. | Arnatkeviciute A et al. | — | 2025 | → |
| Lithium partially rescues gene expression and enhancer activity from heterozygous knockout of AKAP11 while inducing novel differential changes. | Farhangdoost N et al. | — | 2025 | → |
| Longitudinal DNA methylation and cell-type proportions alterations in risperidone treatment response in first-episode psychosis. | Ota VK et al. | — | 2025 | → |
| Long non-coding RNAs in schizophrenia. | Mousavinejad SN et al. | — | 2025 | → |
| Long-read sequencing reveals the RNA isoform repertoire of neuropsychiatric risk genes in human brain. | De Paoli-Iseppi R et al. | — | 2025 | → |
| Loss of MEF2C function by enhancer mutation leads to neuronal mitochondria dysfunction and motor deficits in mice. | Yousefian-Jazi A et al. | — | 2025 | → |
| <i>BDNF</i> gene polymorphisms and BDNF serum concentration in schizophrenia patients: a pilot study. | Boiko AS et al. | — | 2025 | → |
| Magnesium and Zinc in Schizophrenia. | Nechifor M | — | 2025 | → |
| Mapping the cellular etiology of schizophrenia and complex brain phenotypes. | Duncan LE et al. | — | 2025 | → |
| Mechanisms of brain overgrowth in autism spectrum disorder with macrocephaly. | Currey L et al. | — | 2025 | → |
| Memory-Associated Immediate Early Genes: Roles in Synaptic Function, Memory Processes, and Neurological Diseases. | Khan ZU et al. | — | 2025 | → |
| Mendelian Randomization Analyses Support Causal Relationships Between Psychiatric Disorders and Risk of Urinary Tract Infections. | Ke M et al. | — | 2025 | → |
| Mendelian Randomization Analysis of the Possible Causal Relationships Between Neurodevelopment-Related Proteins and Bipolar Disorder. | Li Y et al. | — | 2025 | → |
| Mendelian randomization analysis unveiling the genetic connection: How psychiatric disorders heighten cancer risk. | Wang J et al. | — | 2025 | → |
| Mendelian Randomization Reveals Causalities Between DNA Methylation and Schizophrenia. | Wang D et al. | — | 2025 | → |
| Meta-Analysis of Transcriptomic Studies of Blood and Six Brain Regions Identifies a Consensus of 15 Cross-Tissue Mechanisms in Alzheimer's Disease and Suggests an Origin of Cross-Study Heterogeneity. | Hou J et al. | — | 2025 | → |
| Microdosing Psychedelics to Restore Synaptic Density in Schizophrenia. | Sapienza J et al. | — | 2025 | → |
| MINDDS-connect: a federated data platform integrating biobanks for meta cohort building and analysis. | Huremagic B et al. | — | 2025 | → |
| Minimum data standards for schizophrenia and the EnvironmenT (MINDSET) research harmonization exercise. | Crossley NA et al. | — | 2025 | → |
| Minor immunomodulatory effects of psychotropics suggested in severe mental disorders: Associations of antipsychotics with beta defensin 2, antidepressants with C-reactive protein, and mood stabilizers with soluble interleukin 2 receptor. | Ormerod MBEG et al. | — | 2025 | → |
| miRNA profiling of hiPSC-derived neurons from monozygotic twins discordant for schizophrenia. | Räsänen N et al. | — | 2025 | → |
| Mismatch Negativity as an Index of Auditory Short-Term Plasticity: Associations with Cortisol, Inflammation, and Gray Matter Volume in Youth at Clinical High Risk for Psychosis. | Hamilton HK et al. | — | 2025 | → |
| Molecular and Functional Analysis of TLR 1, 2 and 6 in Peripheral Blood Monocytes of Patients with Schizophrenia: A Pilot Study. | Sotelo-Ramírez CE et al. | — | 2025 | → |
| Molecular signatures and emerging therapeutic targets in schizophrenia: A biomarker-centric perspective in psychiatric disorders. | Hakami MA | — | 2025 | → |
| Molecular signatures of regional vulnerability to tauopathy in excitatory cortical neurons. | Broekaart DWM et al. | — | 2025 | → |
| Molecular Signatures of Schizophrenia and Insights into Potential Biological Convergence. | Saada M et al. | — | 2025 | → |
| Molecular Underpinning of Treatment-Resistant Schizophrenia: A Putative Different Neurobiology from Treatment-Responsive Schizophrenia. | Barone A et al. | — | 2025 | → |
| MRI-based cortical gray/white matter contrast in young adults who endorse psychotic experiences or are at genetic risk for psychosis. | Naseri N et al. | — | 2025 | → |
| Multi-Omics Mendelian Randomization Identifies a DNA Methylation-ZDHHC20-Immune Axis Associated With Schizophrenia Risk. | Guo Q et al. | — | 2025 | → |
| Narcolepsy as a potential risk factor for Schizophrenia. | Eghtedarian R et al. | — | 2025 | → |
| Navigating centriolar satellites: the role of PCM1 in cellular and organismal processes. | Begar E et al. | — | 2025 | → |
| Neonatal handling enhances behavioural and attentional domains, and frontocortical synaptic maturation in rat models of schizophrenia-like behaviour and anxiety-related responses. | Peralta-Vallejo N et al. | — | 2025 | → |
| Network localization of genetic risk for schizophrenia and bipolar disorder. | Yao S et al. | — | 2025 | → |
| Neural excitation/inhibition imbalance and neurodevelopmental pathology in human copy number variant syndromes: a systematic review. | Sylvester AL et al. | — | 2025 | → |
| Neuroanatomical characterization of the cell adhesion molecule IgSF9b reveals localization to inhibitory and excitatory synapses in the mouse limbic system. | Rotondo F et al. | — | 2025 | → |
| Neuroinflammatory Loop in Schizophrenia, Is There a Relationship with Symptoms or Cognition Decline? | Carril Pardo C et al. | — | 2025 | → |
| Neuronal Populations Involved in Motor Function Show Prominent Expression of Sbno1 During Postnatal Brain Development. | Zolzaya S et al. | — | 2025 | → |
| Novel electroencephalographic biomarkers for the prediction of responders to an experimental glutamatergic agent in patients with schizophrenia. | Siekmeier PJ et al. | — | 2025 | → |
| Oxidative Stress-Mediated Neuroinflammation in the Pathophysiology of Schizophrenia. | Trubalski M et al. | — | 2025 | → |
| Oxytocin seals the blood-brain barrier, improving 22q11.2 deletion syndrome trajectories. | Castellani G et al. | — | 2025 | → |
| Pathway-Specific Polygenic Scores for Predicting Clinical Lithium Treatment Response in Patients With Bipolar Disorder. | Sharew NT et al. | — | 2025 | → |
| Perineuronal Nets: From Structure to Neurological Disorders. | Li X et al. | — | 2025 | → |
| Perineuronal nets in the developing brain: implications for neurodevelopmental disorders. | Ackerman JM et al. | — | 2025 | → |
| Peripheral inflammatory and metabolic markers as potential biomarkers in treatment-resistant schizophrenia: Insights from a Qatari Cohort. | Khoodoruth MAS et al. | — | 2025 | → |
| Perturbed cell fate decision by schizophrenia-associated AS3MT<sup>d2d3</sup> isoform during corticogenesis. | Kim S et al. | — | 2025 | → |
| Phage-Microbiota Crosstalk: Implications for Central Nervous System Disorders. | Salari V et al. | — | 2025 | → |
| Pleiotropic Effects of <i>Grm7</i>/<i>GRM7</i> in Shaping Neurodevelopmental Pathways and the Neural Substrate of Complex Behaviors and Disorders. | Gyetvai BM et al. | — | 2025 | → |
| Polygenic Resilience Scores are Associated With Lower Penetrance of Schizophrenia Risk Genes, Protection Against Psychiatric and Medical Disorders, and Enhanced Mental Well-Being and Cognition. | Hess JL et al. | — | 2025 | → |
| Polygenic risk for schizophrenia and subjective well-being in a general population sample. | Serimaa O et al. | — | 2025 | → |
| Polygenic scores and symptom severity change after internet-delivered cognitive behaviour therapy for depression and anxiety. | Bäckman J et al. | — | 2025 | → |
| Positive and Negative Symptoms of Schizophrenia and Polymorphic Variants of the <i>TCF4</i> Gene: Pilot Associative Study. | Ivanova SA et al. | — | 2025 | → |
| Predicting mental health disorder onsets with Fibonacci sequencing: A genetic and epigenetic perspective. | Sacco RG et al. | — | 2025 | → |
| Prednisolone add-on in early phase schizophrenia: A randomized, double-blind, placebo-controlled pilot study. | Hoprekstad GE et al. | — | 2025 | → |
| Prenatal omega-3 fatty acids supplementation mitigates some schizophrenia-like deficits in offspring: A PET and MRI study in a rat model. | Romero-Miguel D et al. | — | 2025 | → |
| Protein arginine methyltransferase 7 linked to schizophrenia through regulation of neural progenitor cell proliferation and differentiation. | Shen T et al. | — | 2025 | → |
| Protein Associations With Alcohol Consumption and Genetic Risk for Alcohol-Related Sociomedical Conditions. | Drouard G et al. | — | 2025 | → |
| Protein Disulfide Isomerase A3, a Stress Response Gene, Is Associated with Cognitive Impairment in Schizophrenia and Linked to Inflammatory Activation. | Su X et al. | — | 2025 | → |
| Recent Advances in Schizophrenia Genomics and Emerging Clinical Implications. | Bigdeli TB et al. | — | 2025 | → |
| Reduced Cacna1c Expression Produces Anhedonic Reactions to Palatable Sucrose in Rats: No Interactions With Juvenile or Adult Stress. | Gasalla P et al. | — | 2025 | → |
| Refining fine-mapping: Effect sizes and regional heritability. | Benner C et al. | — | 2025 | → |
| Reflections from half a century of progress searching for the causes of schizophrenia: Stanley Dean award presentation 2025. | DeLisi LE | — | 2025 | → |
| Regulatory roles of rs2192932 and rs10487150 in autism spectrum disorder: insights from fine-mapping and cross-population validation. | Zhao S et al. | — | 2025 | → |
| Restoring Synaptic Balance in Schizophrenia: Insights From a Thalamo-Cortical Conductance-Based Model. | Berndt LCS et al. | — | 2025 | → |
| Review: Child Psychiatry in the Era of Genomics: The Promise of Translational Genetics Research for the Clinic. | Fitzpatrick SE et al. | — | 2025 | → |
| Reward Processing in Mood Disorders and Schizophrenia: A Neurodevelopmental Framework. | Nusslock R et al. | — | 2025 | → |
| Satb2 and Nr4a2 are required for the differentiation of cortical layer 6b. | Zhao L et al. | — | 2025 | → |
| Sensory thalamus function, plasticity and neuromodulation in health and disease. | Paricio-Montesinos R et al. | — | 2025 | → |
| SETD1A regulates psychiatric gene networks involved in genomic stability and synaptic function in rare and sporadic schizophrenia. | Sawada T et al. | — | 2025 | → |
| Sexual dimorphism in immunity and longevity among the oldest old. | Arakelyan NA et al. | — | 2025 | → |
| Shared Genetic Architecture Among Severe Mental Disorders: A System Biology Approach Based on Protein-Protein Interaction. | Guillen-Burgos HF et al. | — | 2025 | → |
| Shared genetic architecture and causal relationship between frailty and schizophrenia. | Deng MG et al. | — | 2025 | → |
| Single-cell spatial transcriptomic atlas of the whole mouse brain. | Han L et al. | — | 2025 | → |
| SpliPath enhances disease gene discovery in case-control analyses of rare splice-altering genetic variants. | Wang Y et al. | — | 2025 | → |
| Structure of a polymorphic repeat at the <i>CACNA1C</i> schizophrenia locus. | Moya R et al. | — | 2025 | → |
| Sub-clinical systemic inflammation as a determinant of admission duration in psychosis. | Blackman G et al. | — | 2025 | → |
| Synergistic insights into positive allosteric modulator and agonist using Gaussian accelerated and tau random acceleration simulations in the metabotropic glutamate receptor 2. | He B et al. | — | 2025 | → |
| Tensor decomposition of multi-dimensional splicing events across multiple tissues to identify splicing-mediated risk genes associated with complex traits. | Yan Y et al. | — | 2025 | → |
| The association of age of onset on suicide attempts in patients with chronic schizophrenia: a cross-sectional study. | Zhu Q et al. | — | 2025 | → |
| The Correlation of Blood Immune Cells with the Pathogenesis of Schizophrenia: A Meta-Analysis. | Xue F et al. | — | 2025 | → |
| The expanding spectrum of infectious risk organisms and immunogenetic susceptibility in neuropsychiatric disorders. | Debnath M | — | 2025 | → |
| The GRIA1 AMPA receptor subunit and selective learning. | Strickland JA et al. | — | 2025 | → |
| The Importance of N- and O-Glycosylation of Brain Cell Surface Glycoproteins. | Noel M et al. | — | 2025 | → |
| The Multifaceted Etiology of Mental Disorders With a Focus on Trace Elements, a Review of Recent Literature. | Astorino MF et al. | — | 2025 | → |
| The murine ATP-binding cassette transporter C5 (Abcc5/MRP5/cMOAT) plays a role in memory consolidation, circadian rhythm regulation and glutamatergic signalling. | Banks G et al. | — | 2025 | → |
| The predictive role of family history of antipsychotic drug use in poor outcomes following aneurysmal subarachnoid hemorrhage (aSAH). | Paavola J et al. | — | 2025 | → |
| The Psychiatric Genomics Consortium: discoveries and directions. | Agrawal A et al. | — | 2025 | → |
| The role of maternal infections in neurodevelopmental psychiatric disorders: focus on the P2X7/NLRP3/IL-1β signalling pathway. | Szabó D et al. | — | 2025 | → |
| The role of the microbiota-gut-brain axis in schizophrenia: an immunological perspective. | Su BW et al. | — | 2025 | → |
| The schizophrenia-associated gene CSMD1 encodes a complement classical pathway inhibitor predominantly expressed by astrocytes and at synapses in mice and humans. | Byrne RAJ et al. | — | 2025 | → |
| The trait-specific timing of accelerated genomic change in the human lineage. | Kun E et al. | — | 2025 | → |
| The X chromosome's influences on the human brain. | Jiang Z et al. | — | 2025 | → |
| Transcriptional and epigenetic targets of MEF2C in human microglia contribute to cellular functions related to autism risk and age-related disease. | Nguyen C et al. | — | 2025 | → |
| Transdiagnostic Effects of Schizophrenia Polygenic Scores on Treatment Outcomes in Major Psychiatric Disorders. | Serretti A et al. | — | 2025 | → |
| Transformer-based deep learning enhances discovery in migraine GWAS. | Meng Z et al. | — | 2025 | → |
| Uncovering convergence and divergence between autism and schizophrenia using genomic tools and patients' neurons. | Romanovsky E et al. | — | 2025 | → |
| Understanding the Emergence of Schizophrenia in the Light of Human Evolution: New Perspectives in Genetics. | Sandroni V et al. | — | 2025 | → |
| Unraveling the interplay of genetic variants and epigenetic signatures in complex traits. | Franco-Gedda LP et al. | — | 2025 | → |
| Unraveling the shared genetic foundations of neurodevelopmental and psychiatric disorders: Insights from comprehensive genome-wide analyses. | Maimaiti A et al. | — | 2025 | → |
| Unravelling the Viral Hypothesis of Schizophrenia: A Comprehensive Review of Mechanisms and Evidence. | Sighencea MG et al. | — | 2025 | → |
| Weighted overlapping group lasso for integrating prior network knowledge into gene set analysis. | Huang D et al. | — | 2025 | → |
| Women's perceptions of biological causes and potentials of genomic risk markers in postpartum depression: A qualitative study. | Høgh S et al. | — | 2025 | → |
| βIV spectrin abundancy, cellular distribution and sensitivity to AKT/GSK3 regulation in schizophrenia. | Di Re J et al. | — | 2025 | → |
| Aberrant brain dynamics in individuals with clinical high risk of psychosis. | Kindler J et al. | — | 2024 | → |
| Aberrant encoding of event saliency in the orbitofrontal cortex following loss of the psychiatric-associated circular RNA, circHomer1. | Zimmerman AJ et al. | — | 2024 | → |
| Aberrant neuronal connectivity and network activity of neurons derived from patients with idiopathic schizophrenia. | Heider J et al. | — | 2024 | → |
| Accelerated Cortical Thinning in Schizophrenia Is Associated With Rare and Common Predisposing Variation to Schizophrenia and Neurodevelopmental Disorders. | González-Peñas J et al. | — | 2024 | → |
| Accurate identification of genes associated with brain disorders by integrating heterogeneous genomic data into a Bayesian framework. | He D et al. | — | 2024 | → |
| A comprehensive update on genetic inheritance, epigenetic factors, associated pathology, and recent therapeutic intervention by gene therapy in schizophrenia. | R R et al. | — | 2024 | → |
| Acute ketamine induces neuronal hyperexcitability and deficits in prepulse inhibition by upregulating IL-6. | Luo Y et al. | — | 2024 | → |
| Advances in the understanding of the pathophysiology of schizophrenia and bipolar disorder through induced pluripotent stem cell models. | Perrottelli A et al. | — | 2024 | → |
| A functional schizophrenia-associated genetic variant near the TSNARE1 and ADGRB1 genes. | Wahbeh MH et al. | — | 2024 | → |
| Ageing-Related Changes to H3K4me3, H3K27ac, and H3K27me3 in Purified Mouse Neurons. | Signal B et al. | — | 2024 | → |
| A genome-wide association study reveals a polygenic architecture of speech-in-noise deficits in individuals with self-reported normal hearing. | Bhatt IS et al. | — | 2024 | → |
| A GWAS for grip strength in cohorts of children-Advantages of analysing young participants for this trait. | Abbondanza F et al. | — | 2024 | → |
| Ahnak in the prefrontal cortex mediates behavioral correlates of stress resilience and rapid antidepressant action in mice. | Bhatti DL et al. | — | 2024 | → |
| Air pollutants, genetic susceptibility and the risk of schizophrenia: large prospective study. | Liu R et al. | — | 2024 | → |
| 'Almost nothing is firmly established': A History of Heredity and Genetics in Mental Health Science. | Chaney S et al. | — | 2024 | → |
| Alterations of the IKZF1-IKZF2 tandem in immune cells of schizophrenia patients regulate associated phenotypes. | Ballasch I et al. | — | 2024 | → |
| Altered Expression of PDE4 Genes in Schizophrenia: Insights from a Brain and Blood Sample Meta-Analysis and iPSC-Derived Neurons. | Burrack N et al. | — | 2024 | → |
| Altered pubertal timing in 7q11.23 copy number variations and associated genetic mechanisms. | Wei SM et al. | — | 2024 | → |
| A miR-137-Related Biological Pathway of Risk for Schizophrenia Is Associated With Human Brain Emotion Processing. | Pergola G et al. | — | 2024 | → |
| A mouse model of schizophrenia induced by autoantibodies against SFT2D2. | Liu D et al. | — | 2024 | → |
| Analyses of GWAS signal using GRIN identify additional genes contributing to suicidal behavior. | Sullivan KA et al. | — | 2024 | → |
| Analysis of schizophrenia-associated genetic markers in the HLA region as risk factors for tardive dyskinesia. | Wang R et al. | — | 2024 | → |
| An evolutionary perspective on complex neuropsychiatric disease. | McClellan JM et al. | — | 2024 | → |
| A New Three-Hit Mouse Model of Neurodevelopmental Disorder with Cognitive Impairments and Persistent Sociability Deficits. | Mouffok I et al. | — | 2024 | → |
| An exploratory study of the damage markers NfL, GFAP, and t-Tau, in cerebrospinal fluid and other findings from a patient cohort enriched for suspected autoimmune psychiatric disease. | Syk M et al. | — | 2024 | → |
| An in-depth review of the function of RNA-binding protein FXR1 in neurodevelopment. | Méndez-Albelo NM et al. | — | 2024 | → |
| Annotation of nuclear lncRNAs based on chromatin interactions. | Agrawal S et al. | — | 2024 | → |
| Anorexia nervosa polygenic risk, beyond diagnoses: relationship with adolescent disordered eating and behaviors in an Australian female twin population. | Curtis M et al. | — | 2024 | → |
| Antipsychotic-induced epigenomic reorganization in frontal cortex of individuals with schizophrenia. | Zhu B et al. | — | 2024 | → |
| Anti-SFT2D2 autoantibodies alter dendrite spine and cause psychotic behavior in mice. | Liu D et al. | — | 2024 | → |
| A polygenic resilience score moderates the genetic risk for schizophrenia: Replication in 18,090 cases and 28,114 controls from the Psychiatric Genomics Consortium. | Hess JL et al. | — | 2024 | → |
| A prefrontal network model operating near steady and oscillatory states links spike desynchronization and synaptic deficits in schizophrenia. | Crowe DA et al. | — | 2024 | → |
| A scalable adaptive quadratic kernel method for interpretable epistasis analysis in complex traits. | Fu B et al. | — | 2024 | → |
| Asian-European differentiation of schizophrenia-associated genes driven by admixture and natural selection. | Chen S et al. | — | 2024 | → |
| Asparagine reduces the risk of schizophrenia: a bidirectional two-sample mendelian randomization study of aspartate, asparagine and schizophrenia. | Liu HH et al. | — | 2024 | → |
| Association between the <i>HHEX</i> polymorphism and delayed memory in first-episode schizophrenic patients. | Zhu ZH et al. | — | 2024 | → |
| Association of <i>NOTCH4</i> and <i>CYP2E1</i> Genetic Variants With Schizophrenia in the Bangladeshi Population: A Case-Control Study. | Millat MS et al. | — | 2024 | → |
| Association of neurotransmitter pathway polygenic risk with specific symptom profiles in psychosis. | Warren TL et al. | — | 2024 | → |
| Association of NTRK2 gene with suicidality: a meta-analysis. | Ye W et al. | — | 2024 | → |
| Association of serum interleukin-6 with negative symptoms in stable early-onset schizophrenia. | Chen P et al. | — | 2024 | → |
| Associations between residential environments and late-onset schizophrenia in UK Biobank: Interaction with genetic risk factor. | Shen C et al. | — | 2024 | → |
| Associations between Sjogren syndrome and psychiatric disorders in European populations: a 2-sample bidirectional Mendelian randomization study. | Pan L et al. | — | 2024 | → |
| Association study of the complement component C4 gene and suicide risk in schizophrenia. | Ebrahimi M et al. | — | 2024 | → |
| A systematic review and meta-analysis of neuroimaging studies examining synaptic density in individuals with psychotic spectrum disorders. | Husain MO et al. | — | 2024 | → |
| Bayesian Rare Variant Analysis Identifies Novel Schizophrenia Putative Risk Genes. | Han S | — | 2024 | → |
| Bidirectional causal relationship between psychiatric disorders and osteoarthritis: A univariate and multivariate Mendelian randomization study. | Meng J et al. | — | 2024 | → |
| Bidirectional Mendelian randomization to explore the causal relationships between schizophrenia and narcolepsy. | Geng C et al. | — | 2024 | → |
| Biomarkers for Psychosis: Are We There Yet? Umbrella Review of 1478 Biomarkers. | Fuentes-Claramonte P et al. | — | 2024 | → |
| Biospecimens in the HEALthy Brain and Child Development (HBCD) Study: Rationale and protocol. | Sullivan EL et al. | — | 2024 | → |
| BrainTACO: an explorable multi-scale multi-modal brain transcriptomic and connectivity data resource. | Ganglberger F et al. | — | 2024 | → |
| Cardiovascular Disease, Genetic Susceptibility, and Risk of Psychiatric Disorders and Suicide Attempt: A Community-Based Matched Cohort Study Based on the UK Biobank. | Yang J et al. | — | 2024 | → |
| Case series of patients with early psychosis presenting hypoperfusion in angular gyrus and self-disturbance: Implication for the sense of agency and schizophrenia. | Yoshikawa A et al. | — | 2024 | → |
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| Causal effect between breast cancer and ovarian cancer: a two-sample mendelian randomization study. | Qian C et al. | — | 2024 | → |
| Causality between autoimmune diseases and schizophrenia: a bidirectional Mendelian randomization study. | Duan L et al. | — | 2024 | → |
| Causal relationships between neuropsychiatric disorders and nonalcoholic fatty liver disease: A bidirectional Mendelian randomization study. | Wang S et al. | — | 2024 | → |
| Characteristics of immune cells and causal relationship with chondromalacia: A two-sample, bidirectional mendelian randomization study. | Chai W et al. | — | 2024 | → |
| Characterization and modulation of voltage-gated potassium channels in human lymphocytes in schizophrenia. | Iglesias-Martínez-Almeida M et al. | — | 2024 | → |
| Characterization of genomic regions escaping epigenetic reprogramming in sheep. | Braz CU et al. | — | 2024 | → |
| Clusters of lineage-specific genes are anchored by ZNF274 in repressive perinucleolar compartments. | Begnis M et al. | — | 2024 | → |
| Co-expression of prepulse inhibition and Schizophrenia genes in the mouse and human brain. | Garrett L et al. | — | 2024 | → |
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| Copy number deletion of PLA2G4A affects the susceptibility and clinical phenotypes of schizophrenia. | Gao Z et al. | — | 2024 | → |
| Copy number variant risk loci for schizophrenia converge on the BDNF pathway. | Ehrhart F et al. | — | 2024 | → |
| Cross-ancestry genetic investigation of schizophrenia, cannabis use disorder, and tobacco smoking. | Johnson EC et al. | — | 2024 | → |
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| ASCL1 Is Involved in the Pathogenesis of Schizophrenia by Regulation of Genes Related to Cell Proliferation, Neuronal Signature Formation, and Neuroplasticity. | Abashkin DA et al. | — | 2023 | → |
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| Assessment of Tissue Expression of the Oxytocin-Vasopressin Pathway in the Placenta of Women with a First-Episode Psychosis during Pregnancy. | Ortega MA et al. | — | 2023 | → |
| Association between Arachidonic Acid and the Risk of Schizophrenia: A Cross-National Study and Mendelian Randomization Analysis. | Gao Y et al. | — | 2023 | → |
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| Association of elevated levels of peripheral complement components with cortical thinning and impaired logical memory in drug-naïve patients with first-episode schizophrenia. | Yu H et al. | — | 2023 | → |
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| Captive ERVWE1 triggers impairment of 5-HT neuronal plasticity in the first-episode schizophrenia by post-transcriptional activation of HTR1B in ALKBH5-m6A dependent epigenetic mechanisms. | Wu X et al. | — | 2023 | → |
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| Cerebellar Functional Dysconnectivity in Drug-Naïve Patients With First-Episode Schizophrenia. | Cao H et al. | — | 2023 | → |
| Characterization of early psychosis patients carrying a genetic vulnerability to redox dysregulation: a computational analysis of mechanism-based gene expression profile in fibroblasts. | Giangreco B et al. | — | 2023 | → |
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| Complement component 4A protein levels are negatively related to frontal volumes in patients with schizophrenia spectrum disorders. | Gangadin SS et al. | — | 2023 | → |
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| Connecting Neurobiological Features with Interregional Dysconnectivity in Social-Cognitive Impairments of Schizophrenia. | Adraoui FW et al. | — | 2023 | → |
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| Excitatory Dysfunction Drives Network and Calcium Handling Deficits in 16p11.2 Duplication Schizophrenia Induced Pluripotent Stem Cell-Derived Neurons. | Parnell E et al. | — | 2023 | → |
| Excitatory/Inhibitory Imbalance Underlies Hippocampal Atrophy in Individuals With 22q11.2 Deletion Syndrome With Psychotic Symptoms. | Mancini V et al. | — | 2023 | → |
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| Gene Expressions Preferentially Influence Cortical Thickness of Human Connectome Project Atlas Parcellated Regions in First-Episode Antipsychotic-Naïve Psychoses. | McGuigan BN et al. | — | 2023 | → |
| Genetic and neural bases of the neuroticism general factor. | Kim Y et al. | — | 2023 | → |
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| Genetic Determinants of the Association between Osteoarthritis and Psychiatric Disorders. | Chen W et al. | — | 2023 | → |
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| Genetic Mechanisms Behind Severe Psychotic Reactions to Levetiracetam. | Andrade DM | — | 2023 | → |
| Genetic mechanisms underlying gray matter volume changes in patients with drug-naive first-episode schizophrenia. | Xu X et al. | — | 2023 | → |
| Genetic regulatory and biological implications of the 10q24.32 schizophrenia risk locus. | Wang J et al. | — | 2023 | → |
| Genetic risk for schizophrenia is associated with increased proportion of indirect connections in brain networks revealed by a semi-metric analysis: evidence from population sample stratified for polygenic risk. | Dimitriadis SI et al. | — | 2023 | → |
| Genetic Risk, Neighborhood Characteristics, and Behavioral Difficulties Among African American Adolescents Living in Very Low-Income Neighborhoods. | Sterrett-Hong EM et al. | — | 2023 | → |
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| Genetic variation in glutamatergic genes moderates the effects of childhood adversity on brain volume and IQ in treatment-resistant schizophrenia. | Mohamed Saini S et al. | — | 2023 | → |
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| Genome-wide association study of antisocial personality disorder diagnostic criteria provides evidence for shared risk factors across disorders. | Li W et al. | — | 2023 | → |
| Genome-wide copy number variant screening of Saudi schizophrenia patients reveals larger deletions in cases versus controls. | Abumadini MS et al. | — | 2023 | → |
| Genome-wide significant risk loci for mood disorders in the Old Order Amish founder population. | Humphries EM et al. | — | 2023 | → |
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| Genomic patterns linked to gray matter alterations underlying working memory deficits in adults and adolescents with attention-deficit/hyperactivity disorder. | Duan K et al. | — | 2023 | → |
| Glutamatergic dysfunction leads to a hyper-dopaminergic phenotype through deficits in short-term habituation: a mechanism for aberrant salience. | Panayi MC et al. | — | 2023 | → |
| Heritability of amygdala reactivity to angry faces and its replicable association with the schizophrenia risk locus of <i>miR-137</i>. | Quarto T et al. | — | 2023 | → |
| HERV-W ENV Induces Innate Immune Activation and Neuronal Apoptosis via linc01930/cGAS Axis in Recent-Onset Schizophrenia. | Li X et al. | — | 2023 | → |
| Higher stress response and altered quality of life in schizophrenia patients with low membrane levels of docosahexaenoic acid. | Adrien V et al. | — | 2023 | → |
| Hippocampal and peripheral blood DNA methylation signatures correlate at the gene and pathway level in a mouse model of autism. | Alberca CD et al. | — | 2023 | → |
| Human forebrain organoid-based multi-omics analyses of PCCB as a schizophrenia associated gene linked to GABAergic pathways. | Zhang W et al. | — | 2023 | → |
| Human microglial state dynamics in Alzheimer's disease progression. | Sun N et al. | — | 2023 | → |
| Human microglia maturation is underpinned by specific gene regulatory networks. | Han CZ et al. | — | 2023 | → |
| Identification of <i>VIPR2</i> rare and common variants in the Chinese Han population with schizophrenia. | Yin J et al. | — | 2023 | → |
| Identification of novel functional brain proteins for treatment-resistant schizophrenia: Based on a proteome-wide association study. | Wei W et al. | — | 2023 | → |
| Identification of schizophrenia symptom-related gene modules by postmortem brain transcriptome analysis. | Miyahara K et al. | — | 2023 | → |
| Immune System and Brain/Intestinal Barrier Functions in Psychiatric Diseases: Is Sphingosine-1-Phosphate at the Helm? | Martín-Hernández D et al. | — | 2023 | → |
| Immunological Biomarkers as Predictors of Treatment Response in Psychotic Disorders. | Orbe EB et al. | — | 2023 | → |
| Increased Prevalence of Rare Copy Number Variants in Treatment-Resistant Psychosis. | Farrell M et al. | — | 2023 | → |
| Indicators of HSV1 Infection, ECM-Receptor Interaction, and Chromatin Modulation in a Nuclear Family with Schizophrenia. | Huang YC et al. | — | 2023 | → |
| Inflammatory disequilibrium and lateral ventricular enlargement in treatment-resistant schizophrenia. | Chen W et al. | — | 2023 | → |
| Insulin effects on core neurotransmitter pathways involved in schizophrenia neurobiology: a meta-analysis of preclinical studies. Implications for the treatment. | de Bartolomeis A et al. | — | 2023 | → |
| Integrative analyses highlight functional regulatory variants associated with neuropsychiatric diseases. | Guo MG et al. | — | 2023 | → |
| Integrative Roles of Dopamine Pathway and Calcium Channels Reveal a Link between Schizophrenia and Opioid Use Disorder. | Thiagarajan SK et al. | — | 2023 | → |
| Investigating the shared genetic architecture of post-traumatic stress disorder and gastrointestinal tract disorders: a genome-wide cross-trait analysis. | Zhou S et al. | — | 2023 | → |
| Investigation of genetic variants and causal biomarkers associated with brain aging. | Kim J et al. | — | 2023 | → |
| Is adjustment disorder genetically correlated with depression, anxiety, or risk-tolerant personality trait? | Ohi K et al. | — | 2023 | → |
| Landscape and future directions of machine learning applications in closed-loop brain stimulation. | Chandrabhatla AS et al. | — | 2023 | → |
| Large-scale meta-genome-wide association study reveals common genetic factors linked to radiation-induced acute toxicities across cancer types. | Naderi E et al. | — | 2023 | → |
| Leveraging base-pair mammalian constraint to understand genetic variation and human disease. | Sullivan PF et al. | — | 2023 | → |
| Leveraging the genetic correlation between traits improves the detection of epistasis in genome-wide association studies. | Stamp J et al. | — | 2023 | → |
| Lifetime cannabis use and childhood trauma associated with CNR1 genetic variants increase the risk of psychosis: findings from the STREAM study. | Loureiro CM et al. | — | 2023 | → |
| Lipid-correlated alterations in the transcriptome are enriched in several specific pathways in the postmortem prefrontal cortex of Japanese patients with schizophrenia. | Arihisa W et al. | — | 2023 | → |
| Longitudinal study of inflammation and relapse in schizophrenia. | Miller BJ et al. | — | 2023 | → |
| Loss of Grin2a causes a transient delay in the electrophysiological maturation of hippocampal parvalbumin interneurons. | Camp CR et al. | — | 2023 | → |
| Low protein-induced intrauterine growth restriction as a risk factor for schizophrenia phenotype in a rat model: assessing the role of oxidative stress and neuroinflammation interaction. | Allgäuer L et al. | — | 2023 | → |
| Machine Learning and Pharmacogenomics at the Time of Precision Psychiatry. | Del Casale A et al. | — | 2023 | → |
| Machine learning methods to predict outcomes of pharmacological treatment in psychosis. | Del Fabro L et al. | — | 2023 | → |
| Macroscale Thalamic Functional Organization Disturbances and Underlying Core Cytoarchitecture in Early-Onset Schizophrenia. | Fan YS et al. | — | 2023 | → |
| Massively parallel functional dissection of schizophrenia-associated noncoding genetic variants. | Rummel CK et al. | — | 2023 | → |
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| Mendelian randomization analysis does not reveal a causal influence of mental diseases on osteoporosis. | Tang F et al. | — | 2023 | → |
| Mendelian randomization investigation highlights different roles of selenium status in mental disorders. | Guo X et al. | — | 2023 | → |
| Mendelian Randomization Study Using Dopaminergic Neuron-Specific eQTL Identifies Novel Risk Genes for Schizophrenia. | Dang X et al. | — | 2023 | → |
| Meta-analytic evidence of elevated choline, reduced N-acetylaspartate, and normal creatine in schizophrenia and their moderation by measurement quality, echo time, and medication status. | Yang YS et al. | — | 2023 | → |
| Microglia and cognitive impairment in schizophrenia: translating scientific progress into novel therapeutic interventions. | Zhuo C et al. | — | 2023 | → |
| Microglial contribution to the pathology of neurodevelopmental disorders in humans. | Matuleviciute R et al. | — | 2023 | → |
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| Modeling disrupted synapse formation in wolfram syndrome using hESCs-derived neural cells and cerebral organoids identifies Riluzole as a therapeutic molecule. | Yuan F et al. | — | 2023 | → |
| Molecular and cellular evolution of the amygdala across species analyzed by single-nucleus transcriptome profiling. | Yu B et al. | — | 2023 | → |
| Molecular mapping of a core transcriptional signature of microglia-specific genes in schizophrenia. | Fiorito AM et al. | — | 2023 | → |
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| Multi-ancestry phenome-wide association of complement component 4 variation with psychiatric and brain phenotypes in youth. | Hernandez LM et al. | — | 2023 | → |
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| Multi-ancestry study of the genetics of problematic alcohol use in over 1 million individuals. | Zhou H et al. | — | 2023 | → |
| Multi-omics cannot replace sample size in genome-wide association studies. | Baranger DAA et al. | — | 2023 | → |
| Multiple genes in a single GWAS risk locus synergistically mediate aberrant synaptic development and function in human neurons. | Zhang S et al. | — | 2023 | → |
| Multi-scale systems genomics analysis predicts pathways, cell types, and drug targets involved in normative variation in peri-adolescent human cognition. | Pai S et al. | — | 2023 | → |
| Multi-trait genome-wide association analyses leveraging alcohol use disorder findings identify novel loci for smoking behaviors in the Million Veteran Program. | Cheng Y et al. | — | 2023 | → |
| Multivariate analyses of immune markers reveal increases in plasma EN-RAGE in first-episode psychosis patients. | Korhonen L et al. | — | 2023 | → |
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