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2020_NatComm_interneurons_and_cortical_function

Code repository for "Transcriptional and imaging-genetic association of cortical interneurons, brain function, and schizophrenia risk"

01_preprocess_ahba.R.
- Reads AHBA data, gets rid of:
(a) probes with no entrez id.
(b) probes that are not expressed on average in at least 20% of cortical samples.
- Assigns top-level categories to AHBA ontology annotations (e.g. mediodorsal thalamus >> THAL).
- Saves a csv with sample information from each donor.
- If multiple probes are present, keep the one with the MaxMean (CollapseRows function).
- Saves 'donorDat_obj' with raw/subsetted AHBA data for each donor.

02_project_freesurfer.bash.
- Raw Freesurfer AHBA surfaces downloaded from Romero and colleagues (https://www.repository.cam.ac.uk/handle/1810/265272).
- Calculates midthickness between pial/white.
- Uses HCP templates to transform individual mesh to to 32k FSLR template.
- Applies linear transform to move surface shape files from freesurfer back to individual coordinate reference space.
- Final output is a midthickness surface, deformed to native subject geometry, with aligned 32kFSLR mesh vertices.

03_map_ahba_ctx_to_surface.py - Use the IJK coordinates of each AHBA donor tissue sample to map to the closest midthickness vertex.

04_ahba_sst_v_pvalb.R - Main script for characterizing cortical SST v PVALB correlations in cortex.
- z-transforms cortical expression data separately for each donor.
- sample-wise correlation and scatterplot of SST and PVALB across cortex (Figure 1e).
- write csv files of the cortical spatial correlation of every gene to sst and pvalb.
- correlation of SST and PVALB in each subcortical region examined.
- produce SST-PVALB correlation plots for each region.
- compare subcortical SST+PVALB to ground truth rodent cell densities.

04b_cortico_striato_thalamic.R - map volumetric locations of striatal/thalamic atlas of Choi et al. (2012) and Hwang et al. (2017). Both with AHBA and Chris Gorgo MNI coordinates.
- plot SST/PVALB for each functional defined subregion.
- t.test and wilcoxin test for significant differences in normalized SST and PVALB for limbic/sommot regions.

05_foci_schaeffer_parcel_mapping.R - Makes parcel-wise gene expression averages for each ROI in the 200/400 7/17 Network parcellations of Scheaffer et al (2018).
- Also provides donor-specific maps to check that any expression effects are stable at the individual level.
- Since donor tissue samples vary spatially across cortex, we check that no individual donor is dominating signal in any large number of parcels.
- BONUS: also computes averaged expression for desikan ROIs.
- Will create dscalar plots for:.
(1) averaged PVALB/SST expression.
(2) number of donors with data in each parcel.
(3) percentage of samples in a parcel from the max donor (measure of donor over-representation).
(4) average sst/pvalb parcelwise plots for each donor.
- At the end, we also perform a control analysis to ensure that the the SST/PVALB relationship is not driven by subject sampling bias or batch effects.
> the 6 AHBA donors were split into 2 groups of 3. Average LH parcelwise expression of each gene was calculated for each group.
> then SST expression from group 1 was correlated to PVALB expression in group 2, and vice versa. Process was repeated for each possible group split.

06a_preprocess_lake_data.R - Preprocesses raw single cell UMI visual and frontal cortex data from Lake et al. 2018.
- Applies basic preprocessing steps using the Seurat package.
(1) identification of cell and gene expression outliers.
(2) log-normalization.
(3) scaling and regression of number of detected genes per cell.
- Create gene name dictionary to match AHBA genes to sn-DropSeq genes.
- Write *seurat_processed.Rdata data objects for later reading.

06b_cibersortx_prep.R - For visual and frontal cortex sn-DropSeq data, subset to those genes that are present in both.
- Transform data out of log-space (format expected by CIBERSORTx).
- To reduce collinearity among gene signature matrix, collapse cell subtypes into overarching categorie (e.g. In6a and In6b cell become just PVALB).
- Write single-cell expression matrix, and AHBA mixture files.
- (not shown) Polygenic deconvolution of cell type fractions using (https://cibersortx.stanford.edu/).
>> at the time of publication, binaries for CIBERSORTx software had not been released for integration into analysis scripts.

06c_cibersortx.R - Process cell deconvolution output from CIBERSORTx.
- Plot signature matrices, and correlation plot of single-cell signature matrices for visual and frontal cortex cells.
- Create parcel-wise *dscalar.nii maps of cell-fractions.
- Correlate spatial maps of cell fractions to AHBA SST and PVALB.

07_get_rsfa_into_csv.R - Read RSFA data from each subject and compile into a csv file.

08_UKB_rsfc.R - Compile RSFC data, calc average connectivity for each edge.
- Create *dlabel.nii file showing cortical overlap between limbic striatal/default thalamus; and som/mot striatal/thalamic.
- Calculate SST and PVALB expression in limbic/som/mot cortical parcels;.

09_combine_ukb_data.R - Combines UKB resting state data with phenotype info.
- remove subjects with any missing data in a parcel.
- filters subjects with run-wise motion greater than 0.20.
- use DOB and scan date to calc age at scan.
- fill in missing BMI vals.
- combine with lesion volume estimates.
- subset to white/brit subs, remove heterozygosity/invSNR outliers.
- write subject list:.
>> then execute "12a_genetics_pipe.bash" to remove cryptically related individuals and calcualate genetic PCs.
>> subset MRI/PHENO dataframe, combine genetic PCS, and write for later processing.

10_cluster_rsfa_and_write_GCTA_files.R - scale quantitative covariates, residualize RSFA values for each parcel.
- hierarchical clustering into 7 clusters.
- create averaged parcel-wise RSFA average map, RSFA cluster dlabel.nii map.
- write csv files of phenotype, quantitative covariate, and categorical covariate data for GCTA.
- read AHBA and cell-fraction data for each parcel, then correlate to parcel-wise RSFA.
- the rest of the script produces a bunch of plots.

11_genetics_pipe.bash - subset UKB genetic data to usable imaging subjects.
- basic SNP preprocessing; GENO=0.02; mind=0.1; hwe=1e-6; MAF=0.5.
- remove crypic relatedness and calculate eigevectors.
- parallel preprocessing was done with MAF=0.01. results did not change with different MAF thresholds.

12_make_snp.lists.R
- identify SNPs occuring near coding regions of each gene
- read *bim SNP data form genetic preprocessing
- query biomaRt to retrieve information about gene locations
- read eQTL SNPs from NIH GTEx and CommonMind consortia
- cross-reference UKB genotypes SNPs with the gene dictionary, write RSID lists (i.e. for top 500 PVALB genes)

13_snp_herit.py
- use SNP lists to make partitioned GRMs
- calculate overall and partitioned heritability estimates for each cluster and parcel

14_process_hsq_files.R
- read/plot cluster-wise and parcel-wise heritability estimates (overall and partitioned)
- Wald test of significance for partitioned heritability estimates
- correlate partitioned heritabilities with parcel-wise AHBA expression, and cell-fraction maps
- *dscalar.nii plots of PVALB/SST partitioned heritability

15_prep_for_magma.bash
- Run gene-based MAGMA for the Ripke SCZ GWAS

16_prep_for_scz_magma.R
- Partitioned gene enrichment analysis of SCZ-GWAS MAGMA results
- Create MAGMA plots in Figure 6

17_scz_prs.R
- remove the MHC region from the UKB genotype data (except for top p-val SNP)
- run PRSice to calculate SCZ polygenic risk for UKB subjects
- run regression of SCZ PRS to cluster-wise and parcel-wise RSFA
- correlate parcel-wise AHBA and cell-fraction estimates to the parcelwise map of SCZ-PRS predictions

18_ahba_rnaseq.R
- stand-alone SST/PVALB cortical analysis of regional TPM values in the two bi-hemispheric AHBA subjects

19_bernard_primate_ctx.R
- stand-alone SST/PVALB cortical analysis of gene expression in NIH Blueprint (Bernard et al) macaques

20_brainspan_dev_ctx.R
- Correlation of SST and PVALB in cortex across developmental age bins using data from Brainspan Atlas.

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