Senior computational biologist working at the intersection of systems biology, transcriptomics, and drug discovery.
I design and implement reproducible computational workflows for multi-omics integration, network inference, and mechanism-driven data interpretation. My work focuses on extracting robust biological signal from high-dimensional datasets and translating systems-level insights into drug prioritisation and biomarker strategies.
I am a licensed pharmacist in Finland with clinical and pharmacological training that informs my systems pharmacology and translational modelling work. I also bring a background in evolutionary population ecology, shaping my perspective on biological variation and selection.
Production-style RNA-seq workflow (Docker + Snakemake + explicit Python CLI wrapper) demonstrating:
- FASTQ-level QC and reference preparation
- STARsolo alignment
- Donor-aware differential analysis (DESeq2 + TOST)
- Co-expression and network-based downstream analysis
- Explicit execution control via wrapper interface
- Fully containerized, reproducible execution
Repository:
https://github.com/inkasimo/scRNAseq-pbmc-workflow
Inkala, S., Fratello, M., del Giudice, G. et al. MUUMI: an R package for statistical and network-based meta-analysis for multi-omics data integration. BMC Bioinformatics (2026). https://doi.org/10.1186/s12859-026-06394-3
Repository: https://github.com/fhaive/muumi
- Systems biology and network-based modelling
- Multi-omics data integration and transcriptomics
- Systems pharmacology and mechanism driven drug discovery
- Reproducible computational workflows (Snakemake, Docker, HPC)
- Biologically interpretable modelling and validation strategies