Bioinformatics &Computational Biology
AI-driven platforms accelerating discovery in life sciences and precision medicine
At Myriadancy Technologies, we design and deliver advanced bioinformatics solutions that transform complex biological data into actionable insights. Our expertise spans spatial omics, biological foundation models, and custom bioinformatics software, empowering research organizations, biopharma, and healthcare innovators to achieve breakthroughs in drug discovery, precision medicine, and systems biology.
Focus Areas
Spatial Omics & Single-Cell Analysis
High-resolution insights into cellular diversity and tissue architecture
We specialize in computational workflows for single-cell and spatial transcriptomics/proteomics, enabling researchers to map biological complexity at unprecedented scale.
- Single-cell RNA sequencing (scRNA-seq) pipelines – End-to-end processing, clustering, and annotation of transcriptomic profiles.
- Spatial transcriptomics & proteomics – Integration of molecular expression data with tissue architecture.
- Multi-omics data fusion – Combining transcriptomic, proteomic, and epigenomic data for holistic biological insight.
- Rare-cell detection & state transitions – Identification of rare subpopulations and transitional cellular states.
Impact
Accelerate biomarker discovery, reveal disease mechanisms, and improve therapeutic targeting through precise cellular mapping.
Biological Foundation Models
Next-generation AI models for biology
We leverage pre-trained biological foundation models—trained on large-scale cell atlases and omics datasets—to deliver rich representations of cellular and molecular states.
Applications include:
- Cellular Profiling & Annotation – Foundation-model embeddings for accurate and scalable cell type identification.
- Trajectory & Pseudotime Inference – Modeling developmental and differentiation pathways with AI-driven embeddings.
- Perturbation Prediction – Forecasting transcriptional and proteomic responses to genetic or drug perturbations.
- Cross-dataset Integration – Harmonizing heterogeneous omics datasets for comparative and translational studies.
Impact
Reduce experimental overhead, accelerate hypothesis generation, and unlock predictive modeling across biological systems.
Custom Bioinformatics Pipeline Development
Scalable, reproducible, cloud-native workflows
Every research program has unique requirements. We develop custom bioinformatics pipelines that adapt to your data types, research goals, and computational infrastructure.
Capabilities include:
- Automated, cloud-native pipelines for genomics, transcriptomics, proteomics, and imaging data.
- High-performance computing (HPC) integration for large-scale, multi-omics workloads.
- Interoperability with major bioinformatics tools and data standards.
- Scalability from proof-of-concept studies to population-scale analysis.
Impact
Reliable, reproducible pipelines that shorten analysis timelines and ensure research scalability.
Custom AI Software Development for Bioinformatics
From algorithms to enterprise-ready platforms
We combine AI engineering with domain expertise in computational biology to build custom AI-powered platforms for research and clinical applications.
- Interactive analytics platforms – User-friendly interfaces for exploring complex omics datasets.
- Visualization tools – High-dimensional cell and tissue visualizations for intuitive biological interpretation.
- Model deployment – Seamless integration of foundation models into research pipelines.
- APIs & microservices – For embedding AI-driven bioinformatics functions into existing enterprise or laboratory ecosystems.
Impact
Equip research and clinical teams with tools that are scalable, accessible, and tailored to their workflows.
Partner With Us
AI and bioinformatics are redefining how biology is explored and applied. Whether your goal is to map cellular heterogeneity, develop predictive disease models, or scale bioinformatics workflows, Myriadancy Technologies delivers the expertise, infrastructure, and AI-driven innovation to accelerate your research.
👉 Start your research project or explore our platforms today.