Application
Vaccine Development
Enable different strategies for vaccine development to attack rapidly mutating viruses such as influenza, HCV, HIV, or coronaviruses. Use our platform to assist in the creation and optimization of different types of vaccines such as virus-like particles (VLPs), DNA vaccines, and RNA vaccines.
Efficient Data Traceability
Connect critical vaccine development information including sequence data, plate locations, experimental results, and sample tracking to streamline progress monitoring across your pipeline.
Sequence Data Tracking
Link sequence designs to experimental results, plate locations, and sample tracking for full traceability.
Pipeline Monitoring
Monitor progress across your vaccine development pipeline with real-time dashboards and status tracking.
Regulatory Compliance
Maintain complete audit trails and documentation required for regulatory submissions and quality management.
Candidate Selection & Protein Optimization
TeselaGen’s DISCOVER module provides ML algorithm creation, training, and execution capabilities using proprietary software for rapid data processing, adaptable to experimental needs for accelerated protein optimization and candidate selection.
ML-Driven Selection
Use machine learning algorithms to rapidly identify and prioritize the most promising vaccine candidates from large libraries.
Protein Optimization
Optimize antigen design, expression levels, and stability using AI-powered predictive models and iterative testing.
Rapid Data Processing
Process and analyze experimental data at scale with proprietary algorithms adaptable to your specific experimental needs.
Vaccine Design Strategies
Enable different strategies for vaccine development to attack rapidly mutating viruses such as influenza, HCV, HIV, or coronaviruses. Support the creation and optimization of different vaccine types.
Virus-Like Particles
Design and optimize virus-like particles (VLPs) with precise control over structural protein assembly and antigen display.
DNA & RNA Vaccines
Create and optimize DNA and RNA vaccine constructs with codon optimization, UTR design, and delivery vector selection.
Combinatorial Approaches
Explore combinatorial antigen designs and multi-valent vaccine strategies for broad protection against viral variants.
Try Tesela AI for free
Design libraries, generate protocols, and optimize experiments with AI agents. No credit card required.