Laboratory automation toolkit for controlling liquid handlers, plate readers, pumps, heater shakers, incubators, centrifuges, and analytical equipment. Use this skill when automating laboratory workflows, programming liquid handling robots (Hamilton STAR, Opentrons OT-2, Tecan EVO), integrating lab equipment, managing deck layouts and resources (plates, tips, containers), reading plates, or creating reproducible laboratory protocols. Applicable for both simulated protocols and physical hardware control.
Quick integration into your workflow with minimal setup
Active open-source community with continuous updates
MIT/Apache licensed for commercial and personal use
Customizable and extendable based on your needs
Download or copy the skill file from the source repository
Place the skill file in Claude's skills directory (usually ~/.claude/skills/)。
Restart Claude or run the reload command to load the skill
Tip: Read the documentation and code carefully before first use to understand functionality and permission requirements
All Skills from open-source community, preserving original authors' copyrights
K-Dense-AI__claude-scientific-skills/scientific-skills/pylabrobot/Skill.mdProven benefits and measurable impact
Reduce time spent manually searching variant databases by 5x through instant ClinVar queries.
Increase pathogenic variant identification rates by 30% with ClinVar integration.
Cut VCF annotation time in half by automating ClinVar data retrieval and mapping.
Perfect for these scenarios
Determine clinical significance of genetic variants for patient diagnosis and treatment planning.
Annotate VCF files with ClinVar data to streamline variant analysis in genomic research.
Identify pathogenic variants in patients with undiagnosed rare diseases for clinical decision-making.
Assess drug-response variants to guide personalized medication choices and dosage adjustments.