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Flow Cytometry Gating Strategist

Name: Flow Cytometry Gating Strategist
Author: aipoch-ai

作者 AIpoch · GitHub ↗ · v0.1.0 · MIT-0

cross-platform ⚠ suspicious

206

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在 OpenClaw 中安装

/install flow-cytometry-gating-strategist

功能描述

Recommend optimal flow cytometry gating strategies for specific cell types and fluorophores

使用说明 (SKILL.md)

Skill: Flow Cytometry Gating Strategist

Recommend optimal flow cytometry gating strategies for given cell types and fluorophores.

Basic Information

ID: 103
Name: Flow Cytometry Gating Strategist
Purpose: Flow cytometry data analysis and gating strategy recommendations

Usage

Command Line

# Recommended format: comma-separated cell types and fluorophores
python scripts/main.py "CD4+ T cells,CD8+ T cells" "FITC,PE,APC"

# Or specify parameters separately
python scripts/main.py --cell-types "CD4+ T cells,CD8+ T cells" --fluorophores "FITC,PE,APC"

# Support more options
python scripts/main.py \
  --cell-types "B cells" \
  --fluorophores "FITC,PE,PerCP-Cy5.5,APC" \
  --instrument "BD FACSCanto II" \
  --purpose "cell sorting"

Parameters

Parameter	Type	Default	Required	Description
`--cell-types`	string	-	Yes	Comma-separated list of cell types (e.g., "CD4+ T cells,CD8+ T cells")
`--fluorophores`	string	-	Yes	Comma-separated list of fluorophores (e.g., "FITC,PE,APC")
`--instrument`	string	-	No	Flow cytometer model (e.g., "BD FACSCanto II")
`--purpose`	string	analysis	No	Purpose (analysis, cell sorting, screening)
`--output`, `-o`	string	stdout	No	Output file path for JSON results

Output Format

{
  "recommended_strategy": {
    "name": "Sequential Gating Strategy",
    "description": "Gating based on FSC-A/SSC-A, followed by fluorescence intensity analysis",
    "steps": [
      {
        "step": 1,
        "gate": "FSC-A vs SSC-A",
        "purpose": "Identify target cell population, exclude debris and dead cells",
        "recommendation": "Set oval gate in lymphocyte region"
      }
    ]
  },
  "fluorophore_recommendations": [
    {
      "fluorophore": "FITC",
      "channel": "BL1",
      "detector": "530/30",
      "considerations": ["May spillover with GFP"]
    }
  ],
  "panel_optimization": {
    "suggestions": ["Recommend pairing weakly expressed antigens with bright fluorophores"],
    "avoid_combinations": ["FITC and GFP used simultaneously"]
  },
  "compensation_notes": ["FITC and PE require careful compensation"],
  "quality_control": ["Recommend setting FMO controls", "Use viability dyes to exclude dead cells"]
}

Supported Cell Types

T cells: CD4+ T cells, CD8+ T cells, Treg cells, Th1, Th2, Th17, γδ T cells
B cells: B cells, Plasma cells, Memory B cells, Naive B cells
Myeloid cells: Monocytes, Macrophages, Dendritic cells, Neutrophils, Eosinophils
Stem cells: HSC, MSC, iPSC
Tumor cells: Tumor cells, Cancer stem cells
Others: NK cells, NKT cells, Platelets, Erythrocytes

Supported Fluorophores

Fluorophore	Excitation Wavelength	Emission Wavelength	Detection Channel
FITC	488nm	525nm	BL1
PE	488nm	575nm	YL1/BL2
PerCP	488nm	675nm	RL1
PerCP-Cy5.5	488nm	695nm	RL1
PE-Cy7	488nm	785nm	RL2
APC	640nm	660nm	RL1
APC-Cy7	640nm	785nm	RL2
BV421	405nm	421nm	VL1
BV510	405nm	510nm	VL2
BV605	405nm	605nm	VL3
BV650	405nm	650nm	VL4
BV785	405nm	785nm	VL6
DAPI	355nm	461nm	UV
PI	488nm	617nm	YL2

Gating Strategy Types

1. Sequential Gating

Applicable scenario: Simple immunophenotyping analysis

FSC-A/SSC-A → Exclude debris/dead cells → Fluorescence intensity analysis

2. Boolean Gating

Applicable scenario: Complex cell subset analysis

Use logical operators (AND, OR, NOT) to define cell populations

3. Dimensionality Reduction Gating

Applicable scenario: High-dimensional data (>15 colors)

t-SNE/UMAP visualization-assisted gating

4. Unsupervised Clustering

Applicable scenario: Discovery of unknown cell populations

FlowSOM, PhenoGraph and other algorithms

Notes

Spectral Overlap Compensation: Multi-color panels must undergo compensation calculation
Control Setup: Must use FMO (fluorescence minus one) and isotype controls
Dead Cell Exclusion: Strongly recommend using viability dyes
Instrument Calibration: Perform QC and standard bead detection before experiments

Dependencies

Python 3.8+
No external dependencies (pure Python standard library)

Version

v1.0.0 - Initial version, supports basic gating strategy recommendations

Risk Assessment

Risk Indicator	Assessment	Level
Code Execution	Python scripts with tools	High
Network Access	External API calls	High
File System Access	Read/write data	Medium
Instruction Tampering	Standard prompt guidelines	Low
Data Exposure	Data handled securely	Medium

Security Checklist

No hardcoded credentials or API keys
No unauthorized file system access (../)
Output does not expose sensitive information
Prompt injection protections in place
API requests use HTTPS only
Input validated against allowed patterns
API timeout and retry mechanisms implemented
Output directory restricted to workspace
Script execution in sandboxed environment
Error messages sanitized (no internal paths exposed)
Dependencies audited
No exposure of internal service architecture

Prerequisites

No additional Python packages required.

Evaluation Criteria

Success Metrics

Successfully executes main functionality
Output meets quality standards
Handles edge cases gracefully
Performance is acceptable

Test Cases

Basic Functionality: Standard input → Expected output
Edge Case: Invalid input → Graceful error handling
Performance: Large dataset → Acceptable processing time

Lifecycle Status

Current Stage: Draft
Next Review Date: 2026-03-06
Known Issues: None
Planned Improvements:
- Performance optimization
- Additional feature support

安全使用建议

The skill appears to be a local Python-based recommendation tool and mostly coherent with its stated purpose, but there are two reasons to be cautious before installing: (1) SKILL.md claims network/API usage and a high risk level while the package declares no network access or credentials — ask the author to explain/confirm whether the script contacts any external endpoints or requires API keys; (2) scripts/main.py was truncated in the package listing here, so review the full file for any of the following before running: imports of network or HTTP libraries (requests, urllib, http, socket), subprocess or os.system usage, direct reads of sensitive files or os.environ, hardcoded endpoints or obfuscated strings, or code that writes to unexpected locations. Run the script in a sandboxed environment (isolated VM or container) and avoid supplying sensitive or patient-identifiable data until you confirm no exfiltration/network calls occur. If you need, provide the full scripts/main.py for a deeper review.

功能分析

Type: OpenClaw Skill Name: flow-cytometry-gating-strategist Version: 0.1.0 The skill bundle is a legitimate tool for recommending flow cytometry gating strategies. The Python script (scripts/main.py) performs local data lookups and logic checks against an internal database of fluorophores and cell types, with no external dependencies, network calls, or suspicious execution patterns. While the SKILL.md documentation mentions 'High' risk and 'Network Access', the provided code is entirely self-contained and safe.

能力评估

ℹ Purpose & Capability

Name/description (recommend gating strategies) align with the provided Python script and the included fluorophore/cell-type databases. However, SKILL.md labels the skill as 'Hybrid (Tool/Script + Network/API)' and 'Network Access: External API calls' while the declared requirements list no network, no env vars, and no external dependencies — this is an inconsistency that is not justified by the rest of the package.

✓ Instruction Scope

Runtime instructions in SKILL.md only tell the agent to run scripts/main.py with cell type and fluorophore arguments and to output JSON; they do not ask the agent to read arbitrary system files, environment variables, or contact unspecified external endpoints. The security checklist in SKILL.md recommends network/HTTPS and sandboxing, but that is advisory rather than prescriptive.

✓ Install Mechanism

There is no install spec and no external downloads. The package includes a local Python script that will be executed; no package manager or remote archive is pulled during install. This is low-medium risk but execution of supplied code is required to operate the skill.

✓ Credentials

The skill declares no required environment variables, no credentials, and no config paths. That is proportionate for an offline recommendation tool. The mismatch with SKILL.md's claims of external API access should be resolved (either remove that claim or document required credentials/endpoints).

✓ Persistence & Privilege

The skill does not request always:true and does not declare operations that would modify other skills or system-wide settings. Its runtime behavior appears limited to running the included script.

如何使用

确保已安装 OpenClaw（本地或 Docker 部署）
在对话框中输入安装命令：/install flow-cytometry-gating-strategist
安装完成后，直接呼叫该 Skill 的名称或使用 /flow-cytometry-gating-strategist 触发
根据 Skill 的参数说明提供必要输入，即可获得结构化输出

版本历史

v0.1.0

Initial release of the Flow Cytometry Gating Strategist skill: - Provides optimal flow cytometry gating strategy recommendations based on specified cell types and fluorophores. - Supports a wide range of cell types and common fluorophores with channel and compatibility notes. - Offers multiple gating strategy types (sequential, Boolean, dimensionality reduction, clustering). - Includes command-line interface with flexible parameter options (cell types, fluorophores, instrument, purpose). - Delivers detailed output including recommended strategies, fluorophore guidance, panel optimization, compensation, and QC notes. - Pure Python; no external dependencies required.

元数据

Slug flow-cytometry-gating-strategist

版本 0.1.0

许可证 MIT-0

累计安装 0

当前安装数 0

历史版本数 1

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