qzzqzzb/peptide-properties-calculation
drclaw/agent_hub/templates/biochemistry/skills/peptide-properties-calculation/SKILL.md
Calculate peptide sequence properties including molecular weight, isoelectric point, extinction coefficient, and chemical formula.
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SKILL.md
- name:
- peptide-properties-calculation
- description:
- Calculate peptide sequence properties including molecular weight, isoelectric point, extinction coefficient, and chemical formula.
- license:
- MIT license
- skill-author:
- PJLab
Peptide Properties Calculation
Usage
1. MCP Server Definition
Use the same BiologyToolsClient class as defined in the protein-properties-calculation skill.
2. Peptide Properties Calculation Workflow
This workflow calculates comprehensive physicochemical properties of peptide sequences for peptide drug design, synthesis planning, and characterization.
Workflow Steps:
- Calculate Peptide Properties - Compute MW, pI, extinction coefficient, GRAVY, and chemical formula
- Analyze Multiple Peptides - Compare properties across different sequences
Implementation:
## Initialize client
HEADERS = {"SCP-HUB-API-KEY": "<your-api-key>"}
client = BiologyToolsClient(
"https://scp.intern-ai.org.cn/api/v1/mcp/29/SciToolAgent-Bio",
HEADERS
)
if not await client.connect():
print("connection failed")
exit()
print("=== Peptide Properties Calculation ===\n")
## Input: Peptide sequences to analyze
peptides = [
("All 20 amino acids", "ACDEFGHIKLMNPQRSTVWY"),
("Glycine repeat", "GGGGG"),
("Arginine repeat (positively charged)", "RRRRR"),
]
## Calculate properties for each peptide
for name, peptide in peptides:
print(f"--- {name}: {peptide} ---")
# Calculate peptide properties
result = await client.client.call_tool(
"CalculatorPeptideProperty",
arguments={
"sq": peptide,
"aaCode": "0", # Use single-letter code
"nTerm": "", # N-terminal modification (if any)
"cTerm": "", # C-terminal modification (if any)
"disulphideBonds": "" # Disulfide bonds (if any)
}
)
result_data = client.parse_result(result)
print(f"{result_data}\n")
## Additional analysis: Peptide weight calculation
print("=== Peptide Weight Calculation (Alternative Method) ===\n")
test_peptide = "ACDEFGHIKLMNPQRSTVWY"
result = await client.client.call_tool(
"PeptideWeightCalculator",
arguments={"sequence": test_peptide}
)
result_data = client.parse_result(result)
print(f"Peptide: {test_peptide}")
print(f"{result_data}\n")
## Additional analysis: Peptide formula calculation
print("=== Peptide Chemical Formula ===\n")
result = await client.client.call_tool(
"PeptideFormulaCalculator",
arguments={"sequence": test_peptide}
)
result_data = client.parse_result(result)
print(f"Peptide: {test_peptide}")
print(f"{result_data}\n")
await client.disconnect()
Tool Descriptions
SciToolAgent-Bio Server:
-
CalculatorPeptideProperty: Calculate comprehensive peptide properties- Args:
sq(str): Peptide sequence (single or three-letter code)aaCode(str): "0" for single-letter, "1" for three-letter codenTerm(str): N-terminal modification (e.g., "Acetyl", "")cTerm(str): C-terminal modification (e.g., "Amide", "")disulphideBonds(str): Disulfide bonds specification
- Returns: MW, extinction coefficient, pI, GRAVY, chemical formula, sequence length
- Args:
-
PeptideWeightCalculator: Calculate peptide molecular weight- Args:
sequence(str) - Peptide sequence - Returns: Molecular weight in Daltons
- Args:
-
PeptideFormulaCalculator: Calculate peptide chemical formula- Args:
sequence(str) - Peptide sequence - Returns: Molecular formula (e.g., C₁₀₇H₁₅₉N₂₉O₃₀S₂)
- Args:
Input/Output
Input:
sq: Peptide sequence in single-letter (ACDEFG...) or three-letter (Ala-Cys-Asp...) codeaaCode: "0" for single-letter code, "1" for three-letter codenTerm: Optional N-terminal modificationcTerm: Optional C-terminal modificationdisulphideBonds: Optional disulfide bond specification
Output:
- Average Molecular Weight: Mass in g/mol or Daltons
- Extinction Coefficient: For peptide quantification at 280nm (M⁻¹cm⁻¹)
- Theoretical Isoelectric Point (pI): pH at which peptide has no net charge
- GRAVY (Grand Average of Hydropathy): Hydrophobicity index
- Chemical Formula: Elemental composition (C, H, N, O, S)
- Sequence Length: Number of amino acid residues
- Three-letter Representation: Full peptide notation
Use Cases
- Design peptide drugs and therapeutics
- Plan peptide synthesis strategies
- Calculate peptide concentrations spectrophotometrically
- Predict peptide solubility and stability
- Optimize peptide purification conditions
- Design peptide-based biosensors
- Analyze peptide fragments from mass spectrometry
Terminal Modifications
Common N-terminal modifications:
- Acetyl: Blocks N-terminus, increases stability
- Formyl: Common in bacterial proteins
- None: Free amine group (default)
Common C-terminal modifications:
- Amide: Blocks C-terminus, increases stability
- None: Free carboxyl group (default)
Example with modifications:
result = await client.client.call_tool(
"CalculatorPeptideProperty",
arguments={
"sq": "ACDEFG",
"aaCode": "0",
"nTerm": "Acetyl",
"cTerm": "Amide",
"disulphideBonds": ""
}
)
GRAVY Interpretation
- GRAVY < -0.5: Very hydrophilic (highly soluble)
- GRAVY -0.5 to 0: Hydrophilic (soluble)
- GRAVY 0 to +0.5: Hydrophobic (may have solubility issues)
- GRAVY > +0.5: Very hydrophobic (likely membrane-associated or poorly soluble)
Extinction Coefficient Usage
Calculate peptide concentration:
Concentration (M) = Absorbance at 280nm / (Extinction Coefficient × Path Length)
Where path length is typically 1 cm for standard cuvettes.
Note: Extinction coefficient is primarily determined by Trp (5500), Tyr (1490), and Cys-Cys (125) residues.
Additional Peptide Tools Available
ConvertingPeptide2SMILES: Convert peptide sequence to SMILES notationProteinIsoelectricPointCalculator: Calculate pI for longer sequencesComputeAffinity: Predict peptide-protein binding affinityOverlapPeptideLibraryDesign: Design peptide librariesAlanineScanningLibraryDesign: Design mutagenesis librariesTruncationLibraryDesign: Design truncation variants
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