glycoengineering
БесплатноБез исполняемых скриптовНе проверенAnalyze and engineer protein glycosylation. Scan sequences for N-glycosylation sequons (N-X-S/T), predict O-glycosylation hotspots, and access curated glycoengi
Об этом скилле
Glycoengineering
Overview
Glycosylation is the most common and complex post-translational modification (PTM) of proteins, affecting over 50% of all human proteins. Glycans regulate protein folding, stability, immune recognition, receptor interactions, and pharmacokinetics of therapeutic proteins. Glycoengineering involves rational modification of glycosylation patterns for improved therapeutic efficacy, stability, or immune evasion.
Two major glycosylation types:
- N-glycosylation: Attached to asparagine (N) in the sequon N-X-[S/T] where X ≠ Proline; occurs in the ER/Golgi
- O-glycosylation: Attached to serine (S) or threonine (T); no strict consensus motif; primarily GalNAc initiation
When to Use This Skill
Use this skill when:
- Antibody engineering: Optimize Fc glycosylation for enhanced ADCC, CDC, or reduced immunogenicity
- Therapeutic protein design: Identify glycosylation sites that affect half-life, stability, or immunogenicity
- Vaccine antigen design: Engineer glycan shields to focus immune responses on conserved epitopes
- Biosimilar characterization: Compare glycan patterns between reference and biosimilar
- Drug target analysis: Does glycosylation affect target engagement for a receptor?
- Protein stability: N-glycans often stabilize proteins; identify sites for stabilizing mutations
N-Glycosylation Sequon Analysis
Scanning for N-Glycosylation Sites
N-glycosylation occurs at the sequon N-X-[S/T] where X ≠ Proline.
import re
from typing import List, Tuple
def find_n_glycosylation_sequons(sequence: str) -> List[dict]:
"""
Scan a protein sequence for canonical N-linked glycosylation sequons.
Motif: N-X-[S/T], where X ≠ Proline.
Args:
sequence: Single-letter amino acid sequence
Returns:
List of dicts with position (1-based), motif, and context
"""
seq = sequence.upper()
results = []
i = 0
while i <= len(seq) - 3:
triplet = seq[i:i+3]
if triplet[0] == 'N' and triplet[1] != 'P' and triplet[2] in {'S', 'T'}:
context = seq[max(0, i-3):i+6] # ±3 residue context
results.append({
'position': i + 1, # 1-based
'motif': triplet,
'context': context,
'sequon_type': 'NXS' if triplet[2] == 'S' else 'NXT'
})
i += 3
else:
i += 1
return results
def summarize_glycosylation_sites(sequence: str, protein_name: str = "") -> str:
"""Generate a research log summary of N-glycosylation sites."""
sequons = find_n_glycosylation_sequons(sequence)
lines = [f"# N-Glycosylation Sequon Analysis: {protein_name or 'Protein'}"]
lines.append(f"Sequence length: {len(sequence)}")
lines.append(f"Total N-glycosylation sequons: {len(sequons)}")
if sequons:
lines.append(f"\nN-X-S sites: {sum(1 for s in sequons if s['sequon_type'] == 'NXS')}")
lines.append(f"N-X-T sites: {sum(1 for s in sequons if s['sequon_type'] == 'NXT')}")
lines.append(f"\nSite details:")
for s in sequons:
lines.append(f" Position {s['position']}: {s['motif']} (context: ...{s['context']}...)")
else:
lines.append("No canonical N-glycosylation sequons detected.")
return "\n".join(lines)
# Example: IgG1 Fc region
fc_sequence = "APELLGGPSVFLFPPKPKDTLMISRTPEVTCVVVDVSHEDPEVKFNWYVDGVEVHNAKTKPREEQYNSTYRVVSVLTVLHQDWLNGKEYKCKVSNKALPAPIEKTISKAKGQPREPQVYTLPPSREEMTKNQVSLTCLVKGFYPSDIAVEWESNGQPENNYKTTPPVLDSDGSFFLYSKLTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSLSPGK"
print(summarize_glycosylation_sites(fc_sequence, "IgG1 Fc"))
Mutating N-Glycosylation Sites
def eliminate_glycosite(sequence: str, position: int, replacement: str = "Q") -> str:
"""
Eliminate an N-glycosylation site by substituting Asn → Gln (conservative).
Args:
sequence: Protein sequence
position: 1-based position of the Asn to mutate
replacement: Amino acid to substitute (default Q = Gln; similar size, not glycosylated)
Returns:
Mutated sequence
"""
seq = list(sequence.upper())
idx = position - 1
assert seq[idx] == 'N', f"Position {position} is '{seq[idx]}', not 'N'"
seq[idx] = replacement.upper()
return ''.join(seq)
def add_glycosite(sequence: str, position: int, flanking_context: str = "S") -> str:
"""
Introduce an N-glycosylation site by mutating a residue to Asn,
and ensuring X ≠ Pro and +2 = S/T.
Args:
position: 1-based position to introduce Asn
flanking_context: 'S' or 'T' at position+2 (if modification needed)
"""
seq = list(sequence.upper())
idx = position - 1
# Mutate to Asn
seq[idx] = 'N'
# Ensure X+1 != Pro (mutate to Ala if needed)
if idx + 1 < len(seq) and seq[idx + 1] == 'P':
seq[idx + 1] = 'A'
# Ensure X+2 = S or T
if idx + 2 < len(seq) and seq[idx + 2] not in ('S', 'T'):
seq[idx + 2] = flanking_context
return ''.join(seq)
O-Glycosylation Analysis
Heuristic O-Glycosylation Hotspot Prediction
def predict_o_glycosylation_hotspots(
sequence: str,
window: int = 7,
min_st_fraction: float = 0.4,
disallow_proline_next: bool = True
) -> List[dict]:
"""
Heuristic O-glycosylation hotspot scoring based on local S/T density.
Not a substitute for NetOGlyc; use as fast baseline.
Rules:
- O-GalNAc glycosylation clusters on Ser/Thr-rich segments
- Flag Ser/Thr residues in windows enriched for S/T
- Avoid S/T immediately followed by Pro (TP/SP motifs inhibit GalNAc-T)
Args:
window: Odd window size for local S/T density
min_st_fraction: Minimum fraction of S/T in window to flag site
"""
if window % 2 == 0:
window = 7
seq = sequence.upper()
half = window // 2
candidates = []
for i, aa in enumerate(seq):
if aa not in ('S', 'T'):
continue
if disallow_proline_next and i + 1 < len(seq) and seq[i+1] == 'P':
continue
start = max(0, i - half)
end = min(len(seq), i + half + 1)
segment = seq[start:end]
st_count = sum(1 for c in segment if c in ('S', 'T'))
frac = st_count / len(segment)
if frac >= min_st_fraction:
candidates.append({
'position': i + 1,
'residue': aa,
'st_fraction': round(frac, 3),
'window': f"{start+1}-{end}",
'segment': segment
})
return candidates
External Glycoengineering Tools
1. NetOGlyc 4.0 (O-glycosylation prediction)
Web service for high-accuracy O-GalNAc site prediction:
- URL: https://services.healthtech.dtu.dk/services/NetOGlyc-4.0/
- Input: FASTA protein sequence
- Output: Per-residue O-glycosylation probability scores
- Method: Neural network trained on experimentally verified O-GalNAc sites
import requests
def submit_netoglycv4(fasta_sequence: str) -> str:
"""
Submit sequence to NetOGlyc 4.0 web service.
Returns the job URL for result retrieval.
Note: This uses the DTU Health Tech web service. Results take ~1-5 min.
"""
url = "https://services.healthtech.dtu.dk/cgi-bin/webface2.cgi"
# NetOGlyc submission (parameters may vary with web service version)
# Recommend using the web interface directly for most use cases
print("Submit sequence at: https://services.healthtech.dtu.dk/services/NetOGlyc-4.0/")
return url
# Also: NetNGlyc for N-glycosylation prediction
# URL: https://services.healthtech.dtu.dk/services/NetNGlyc-1.0/
2. GlycoShield-MD (Glycan Shielding Analysis)
GlycoShield-MD analyzes how glycans shield protein surfaces during MD simulations:
- URL: https://gitlab.mpcdf.mpg.de/dioscuri-biophysics/glycoshield-md/
- Use: Map glycan shielding on protein surface over MD trajectory
- **
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FAQ
Что делает скилл glycoengineering?
Analyze and engineer protein glycosylation. Scan sequences for N-glycosylation sequons (N-X-S/T), predict O-glycosylation hotspots, and access curated glycoengineering tools (NetOGlyc, GlycoShield, GlycoWorkbench). For glycoprotein engineering, therapeutic antibody optimization, and vaccine design.
Как установить скилл glycoengineering?
Скопируй папку скилла в ~/.claude/skills (вкладка Claude Code выше делает это одной командой), либо поставь как плагин.
Скилл glycoengineering запускает скрипты?
Нет, скилл состоит только из инструкций (SKILL.md), без исполняемых скриптов.
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