ligandai 0.4.1

Official Python SDK for the LIGANDAI (TM) platform — peptide design, structure prediction, scoring, and discovery.

LIGANDAI Python SDK

Official Python SDK for the LIGANDAI platform — peptide design, structure prediction, scoring, and discovery.

License & Terms — By installing or using this SDK you agree to the LigandAI Terms of Service and End User License Agreement. API usage is logged for billing and abuse prevention. Submitted sequences and job artifacts may be retained under those terms. See LICENSE for the full agreement.

pip install ligandai

The SDK checks PyPI once per process when a client is created. If a newer valid ligandal/ligandai-python-sdk release exists, it emits:

python -m pip install --upgrade ligandai

Set LIGANDAI_SKIP_VERSION_CHECK=1 in hermetic CI if network checks are not allowed.

from ligandai import LigandAI, ResidueRange

client = LigandAI(api_key="lgai_pro_...")
print(f"Tier: {client.tier}, Credits: {client.credits}")

# Find tissue-specific surface markers
markers = client.discovery.tissue_markers(target_tissues=["Liver"], top_n=2000)

# Resolve a structure for the top marker
gene = markers.top[0].gene
structure = client.structures.get(gene)
analysis = client.structures.analyze(gene, analysis_depth="full")

# Generate peptides targeting the recommended pocket
pocket_ranges = []
if analysis.recommended_pocket:
    pocket_ranges = [analysis.recommended_pocket]

job = client.peptides.generate(
    gene=gene,
    num_peptides=50,
    target_residues=pocket_ranges,
    targeting_strategy="pocket_targeted",
    auto_fold=True,
    top_n_fold=25,
)

# Wait for completion (generation + auto-fold)
result = job.wait(timeout=1800)
print(f"Got {len(result.peptides)} peptides, top iPSAE: {result.peptides[0].ipsae}")

Designing against a specific PDB ID + chain

For a multimer like PDB 9MIR (chains A/B/C/D) where you only want to design against chain C, fetch the structure by PDB ID and pass target_chains:

client = LigandAI()
struct = client.structures.from_pdb("9MIR")     # confirms the PDB resolves
job = client.peptides.generate(
    gene="9MIR",                                 # PDB ID accepted as identifier
    target_chains=["C"],                         # restrict design to chain C
    num_peptides=50,
    auto_fold=True,
    top_n_fold=10,
)

Designing against a custom CIF/PDB on disk

from pathlib import Path

client = LigandAI()
up = client.proteins.upload_pdb(
    file=Path("/path/to/relaxed.cif"),
    gene="MY_TARGET",
    custom_name="my_relaxed_2026_05_07",
)
job = client.peptides.generate(
    gene="MY_TARGET",
    variant_id=up.id,
    target_chains=["A"],          # optional chain restriction on the upload
    num_peptides=25,
    auto_fold=True,
)

Pocket-targeted generation

Selected pockets can span one or more chains. The helper below compresses arbitrary selected residues into the continuous chain ranges expected by the generation API:

from ligandai import LigandAI, ResidueRange

client = LigandAI(api_key="lgai_basic_...")

target_residues = [
    *ResidueRange.from_residues([34, 35, 36, 41, 42], chain="A", label="EC pocket 1"),
    *ResidueRange.from_residues([102, 103, 104], chain="B", label="interface pocket"),
]

job = client.peptides.generate(
    gene="EGFR",
    num_peptides=25,
    target_residues=target_residues,
    targeting_strategy="pocket_targeted",
    quality_guided=True,
    auto_fold=True,
)

Authentication

# 1. Pass explicitly
client = LigandAI(api_key="lgai_basic_...")

# 2. Read from env var (preferred for prod)
# $ export LIGANDAI_API_KEY=lgai_basic_...
client = LigandAI()

# 3. Custom base URL (dev / on-prem / enterprise)
client = LigandAI(api_key="...", base_url="http://localhost:5050")

Any authenticated LIGANDAI account, including free accounts, can create API keys from account settings in the Developer/API Keys area. API keys identify the account; the API still gates feature access by tier, credits/tokens, and GPU limits.

API keys carry a tier prefix:

Prefix	Tier	What it can do
lgai_free_*	free	quality-guided generation up to 10 peptides, 10 folds, 3 targets, 1 folding GPU
lgai_basic_*	basic	up to 100 peptides, paid folding allowance, 4 folding GPUs
lgai_edu_*	academia	up to 300 peptides, academia guidance modules, 16 folding GPUs
lgai_pro_*	pro	up to 300 peptides, transcriptomics analysis, bivalent, 25 folding GPUs
lgai_ent_*	enterprise	everything + batch operations + priority queue
lgai_sa_*	superadmin	all features (internal)

The client detects the tier from the prefix at construction — no network call.

client.tier                     # "pro"
client.credits                  # int
client.feature_allowed("...")   # bool
client.max_peptides_per_generation
client.max_folds_per_generation
client.max_targets_per_generation
client.max_concurrent_gpu_slots
client.rate_limit_per_minute

When a method requires a higher tier than the key carries, it raises LigandAITierError client-side, before sending the request.

For agent-specific billing, token, API-key, and Claude Skill routing, see docs/agents.md.

Resource Namespaces

Namespace	Endpoints	What it does
client.account	/api/auth/user, /api/user-credits, ...	profile, credits, tier limits
client.receptors	/api/receptordb/*	search, browse, download PDBs
client.structures	/api/structure/*, /api/gene-resolver/*	gene → PDB / AlphaFold
client.proteins	/api/protein-info/*, /api/protein-variants/*	UniProt info, variants, custom PDBs
client.discovery	/api/transcriptomics/*, /api/scrna/*, /api/geo-import/*	tissue markers, scRNA, GEO import
client.diseases	/api/disease-viewer/*	disease search, mutations
client.goals	/api/autoresearch/*	persistent goal-directed AutoResearch runs
client.peptides	/api/ptf/parallel/*, /api/folding/*, /api/binder-scoring/*, /api/v1/deltaforge/score-pdb	generate, fold, score
client.bivalent	/api/ligandforge/bivalent/*	bispecific design (pro+)
client.synthesis	/api/synthesis-checkout/*, /api/adaptyv/*	quote, cart, order
client.memory	/api/episodic-memory/*	memory search & save
client.programs	/api/ptf/programs/*, /api/ptf/sessions/*	programs, projects, sessions
client.charts	/api/charts/*	matplotlib chart generation
client.reports	/api/reports/*	PDF report generation
client.jobs	/api/jobs/*	list, cancel, stream

Billing & Account Management (v0.3.0+)

# Check balance and runway
bal = client.account.get_balance()
print(f"{bal.credits} credits, {bal.days_remaining:.1f} days runway")

# Auto top-up when low
if bal.credits < 10000:
    client.account.top_up(amount_usd=200)

# Estimate cost before running a big job
est = client.peptides.estimate_cost(num_peptides=1000, auto_fold=True, fold_top_n=100)
print(f"This run will cost ~{est.credits} credits (${est.cost_usd:.2f})")

# Configure automatic top-ups
client.account.configure_auto_topup(
    enabled=True,
    threshold_credits=5000,
    amount_usd=200,
)

# Inspect recent transactions
txns = client.account.billing_usage(period="30d")
for t in txns[:5]:
    print(f"[{t.type}] {t.amount:+d} credits — {t.description}")

Track credits for a local agent or notebook run

Pass a stable client_session_id to tag every API request from a Claude Code, Codex, notebook, or pipeline run. The dashboard exposes the same run ID under Account Billing -> API Activity.

client = LigandAI(client_session_id="codex-il31-screen-20260505")

with client.session("codex-il31-screen-20260505") as run:
    job = client.peptides.generate(gene="IL31", num_peptides=25, auto_fold=True)
    result = job.wait()

print(run.credits_used)

usage = client.account.session_usage("codex-il31-screen-20260505")
print(usage.summary.total_calls, usage.summary.credits_used)

Persistent Goal Runs (v0.3.2+)

Goal runs are Automatic Mode jobs: they can keep running on the server and spending credits after your Python process exits until stopped or capped. The SDK requires automatic_mode=True as an explicit acknowledgement. This server capability is currently limited to internal pilot accounts.

run = client.goals.start(
    "Generate and fold IL31 peptides until at least five candidates exceed the iPSAE threshold",
    automatic_mode=True,
    budget_cap_credits=5000,
    max_iterations=3,
    conversation_id="optional-conversation-id",
    program_id="optional-ptf-program-id",
)

status = client.goals.get(run.run_id)
print(status.status, status.credits_consumed, status.budget_cap_credits)
print(status.automatic_mode_acknowledged, status.automatic_mode_acknowledged_at)
print(status.satisfaction_status, status.acceptance_criteria, status.evaluation_history[-1:])

graph = client.goals.graph(run.run_id)
print(graph.progress.percent, graph.next_actions[:1], graph.blockers)
for item in graph.checklist:
    print(item.status, item.type, item.label)

for event in client.goals.stream(run.run_id):
    print(event.type, event.run_id)
    if event.type in {"completed", "failed"}:
        break

client.goals.pause(run.run_id)
client.goals.resume(run.run_id)
client.goals.stop(run.run_id)

DeltaForge V10 Scoring

# Fold a target/binder pair, then score with DeltaForge auto mode.
job = client.peptides.score_complex(
    binder_sequence="ACDEFGHIK",
    target_sequence="MNPQRSTVWY",
    scorer="auto",  # auto | current | v10
)
score = job.wait().results
print(score.dg, score.kd_nm, score.scorer_version)

# Score your own PDB directly, with multivalent per-chain decomposition.
score = client.peptides.score_pdb(
    pdb_file="complex.pdb",
    receptor_chains=["A", "C"],
    peptide_chain="B",
    scorer="v10",
)
for pair in score.pair_scores or []:
    print(pair.receptor_chain, pair.peptide_chain, pair.dg, pair.contacts)

Folding Controls and Peptide Viewing (v0.3.3+)

Direct SDK folds default to one diffusion sample. Increase num_trajectories, sampling_steps, recycling_steps, or step_scale only when you need ensemble-validation depth. On eligible direct human receptor or receptor-complex folds, set contribute_to_receptordb=True to request ReceptorDB contribution and the documented discount.

job = client.peptides.generate(
    gene="IL31",
    num_peptides=25,
    auto_fold=True,
    top_n_fold=5,
    num_trajectories=4,
    folding_mode="parallel",
    fold_strategy="top_ranked",
    sampling_steps=50,
)

fold_job = client.peptides.fold(
    ["ACDEFGHIK", "MNPQRSTVWY"],
    sampling_steps=1000,
    recycling_steps=5,
    num_trajectories=10,
    step_scale=1.2,
    contribute_to_receptordb=True,
)

from ligandai import (
    align_candidates_to_receptor,
    load_peptide_results,
    rank_peptides,
    serve_dashboard,
    write_dashboard,
)

candidates = load_peptide_results(["fold_results.jsonl"])
ranked = rank_peptides(candidates, score="ipsae", limit=10)
aligned = align_candidates_to_receptor(ranked, "base_receptor.pdb", "aligned")
handle = write_dashboard(aligned, "peptide_dashboard")
serve_dashboard(handle, open_browser=True)

Terminal rendering can also launch ProteinView by Tristan Farmer / 001TMF, MIT License: https://github.com/001TMF/ProteinView.

Guidance Modules (v0.2.0+)

Quality-guided generation is available to all authenticated tiers, including free. Academia, pro, and enterprise keys unlock immunogenicity guidance, serum stability guidance, and logits-style advanced outputs:

# Immunogenicity guidance — reduce MHC-I/II epitopes and improve humanness
job = client.peptides.generate(
    gene="EGFR",
    num_peptides=200,
    immunogenicity=True,
    immuno_strength=2.5,
    immuno_modules={"mhc_i": True, "mhc_ii": True, "humanness": True},
)

# Serum stability — resist trypsin/DPP-IV/chymotrypsin cleavage
job = client.peptides.generate(
    gene="EGFR",
    num_peptides=200,
    serum_stability=True,
    stability_strength=2.0,
    stability_mode="resist",
    stability_modules={"trypsin": True, "chymotrypsin": True, "dppiv": True},
)

# Extended plasma half-life
job = client.peptides.generate(
    gene="EGFR",
    num_peptides=200,
    halflife="extended",
    halflife_strength=2.5,
)

# Charge / solubility filtering (server-tier gated)
# Keep only peptides with net charge < -1.0
job = client.peptides.generate(
    gene="EGFR",
    num_peptides=200,
    charge_mode="lt",
    charge_value=-1.0,
)

# Cyclic peptides — terminal Cys-Cys disulfide (primary Adaptyv synthesis route)
# Requires academia/pro/enterprise tier.
job = client.peptides.generate(
    gene="EGFR",
    num_peptides=100,
    length_range=(12, 22),      # cyclic-friendly length range
    cyclic_mode="disulfide",
    strict_recombinant=True,    # forbid internal Cys (required for Adaptyv path)
)

result = job.wait(timeout=1800)
for p in result.peptides:
    if p.stability_scores:
        print(f"{p.sequence}: grade={p.stability_scores.stability_grade}, "
              f"halflife={p.stability_scores.predicted_halflife_hours:.1f}h")
    if p.immuno_scores:
        print(f"  immuno_grade={p.immuno_scores.immuno_grade}, "
              f"pop_coverage={p.immuno_scores.population_coverage_pct:.0f}%")
    if p.cyclic_mode and p.cyclic_mode != "none":
        print(f"  cyclic={p.cyclic_mode}")

Long-Running Jobs

Generation, folding, and scoring submit GPU work and return a Job:

job = client.peptides.generate(gene="EGFR", num_peptides=10)
job.id              # str
job.status          # "queued" | "running" | "complete" | "failed"
job.progress        # 0-100 or None
job.estimated_credits

# Block until done
result = job.wait(timeout=1800, poll_interval=2.0)

# Or stream live progress events (SSE)
for event in job.stream():
    print(f"{event.stage}: {event.message} ({event.progress})")

# Cancel
job.cancel()

Async equivalents:

import asyncio
from ligandai import AsyncLigandAI

async def design_for_genes(genes):
    async with AsyncLigandAI() as client:
        jobs = await asyncio.gather(*[
            client.peptides.generate(gene=g, num_peptides=10) for g in genes
        ])
        results = await asyncio.gather(*[j.wait() for j in jobs])
        return results

results = asyncio.run(design_for_genes(["EGFR", "HER2", "KIT"]))

Errors

from ligandai import (
    LigandAIError,           # base
    LigandAIAuthError,       # 401 — invalid/expired/revoked key
    LigandAITierError,       # 403 — feature requires higher tier
    LigandAIRateLimitError,  # 429 — rate limit
    LigandAICreditError,     # 402 — insufficient credits
    LigandAINotFoundError,   # 404
    LigandAIServerError,     # 5xx (auto-retried)
    LigandAIValidationError, # 400/422
)

try:
    job = client.peptides.generate(gene="EGFR", num_peptides=10000)
except LigandAITierError as e:
    print(f"Need {e.required_tier}, you have {e.current_tier}")
except LigandAICreditError as e:
    print(f"Need {e.required} credits, have {e.available}")

Retry & Rate Limiting

The SDK automatically retries on 429, 5xx, and transient network errors with exponential backoff (configurable via max_retries=). It also respects Retry-After and X-RateLimit-Reset headers.

Per-tier rate limits:

Tier	req/min
free	10
basic	20
academia	30
pro	60
enterprise	300

ReceptorDB-restricted Client

For receptordb.com users, a thinner client exposes only browse / search / download (no API key required for read endpoints):

from ligandai import ReceptorDBClient

client = ReceptorDBClient()
hits = client.search("EGFR")
client.download_pdb(hits[0].complex_id, "egfr.pdb")

# With API key — fold/generate
client = ReceptorDBClient(api_key="lgai_basic_...")
job = client.fold(sequences=["MAEEPQSD..."], target_gene="EGFR")

Typed Models

All request/response shapes are pydantic models. IDE autocompletion works out of the box, including for nested fields:

from ligandai import BivalentTarget, LinkerConfig

session = client.bivalent.start(
    target1=BivalentTarget(gene="PDCD1", chain="A"),
    target2=BivalentTarget(gene="CD274", chain="A"),
    linker=LinkerConfig(position="C", length_min=8, length_max=20),
    binder_length_min=15,
    binder_length_max=40,
    num_designs=200,
)
print(session.id, session.status)

Examples

See examples/ for complete worked demos:

• examples/01_quickstart.py — auth, tier check, simple search
• examples/02_end_to_end.py — discovery → structure → generate → fold → score → cart
• examples/03_bivalent.py — PD-1 / PD-L1 bispecific design
• examples/04_async_parallel.py — design for many genes concurrently
• examples/05_custom_variant.py — fold a mutation, save as variant, regenerate
• examples/06_streaming.py — live SSE progress

Development

git clone https://github.com/ligandal/ligandai-python-sdk
cd ligandai-python-sdk
pip install -e ".[dev]"
pytest
mypy ligandai/
ruff check ligandai/

License

Proprietary. By installing or using this SDK you agree to the LigandAI Terms of Service, the LigandAI End User License Agreement, and the license terms in LICENSE.