🔬 AMP Candidates

2,713 computationally predicted antimicrobial peptide candidates

🧬 About these candidates

Each candidate was identified by mining extreme-environment metagenomes with ESM-2, a protein language model trained on 250M sequences. Candidates pass multi-stage filtering: biophysical scoring, novelty screening against 863K known AMPs (APD3 + DRAMP + AMPSphere), hemolysis risk prediction, and structural validation via AlphaFold2.

⚠️ All candidates are computationally predicted — no experimental validation has been performed.

🔒Amino acid sequences are not shown — sequences are proprietary research data. Interested in collaboration? Contact us.

All biomes 🌋 Hot Springs(2,065)🧊 Permafrost(646)🌑 Abyssal(1)🌊 Deep Sea Vents(1)

🌋

#217

🌋 Hot Springs

database-novel

ESM-2 AMP ScoreProbability of antimicrobial activity (0–1). Higher = more likely AMP.

0.9955

LengthPeptide length in amino acids26 aa

Net ChargeCharge at pH 7. Most AMPs are cationic (+)7.0

HydrophobicFraction of hydrophobic residues (0–1)42%

PhyschemComposite physicochemical plausibility score4.0

✅ Low hemolysisPredicted probability of red blood cell lysis. <0.5 = non-hemolytic(0.33)

0% max identityHighest sequence identity to any known AMP in databases

🌋

#218

🌋 Hot Springs

database-novel

ESM-2 AMP ScoreProbability of antimicrobial activity (0–1). Higher = more likely AMP.

0.9955

LengthPeptide length in amino acids49 aa

Net ChargeCharge at pH 7. Most AMPs are cationic (+)9.5

HydrophobicFraction of hydrophobic residues (0–1)49%

PhyschemComposite physicochemical plausibility score5.0

✅ Low hemolysisPredicted probability of red blood cell lysis. <0.5 = non-hemolytic(0.49)

0% max identityHighest sequence identity to any known AMP in databases

🧊

#219

🧊 Permafrost

database-novel

ESM-2 AMP ScoreProbability of antimicrobial activity (0–1). Higher = more likely AMP.

0.9955

LengthPeptide length in amino acids44 aa

Net ChargeCharge at pH 7. Most AMPs are cationic (+)3.5

HydrophobicFraction of hydrophobic residues (0–1)45%

PhyschemComposite physicochemical plausibility score4.0

✅ Low hemolysisPredicted probability of red blood cell lysis. <0.5 = non-hemolytic(0.26)

0% max identityHighest sequence identity to any known AMP in databases

🌋

#220

🌋 Hot Springs

database-novel

ESM-2 AMP ScoreProbability of antimicrobial activity (0–1). Higher = more likely AMP.

0.9954

LengthPeptide length in amino acids40 aa

Net ChargeCharge at pH 7. Most AMPs are cationic (+)10.0

HydrophobicFraction of hydrophobic residues (0–1)43%

PhyschemComposite physicochemical plausibility score4.0

✅ Low hemolysisPredicted probability of red blood cell lysis. <0.5 = non-hemolytic(0.30)

0% max identityHighest sequence identity to any known AMP in databases

🧊

#221

🧊 Permafrost

database-novel

ESM-2 AMP ScoreProbability of antimicrobial activity (0–1). Higher = more likely AMP.

0.9954

LengthPeptide length in amino acids42 aa

Net ChargeCharge at pH 7. Most AMPs are cationic (+)12.5

HydrophobicFraction of hydrophobic residues (0–1)29%

PhyschemComposite physicochemical plausibility score3.0

✅ Low hemolysisPredicted probability of red blood cell lysis. <0.5 = non-hemolytic(0.17)

0% max identityHighest sequence identity to any known AMP in databases

🧊

#222

🧊 Permafrost

database-novel

ESM-2 AMP ScoreProbability of antimicrobial activity (0–1). Higher = more likely AMP.

0.9954

LengthPeptide length in amino acids40 aa

Net ChargeCharge at pH 7. Most AMPs are cationic (+)3.0

HydrophobicFraction of hydrophobic residues (0–1)45%

PhyschemComposite physicochemical plausibility score4.0

✅ Low hemolysisPredicted probability of red blood cell lysis. <0.5 = non-hemolytic(0.14)

ToxinToxinPred2 toxicity prediction(0.74)

0% max identityHighest sequence identity to any known AMP in databases

🧊

#223

🧊 Permafrost

database-novel

ESM-2 AMP ScoreProbability of antimicrobial activity (0–1). Higher = more likely AMP.

0.9954

LengthPeptide length in amino acids40 aa

Net ChargeCharge at pH 7. Most AMPs are cationic (+)3.0

HydrophobicFraction of hydrophobic residues (0–1)45%

PhyschemComposite physicochemical plausibility score4.0

✅ Low hemolysisPredicted probability of red blood cell lysis. <0.5 = non-hemolytic(0.14)

ToxinToxinPred2 toxicity prediction(0.74)

0% max identityHighest sequence identity to any known AMP in databases

🌋

#224

🌋 Hot Springs

database-novel

ESM-2 AMP ScoreProbability of antimicrobial activity (0–1). Higher = more likely AMP.

0.9954

LengthPeptide length in amino acids33 aa

Net ChargeCharge at pH 7. Most AMPs are cationic (+)5.5

HydrophobicFraction of hydrophobic residues (0–1)39%

PhyschemComposite physicochemical plausibility score5.0

✅ Low hemolysisPredicted probability of red blood cell lysis. <0.5 = non-hemolytic(0.21)

0% max identityHighest sequence identity to any known AMP in databases

🌋

#225

🌋 Hot Springs

database-novel

ESM-2 AMP ScoreProbability of antimicrobial activity (0–1). Higher = more likely AMP.

0.9954

LengthPeptide length in amino acids47 aa

Net ChargeCharge at pH 7. Most AMPs are cationic (+)8.0

HydrophobicFraction of hydrophobic residues (0–1)47%

PhyschemComposite physicochemical plausibility score5.0

✅ Low hemolysisPredicted probability of red blood cell lysis. <0.5 = non-hemolytic(0.38)

0% max identityHighest sequence identity to any known AMP in databases

🌋

#226

🌋 Hot Springs

database-novel

ESM-2 AMP ScoreProbability of antimicrobial activity (0–1). Higher = more likely AMP.

0.9953

LengthPeptide length in amino acids32 aa

Net ChargeCharge at pH 7. Most AMPs are cationic (+)4.0

HydrophobicFraction of hydrophobic residues (0–1)47%

PhyschemComposite physicochemical plausibility score4.0

✅ Low hemolysisPredicted probability of red blood cell lysis. <0.5 = non-hemolytic(0.24)

0% max identityHighest sequence identity to any known AMP in databases

🌋

#227

🌋 Hot Springs

database-novel

ESM-2 AMP ScoreProbability of antimicrobial activity (0–1). Higher = more likely AMP.

0.9953

LengthPeptide length in amino acids50 aa

Net ChargeCharge at pH 7. Most AMPs are cationic (+)8.5

HydrophobicFraction of hydrophobic residues (0–1)42%

PhyschemComposite physicochemical plausibility score4.0

✅ Low hemolysisPredicted probability of red blood cell lysis. <0.5 = non-hemolytic(0.15)

0% max identityHighest sequence identity to any known AMP in databases

🌋

#228

🌋 Hot Springs

database-novel

ESM-2 AMP ScoreProbability of antimicrobial activity (0–1). Higher = more likely AMP.

0.9952

LengthPeptide length in amino acids27 aa

Net ChargeCharge at pH 7. Most AMPs are cationic (+)8.5

HydrophobicFraction of hydrophobic residues (0–1)41%

PhyschemComposite physicochemical plausibility score4.0

✅ Low hemolysisPredicted probability of red blood cell lysis. <0.5 = non-hemolytic(0.32)

0% max identityHighest sequence identity to any known AMP in databases

🌋

#229

🌋 Hot Springs

database-novel

ESM-2 AMP ScoreProbability of antimicrobial activity (0–1). Higher = more likely AMP.

0.9952

LengthPeptide length in amino acids27 aa

Net ChargeCharge at pH 7. Most AMPs are cationic (+)8.5

HydrophobicFraction of hydrophobic residues (0–1)41%

PhyschemComposite physicochemical plausibility score4.0

✅ Low hemolysisPredicted probability of red blood cell lysis. <0.5 = non-hemolytic(0.32)

0% max identityHighest sequence identity to any known AMP in databases

🌋

#230

🌋 Hot Springs

database-novel

ESM-2 AMP ScoreProbability of antimicrobial activity (0–1). Higher = more likely AMP.

0.9952

LengthPeptide length in amino acids45 aa

Net ChargeCharge at pH 7. Most AMPs are cationic (+)10.5

HydrophobicFraction of hydrophobic residues (0–1)44%

PhyschemComposite physicochemical plausibility score4.0

✅ Low hemolysisPredicted probability of red blood cell lysis. <0.5 = non-hemolytic(0.41)

0% max identityHighest sequence identity to any known AMP in databases

🧊

#231

🧊 Permafrost

database-novel

ESM-2 AMP ScoreProbability of antimicrobial activity (0–1). Higher = more likely AMP.

0.9952

LengthPeptide length in amino acids26 aa

Net ChargeCharge at pH 7. Most AMPs are cationic (+)5.5

HydrophobicFraction of hydrophobic residues (0–1)42%

PhyschemComposite physicochemical plausibility score4.0

⚠️ Hemolysis riskPredicted probability of red blood cell lysis. <0.5 = non-hemolytic(0.72)

0% max identityHighest sequence identity to any known AMP in databases

🌋

#232

🌋 Hot Springs

database-novel

ESM-2 AMP ScoreProbability of antimicrobial activity (0–1). Higher = more likely AMP.

0.9951

LengthPeptide length in amino acids46 aa

Net ChargeCharge at pH 7. Most AMPs are cationic (+)10.0

HydrophobicFraction of hydrophobic residues (0–1)39%

PhyschemComposite physicochemical plausibility score4.0

✅ Low hemolysisPredicted probability of red blood cell lysis. <0.5 = non-hemolytic(0.24)

0% max identityHighest sequence identity to any known AMP in databases

🌋

#233

🌋 Hot Springs

database-novel

ESM-2 AMP ScoreProbability of antimicrobial activity (0–1). Higher = more likely AMP.

0.9950

LengthPeptide length in amino acids29 aa

Net ChargeCharge at pH 7. Most AMPs are cationic (+)5.0

HydrophobicFraction of hydrophobic residues (0–1)59%

PhyschemComposite physicochemical plausibility score4.0

⚠️ Hemolysis riskPredicted probability of red blood cell lysis. <0.5 = non-hemolytic(0.51)

0% max identityHighest sequence identity to any known AMP in databases

🧊

#234

🧊 Permafrost

database-novel

ESM-2 AMP ScoreProbability of antimicrobial activity (0–1). Higher = more likely AMP.

0.9950

LengthPeptide length in amino acids35 aa

Net ChargeCharge at pH 7. Most AMPs are cationic (+)9.5

HydrophobicFraction of hydrophobic residues (0–1)49%

PhyschemComposite physicochemical plausibility score5.0

⚠️ Hemolysis riskPredicted probability of red blood cell lysis. <0.5 = non-hemolytic(0.90)

0% max identityHighest sequence identity to any known AMP in databases

🧊

#235

🧊 Permafrost

database-novel

ESM-2 AMP ScoreProbability of antimicrobial activity (0–1). Higher = more likely AMP.

0.9950

LengthPeptide length in amino acids35 aa

Net ChargeCharge at pH 7. Most AMPs are cationic (+)9.5

HydrophobicFraction of hydrophobic residues (0–1)49%

PhyschemComposite physicochemical plausibility score5.0

⚠️ Hemolysis riskPredicted probability of red blood cell lysis. <0.5 = non-hemolytic(0.90)

0% max identityHighest sequence identity to any known AMP in databases

🌋

#236

🌋 Hot Springs

database-novel

ESM-2 AMP ScoreProbability of antimicrobial activity (0–1). Higher = more likely AMP.

0.9950

LengthPeptide length in amino acids40 aa

Net ChargeCharge at pH 7. Most AMPs are cationic (+)5.0

HydrophobicFraction of hydrophobic residues (0–1)43%

PhyschemComposite physicochemical plausibility score4.0

⚠️ Hemolysis riskPredicted probability of red blood cell lysis. <0.5 = non-hemolytic(0.71)

0% max identityHighest sequence identity to any known AMP in databases

🌋

#237

🌋 Hot Springs

database-novel

ESM-2 AMP ScoreProbability of antimicrobial activity (0–1). Higher = more likely AMP.

0.9948

LengthPeptide length in amino acids26 aa

Net ChargeCharge at pH 7. Most AMPs are cationic (+)9.0

HydrophobicFraction of hydrophobic residues (0–1)38%

PhyschemComposite physicochemical plausibility score4.0

✅ Low hemolysisPredicted probability of red blood cell lysis. <0.5 = non-hemolytic(0.14)

0% max identityHighest sequence identity to any known AMP in databases

🌋

#238

🌋 Hot Springs

database-novel

ESM-2 AMP ScoreProbability of antimicrobial activity (0–1). Higher = more likely AMP.

0.9948

LengthPeptide length in amino acids47 aa

Net ChargeCharge at pH 7. Most AMPs are cationic (+)5.5

HydrophobicFraction of hydrophobic residues (0–1)53%

PhyschemComposite physicochemical plausibility score4.0

✅ Low hemolysisPredicted probability of red blood cell lysis. <0.5 = non-hemolytic(0.24)

0% max identityHighest sequence identity to any known AMP in databases

🧊

#239

🧊 Permafrost

database-novel

ESM-2 AMP ScoreProbability of antimicrobial activity (0–1). Higher = more likely AMP.

0.9948

LengthPeptide length in amino acids41 aa

Net ChargeCharge at pH 7. Most AMPs are cationic (+)5.0

HydrophobicFraction of hydrophobic residues (0–1)54%

PhyschemComposite physicochemical plausibility score4.0

✅ Low hemolysisPredicted probability of red blood cell lysis. <0.5 = non-hemolytic(0.48)

0% max identityHighest sequence identity to any known AMP in databases

🌋

#240

🌋 Hot Springs

database-novel

ESM-2 AMP ScoreProbability of antimicrobial activity (0–1). Higher = more likely AMP.

0.9947

LengthPeptide length in amino acids30 aa

Net ChargeCharge at pH 7. Most AMPs are cationic (+)3.0

HydrophobicFraction of hydrophobic residues (0–1)43%

PhyschemComposite physicochemical plausibility score4.0

✅ Low hemolysisPredicted probability of red blood cell lysis. <0.5 = non-hemolytic(0.23)

0% max identityHighest sequence identity to any known AMP in databases

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📚 Understanding the metrics

ESM-2 AMP Score: Probability (0–1) that the peptide has antimicrobial activity, predicted by Meta's ESM-2 protein language model.

Net Charge: Charge at physiological pH. Most effective AMPs carry a positive charge (+2 to +9).

Hemolysis Prob: SVM-predicted probability of red blood cell lysis (HemoPi3). Below 0.5 is considered non-hemolytic.

Novelty Tier: How similar to known AMPs. "database-novel" means <50% identity to any AMP in APD3 + DRAMP + AMPSphere.

Hydrophobic fraction: Proportion of hydrophobic amino acids. AMPs typically have 40–60% for membrane interaction.

Cross-biome: Found independently in multiple extreme environments — suggests evolutionary conservation of antimicrobial function.