Question stringlengths 580 977 | Answer stringclasses 2 values | TargetMolecule stringlengths 3 400 | SampleMethod stringclasses 1 value | SampleNum int64 0 0 | SampleRep stringclasses 1 value | image imagewidth (px) 300 300 |
|---|---|---|---|---|---|---|
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): [C@H]12N(CC[C@](C1C)(C3=C(C2=O)C=CC(=C3)O)C)CC4CC4
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | [C@H]12N(CC[C@](C1C)(C3=C(C2=O)C=CC(=C3)O)C)CC4CC4 | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C2=C(\C(C1=CC=CN=C1)=C\CN(C)C)C=CC(=C2)Br
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C2=C(\C(C1=CC=CN=C1)=C\CN(C)C)C=CC(=C2)Br | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C1=C([N](C(=C1C=O)C)CCNC(C)=O)C
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C1=C([N](C(=C1C=O)C)CCNC(C)=O)C | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C1=C(C(C(C)(C)O)(C)O)C=CC(=C1)Cl
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C1=C(C(C(C)(C)O)(C)O)C=CC(=C1)Cl | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C1=C([S](N(C)C)(=O)=O)C=CC3=C1N(C2=C(C=CC=C2)S3)CCCN4CCC(CCO)CC4
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C1=C([S](N(C)C)(=O)=O)C=CC3=C1N(C2=C(C=CC=C2)S3)CCCN4CCC(CCO)CC4 | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C1=NC2=C([N]1CC(C)O)C(N(C)C(N2C)=O)=O
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C1=NC2=C([N]1CC(C)O)C(N(C)C(N2C)=O)=O | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): Cc1ncc(n1CC(O)CCl)[N+]([O-])=O
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | Cc1ncc(n1CC(O)CCl)[N+]([O-])=O | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): OCCN1CCN(CC\C=C/2c3ccccc3Sc4ccc(Cl)cc24)CC1
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | OCCN1CCN(CC\C=C/2c3ccccc3Sc4ccc(Cl)cc24)CC1 | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C1=CC(=CC=C1C3(CCN(CCCC(C2=CC=C(F)C=C2)=O)CC3)C(N(C)C)=O)Cl
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C1=CC(=CC=C1C3(CCN(CCCC(C2=CC=C(F)C=C2)=O)CC3)C(N(C)C)=O)Cl | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): CC(=O)OCC1=C(N2[C@H](SC1)[C@H](NC(=O)Cc3sccc3)C2=O)C(O)=O
Blood-Brain Barrier Penetration:
| <boolean>No</boolean> | CC(=O)OCC1=C(N2[C@H](SC1)[C@H](NC(=O)Cc3sccc3)C2=O)C(O)=O | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C1=CC=C2C(=C1)SC3=C(N2CC(C)CN(C)C)C=C(C=C3)C(F)(F)F
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C1=CC=C2C(=C1)SC3=C(N2CC(C)CN(C)C)C=C(C=C3)C(F)(F)F | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): N1(c2c(Sc3c1cccc3)ccc(c2)Cl)CCCNC
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | N1(c2c(Sc3c1cccc3)ccc(c2)Cl)CCCNC | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): CN1CCCC(C1)CN2c3ccccc3Sc4ccccc24
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | CN1CCCC(C1)CN2c3ccccc3Sc4ccccc24 | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C1=CC=CC3=C1C(C2=C(C=CC=C2)C3(C)C)=CCCN(C)C
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C1=CC=CC3=C1C(C2=C(C=CC=C2)C3(C)C)=CCCN(C)C | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): N[C@@H](C(=O)N[C@H]1[C@H]2SCC(=C(N2C1=O)C(O)=O)Cl)c3ccccc3
Blood-Brain Barrier Penetration:
| <boolean>No</boolean> | N[C@@H](C(=O)N[C@H]1[C@H]2SCC(=C(N2C1=O)C(O)=O)Cl)c3ccccc3 | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C1=CC=C3C(=C1OCC2CNCCO2)N(CCC3)C
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C1=CC=C3C(=C1OCC2CNCCO2)N(CCC3)C | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): COC1(C(F)(F)C1(F)Cl)F
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | COC1(C(F)(F)C1(F)Cl)F | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): OC(=O)CCC(O)=O.FC(F)(F)c1ccc2Sc3ccccc3N(CCCN4CCN(CCC5OCCCO5)CC4)c2c1
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | OC(=O)CCC(O)=O.FC(F)(F)c1ccc2Sc3ccccc3N(CCCN4CCN(CCC5OCCCO5)CC4)c2c1 | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C1=CC(=CC=C1C(N2C(CCC2)=O)=O)OC
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C1=CC(=CC=C1C(N2C(CCC2)=O)=O)OC | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): CN(C)CCOC(c1ccccc1)c2ccccc2
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | CN(C)CCOC(c1ccccc1)c2ccccc2 | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C(C1(C(NC(=O)NC1=O)=O)CCCC)COC(N)=O
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C(C1(C(NC(=O)NC1=O)=O)CCCC)COC(N)=O | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C1=C([S](=O)(=O)N)C=CC(=C1C(NCC2N(CC)CCC2)=O)OC
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C1=C([S](=O)(=O)N)C=CC(=C1C(NCC2N(CC)CCC2)=O)OC | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C1=C([S](N)(=O)=O)C=CC(=C1C(NCC2N(CCC2)CCC)=O)OC
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C1=C([S](N)(=O)=O)C=CC(=C1C(NCC2N(CCC2)CCC)=O)OC | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): CCCCN1C=CC(=O)C(=C1C)O
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | CCCCN1C=CC(=O)C(=C1C)O | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): NCC1OC(OC2C(N)CC(NC(CO)CO)C(OC3OC(CO)C(O)C(N)C3O)C2O)C(N)C(O)C1O
Blood-Brain Barrier Penetration:
| <boolean>No</boolean> | NCC1OC(OC2C(N)CC(NC(CO)CO)C(OC3OC(CO)C(O)C(N)C3O)C2O)C(N)C(O)C1O | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): CC[C@]1(O)C[C@H]2CN(CCc3c([nH]c4ccccc34)[C@@](C2)(C(=O)OC)c5cc6c(cc5OC)N(C)[C@H]7[C@](O)([C@H](OC(C)=O)[C@]8(CC)C=CCN9CC[C@]67[C@H]89)C(=O)OC)C1
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | CC[C@]1(O)C[C@H]2CN(CCc3c([nH]c4ccccc34)[C@@](C2)(C(=O)OC)c5cc6c(cc5OC)N(C)[C@H]7[C@](O)([C@H](OC(C)=O)[C@]8(CC)C=CCN9CC[C@]67[C@H]89)C(=O)OC)C1 | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): [C@@H](O)(/C=C/C1=C(C2=C([N]1C(C)C)C=CC=C2)C3=CC=C(F)C=C3)C[C@H](O)CC(=O)O
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | [C@@H](O)(/C=C/C1=C(C2=C([N]1C(C)C)C=CC=C2)C3=CC=C(F)C=C3)C[C@H](O)CC(=O)O | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): [C@H]3(CCCC1=C2C(=NC=C1)C=CC(=C2)OC)[C@@H](CNCC3)C=C
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | [C@H]3(CCCC1=C2C(=NC=C1)C=CC(=C2)OC)[C@@H](CNCC3)C=C | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): CC(=O)c1ccc2Sc3ccccc3N(CCCN4CCN(CCO)CC4)c2c1
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | CC(=O)c1ccc2Sc3ccccc3N(CCCN4CCN(CCO)CC4)c2c1 | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): CN1CCN(CC1)C2=C3C=CC=CC3=Nc4ccc(Cl)cc4N2
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | CN1CCN(CC1)C2=C3C=CC=CC3=Nc4ccc(Cl)cc4N2 | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): [CH2-][CH-]C
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | [CH2-][CH-]C | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): CCCC(CCC)C(O)=O
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | CCCC(CCC)C(O)=O | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): CN[C@H]1[C@H](O)[C@@H](O)[C@H](CO)O[C@H]1O[C@H]2[C@@H](O[C@@H](C)[C@]2(O)CO)O[C@@H]3[C@@H](O)[C@H](O)[C@@H](N=C(N)N)[C@H](O)[C@H]3N=C(N)N
Blood-Brain Barrier Penetration:
| <boolean>No</boolean> | CN[C@H]1[C@H](O)[C@@H](O)[C@H](CO)O[C@H]1O[C@H]2[C@@H](O[C@@H](C)[C@]2(O)CO)O[C@@H]3[C@@H](O)[C@H](O)[C@@H](N=C(N)N)[C@H](O)[C@H]3N=C(N)N | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): CCN1C=CC(=O)C(=C1CC)O
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | CCN1C=CC(=O)C(=C1CC)O | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C1=CC(=CC=C1C(N2CCN(C)CCC2)C3=CC=CC=C3)Cl
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C1=CC(=CC=C1C(N2CCN(C)CCC2)C3=CC=CC=C3)Cl | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C3=C(C(O)(C1=CC=CC=C1)C2CCNCC2)C=CC=C3
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C3=C(C(O)(C1=CC=CC=C1)C2CCNCC2)C=CC=C3 | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C1=C(Cl)C=CC2=C1C(=NCC(=N2)NOCC=C)C3=CC=CC=C3Cl
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C1=C(Cl)C=CC2=C1C(=NCC(=N2)NOCC=C)C3=CC=CC=C3Cl | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C[C@@H]1CC2=C(CCC(=O)C2)[C@H]3CC[C@@]4(C)[C@@H](CC[C@@]4(O)C#C)[C@H]13
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C[C@@H]1CC2=C(CCC(=O)C2)[C@H]3CC[C@@]4(C)[C@@H](CC[C@@]4(O)C#C)[C@H]13 | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C(C1(C(C=CNC1=O)=O)CC)C
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C(C1(C(C=CNC1=O)=O)CC)C | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): S1[C@H]4N(CC1(C2CN3[C@H](S2)CC3=O)O)C(C4)=O
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | S1[C@H]4N(CC1(C2CN3[C@H](S2)CC3=O)O)C(C4)=O | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C1=C(F)C=CC2=C1C3=C([NH]2)CCN(C3)CCC4=CC=NC=C4
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C1=C(F)C=CC2=C1C3=C([NH]2)CCN(C3)CCC4=CC=NC=C4 | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): CN1CCN(CC/C=C/2c3ccccc3Sc4ccc(cc24)[S](=O)(=O)N(C)C)CC1
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | CN1CCN(CC/C=C/2c3ccccc3Sc4ccc(cc24)[S](=O)(=O)N(C)C)CC1 | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C1=CC=CC3=C1C4=C(C2=C(C=CC=C2)N3C)CCN(CC4)C
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C1=CC=CC3=C1C4=C(C2=C(C=CC=C2)N3C)CCN(CC4)C | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): CC(C)N1CCC(CC1)N(C(=O)Cc2ccccc2)c3ccc(Cl)cc3
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | CC(C)N1CCC(CC1)N(C(=O)Cc2ccccc2)c3ccc(Cl)cc3 | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): CO[C@H]1[C@@H](C[C@@H]2CN3CCc4c([nH]c5cc(OC)ccc45)[C@H]3C[C@@H]2[C@@H]1C(=O)OC)OC(=O)\C=C\c6cc(OC)c(OC)c(OC)c6
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | CO[C@H]1[C@@H](C[C@@H]2CN3CCc4c([nH]c5cc(OC)ccc45)[C@H]3C[C@@H]2[C@@H]1C(=O)OC)OC(=O)\C=C\c6cc(OC)c(OC)c(OC)c6 | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): [C@]34([C@H]([C@H]2[C@@H]([C@@]1(C(=CC(=O)CC1)CC2)C)[C@@H](O)C3)CC[C@]4(O)C(=O)COC(=O)CCC(O)=O)C.O
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | [C@]34([C@H]([C@H]2[C@@H]([C@@]1(C(=CC(=O)CC1)CC2)C)[C@@H](O)C3)CC[C@]4(O)C(=O)COC(=O)CCC(O)=O)C.O | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): CO/N=C(C(=O)N[C@H]1[C@H]2SCC(=C(N2C1=O)C(O)=O)COC(C)=O)/c3occc3
Blood-Brain Barrier Penetration:
| <boolean>No</boolean> | CO/N=C(C(=O)N[C@H]1[C@H]2SCC(=C(N2C1=O)C(O)=O)COC(C)=O)/c3occc3 | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): [C@@]125C3=C4C[C@H]([C@@]1(CCC([C@@H]2OC3=C(C=C4)O)=O)O)N(CCOC)CC5
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | [C@@]125C3=C4C[C@H]([C@@]1(CCC([C@@H]2OC3=C(C=C4)O)=O)O)N(CCOC)CC5 | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C1=C(C(=CC=C1C3(CCN(CCCC(C2=CC=C(F)C=C2)=O)CC3)O)Cl)C(F)(F)F
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C1=C(C(=CC=C1C3(CCN(CCCC(C2=CC=C(F)C=C2)=O)CC3)O)Cl)C(F)(F)F | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C1=CC(=CC=C1C(N2C(CCC2)=O)=O)OC
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C1=CC(=CC=C1C(N2C(CCC2)=O)=O)OC | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): NNc1nncc2ccccc12
Blood-Brain Barrier Penetration:
| <boolean>No</boolean> | NNc1nncc2ccccc12 | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C1=C(Cl)C(=C(C=C1)C)NC(=O)/C=C/2SCC(=O)N2C
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C1=C(Cl)C(=C(C=C1)C)NC(=O)/C=C/2SCC(=O)N2C | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C1=CC(=CC2=C1C(C3=C(CC2)C=CC=N3)=C4CCN(C(OCC)=O)CC4)Cl
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C1=CC(=CC2=C1C(C3=C(CC2)C=CC=N3)=C4CCN(C(OCC)=O)CC4)Cl | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C1CN(CCC1)Cc1cccc(c1)OCCCNc1nccs1
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C1CN(CCC1)Cc1cccc(c1)OCCCNc1nccs1 | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C1=C(C=CC3=C1N(CCCN2CCC(CC2)O)C4=C(S3)C=CC=C4)C#N
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C1=C(C=CC3=C1N(CCCN2CCC(CC2)O)C4=C(S3)C=CC=C4)C#N | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): CC[C@]1(O)C[C@H]2CN(CCc3c([nH]c4ccccc34)[C@@](C2)(C(=O)OC)c5cc6c(cc5OC)N(C=O)[C@H]7[C@](O)([C@H](OC(C)=O)[C@]8(CC)C=CCN9CC[C@]67[C@H]89)C(=O)OC)C1
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | CC[C@]1(O)C[C@H]2CN(CCc3c([nH]c4ccccc34)[C@@](C2)(C(=O)OC)c5cc6c(cc5OC)N(C=O)[C@H]7[C@](O)([C@H](OC(C)=O)[C@]8(CC)C=CCN9CC[C@]67[C@H]89)C(=O)OC)C1 | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C1=CC=CC=C1C2C(N=C(O2)NCC)=O
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C1=CC=CC=C1C2C(N=C(O2)NCC)=O | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): [C@H]34[C@H]2[C@@H]([C@@]1(C(=CC(=O)CC1)CC2)C)[C@@H](O)C[C@@]3([C@](C(CS)=O)(O)CC4)C
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | [C@H]34[C@H]2[C@@H]([C@@]1(C(=CC(=O)CC1)CC2)C)[C@@H](O)C[C@@]3([C@](C(CS)=O)(O)CC4)C | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C1=CC(=CC=C1OCC(COC(N)=O)O)Cl
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C1=CC(=CC=C1OCC(COC(N)=O)O)Cl | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): COc1ccc2nccc([C@@H](O)[C@@H]3C[C@H]4CCN3C[C@@H]4C=C)c2c1
Blood-Brain Barrier Penetration:
| <boolean>No</boolean> | COc1ccc2nccc([C@@H](O)[C@@H]3C[C@H]4CCN3C[C@@H]4C=C)c2c1 | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): CN(C)C(=O)COC2c1ccccc1CCc3ccccc23
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | CN(C)C(=O)COC2c1ccccc1CCc3ccccc23 | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): [C@@]45(C1=C(C=CC(=C1)OC(N3CC2=CC=CC=C2CC3)=O)N([C@H]4N(C)CC5)C)C
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | [C@@]45(C1=C(C=CC(=C1)OC(N3CC2=CC=CC=C2CC3)=O)N([C@H]4N(C)CC5)C)C | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): n1c(csc1\[NH]=C(\N)N)c1ccccc1
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | n1c(csc1\[NH]=C(\N)N)c1ccccc1 | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): c1cc(CCN(C)C)ncc1
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | c1cc(CCN(C)C)ncc1 | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): [C@H]23[C@@]([C@@]1(C(=CC(=O)C=C1)[C@H](C2)F)C)([C@H](C[C@]4([C@H]3C[C@@H](C)[C@@H]4C(COC(C(C)(C)C)=O)=O)C)O)F
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | [C@H]23[C@@]([C@@]1(C(=CC(=O)C=C1)[C@H](C2)F)C)([C@H](C[C@]4([C@H]3C[C@@H](C)[C@@H]4C(COC(C(C)(C)C)=O)=O)C)O)F | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): OC(CCN1CCCC1)(C2CCCCC2)c3ccccc3
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | OC(CCN1CCCC1)(C2CCCCC2)c3ccccc3 | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): Clc1cccc(c1)N2CCN(CCCN3N=C4C=CC=CN4C3=O)CC2
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | Clc1cccc(c1)N2CCN(CCCN3N=C4C=CC=CN4C3=O)CC2 | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C4=C(N1C3(C(NC1)=O)CCN(CCCOC2=CC=C(C=C2)F)CC3)C=CC=C4
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C4=C(N1C3(C(NC1)=O)CCN(CCCOC2=CC=C(C=C2)F)CC3)C=CC=C4 | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C1=C(C(N)=O)N=N[N]1CC2=C(C=CC=C2F)F
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C1=C(C(N)=O)N=N[N]1CC2=C(C=CC=C2F)F | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C1=CC=CC=C1C2C(N(CC)C(N2)=O)=O
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C1=CC=CC=C1C2C(N(CC)C(N2)=O)=O | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C1=C(C=CC=C1N3CCN(CCCN2C(N(C(=N2)CC)CC)=O)CC3)Cl
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C1=C(C=CC=C1N3CCN(CCCN2C(N(C(=N2)CC)CC)=O)CC3)Cl | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C1=C(C(=CC=C1C3(CCN(CCCC(C2=CC=C(F)C=C2)=O)CC3)O)Cl)C(F)(F)F
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C1=C(C(=CC=C1C3(CCN(CCCC(C2=CC=C(F)C=C2)=O)CC3)O)Cl)C(F)(F)F | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): Fc1ccc(cc1)C(CCCN2CCC(CC2)N3C(=O)Nc4cc(Cl)ccc34)c5ccc(F)cc5
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | Fc1ccc(cc1)C(CCCN2CCC(CC2)N3C(=O)Nc4cc(Cl)ccc34)c5ccc(F)cc5 | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C1=CC=CC=C1CC(C)NCCC3C2=C(C=CC=C2)SC4=C3C=CC=C4
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C1=CC=CC=C1CC(C)NCCC3C2=C(C=CC=C2)SC4=C3C=CC=C4 | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): CC[C@H]1OC(=O)[C@H](C)[C@@H](O[C@H]2C[C@@](C)(OC)[C@@H](O)[C@H](C)O2)C(C)[C@@H](O[C@@H]3O[C@H](C)C[C@@H]([C@H]3O)N(C)C)[C@](C)(O)C[C@@H](C)CN(C)[C@H](C)[C@@H](O)[C@]1(C)O
Blood-Brain Barrier Penetration:
| <boolean>No</boolean> | CC[C@H]1OC(=O)[C@H](C)[C@@H](O[C@H]2C[C@@](C)(OC)[C@@H](O)[C@H](C)O2)C(C)[C@@H](O[C@@H]3O[C@H](C)C[C@@H]([C@H]3O)N(C)C)[C@](C)(O)C[C@@H](C)CN(C)[C@H](C)[C@@H](O)[C@]1(C)O | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): CN(C)Cc1ccc(c2cccc(NC3C([N+]([O-])=O)=CC=N3)c2)o1
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | CN(C)Cc1ccc(c2cccc(NC3C([N+]([O-])=O)=CC=N3)c2)o1 | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): [C@H](N(C(C(C1=CC=CC=C1)C2=CC=CC=C2)=O)C)(C3=CC=CC=C3)CN4CC[C@@H](C4)O
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | [C@H](N(C(C(C1=CC=CC=C1)C2=CC=CC=C2)=O)C)(C3=CC=CC=C3)CN4CC[C@@H](C4)O | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C1=C(C=CC=C1NC(NC2=NC(=O)CN2C)=O)Cl
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C1=C(C=CC=C1NC(NC2=NC(=O)CN2C)=O)Cl | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): CO[C@H]1/C=C/O[C@@]2(C)Oc3c(C)c(O)c4c(O)c(NC(=O)C(=C\C=C\[C@H](C)[C@H](O)[C@@H](C)[C@@H](O)[C@@H](C)[C@H](OC(C)=O)[C@@H]1C)/C)cc(O)c4c3C2=O
Blood-Brain Barrier Penetration:
| <boolean>No</boolean> | CO[C@H]1/C=C/O[C@@]2(C)Oc3c(C)c(O)c4c(O)c(NC(=O)C(=C\C=C\[C@H](C)[C@H](O)[C@@H](C)[C@@H](O)[C@@H](C)[C@H](OC(C)=O)[C@@H]1C)/C)cc(O)c4c3C2=O | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): Cc1sc(SCC2=C(N3[C@H](SC2)[C@H](NC(=O)CN4C=C(Cl)C(=O)C(=C4)Cl)C3=O)C(O)=O)nn1
Blood-Brain Barrier Penetration:
| <boolean>No</boolean> | Cc1sc(SCC2=C(N3[C@H](SC2)[C@H](NC(=O)CN4C=C(Cl)C(=O)C(=C4)Cl)C3=O)C(O)=O)nn1 | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): CCOC(OCC)C(=O)OCC(=O)C1(O)CC(OC2CC(N)C(O)C(C)O2)c3c(O)c4C(=O)c5c(OC)cccc5C(=O)c4c(O)c3C1
Blood-Brain Barrier Penetration:
| <boolean>No</boolean> | CCOC(OCC)C(=O)OCC(=O)C1(O)CC(OC2CC(N)C(O)C(C)O2)c3c(O)c4C(=O)c5c(OC)cccc5C(=O)c4c(O)c3C1 | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): c1(CC(N2[C@H](CN(CC2)C(=O)C)C[N@]2CC[C@H](C2)O)=O)cc(cc(c1)F)F
Blood-Brain Barrier Penetration:
| <boolean>No</boolean> | c1(CC(N2[C@H](CN(CC2)C(=O)C)C[N@]2CC[C@H](C2)O)=O)cc(cc(c1)F)F | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): c1(CC(N2[C@H](CN(CC2)C(=O)C)C[N@]2CC[C@H](C2)O)=O)cc(ccc1)OC
Blood-Brain Barrier Penetration:
| <boolean>No</boolean> | c1(CC(N2[C@H](CN(CC2)C(=O)C)C[N@]2CC[C@H](C2)O)=O)cc(ccc1)OC | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): COCOC(=O)[C@@H]1N2[C@H](SC1(C)C)[C@H](N3C(=O)C(NC3(C)C)c4ccccc4)C2=O
Blood-Brain Barrier Penetration:
| <boolean>No</boolean> | COCOC(=O)[C@@H]1N2[C@H](SC1(C)C)[C@H](N3C(=O)C(NC3(C)C)c4ccccc4)C2=O | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): CN(C)[C@H]1[C@@H]2C[C@H]3C(=C(O)c4c(O)ccc(Cl)c4[C@@]3(C)O)C(=O)[C@]2(O)C(=O)\C(=C(/O)NCO)C1=O
Blood-Brain Barrier Penetration:
| <boolean>No</boolean> | CN(C)[C@H]1[C@@H]2C[C@H]3C(=C(O)c4c(O)ccc(Cl)c4[C@@]3(C)O)C(=O)[C@]2(O)C(=O)\C(=C(/O)NCO)C1=O | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): CN(C)CCCN1c2ccccc2Sc3ccc(Cl)cc13
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | CN(C)CCCN1c2ccccc2Sc3ccc(Cl)cc13 | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C1=CC(=CC3=C1N(C2=NC(=O)CO2)CCN=C3C4=CC=CC=C4Cl)Cl
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C1=CC(=CC3=C1N(C2=NC(=O)CO2)CCN=C3C4=CC=CC=C4Cl)Cl | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C1=CC=CC3=C1C(C2=CC=CC=C2CC3)CC(CN(C)C)C
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C1=CC=CC3=C1C(C2=CC=CC=C2CC3)CC(CN(C)C)C | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C1=C(C=CC=C1Br)\C=C\C(NCC)=O
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C1=C(C=CC=C1Br)\C=C\C(NCC)=O | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): O.O.CN(C)[C@H]1[C@@H]2[C@@H](O)[C@H]3C(=C(O)c4c(O)cccc4[C@@]3(C)O)C(=O)[C@]2(O)C(=O)\C(=C(N)/O)C1=O
Blood-Brain Barrier Penetration:
| <boolean>No</boolean> | O.O.CN(C)[C@H]1[C@@H]2[C@@H](O)[C@H]3C(=C(O)c4c(O)cccc4[C@@]3(C)O)C(=O)[C@]2(O)C(=O)\C(=C(N)/O)C1=O | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): [C@@H]13C=C[C@@H]([C@@]2([C@H]1[C@H](OC2=O)OC(NC)=O)C)C3
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | [C@@H]13C=C[C@@H]([C@@]2([C@H]1[C@H](OC2=O)OC(NC)=O)C)C3 | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): [Cl-].CN(C)[C@H]1[C@@H]2C[C@H]3C(=C(O)c4c(O)ccc(Cl)c4[C@@]3(C)O)C(=O)[C@]2(O)C(=O)\C(=C(N)/O)C1=O.[H+]
Blood-Brain Barrier Penetration:
| <boolean>No</boolean> | [Cl-].CN(C)[C@H]1[C@@H]2C[C@H]3C(=C(O)c4c(O)ccc(Cl)c4[C@@]3(C)O)C(=O)[C@]2(O)C(=O)\C(=C(N)/O)C1=O.[H+] | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): COCOC(=O)C1N2C(SC1(C)C)C(N3C(=O)C(NC3(C)C)c4ccc(O)cc4)C2=O
Blood-Brain Barrier Penetration:
| <boolean>No</boolean> | COCOC(=O)C1N2C(SC1(C)C)C(N3C(=O)C(NC3(C)C)c4ccc(O)cc4)C2=O | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): CCCN(CCC)[S](=O)(=O)c1ccc(cc1)C(O)=O
Blood-Brain Barrier Penetration:
| <boolean>No</boolean> | CCCN(CCC)[S](=O)(=O)c1ccc(cc1)C(O)=O | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): CCN1C=C(C(O)=O)C(=O)c2cc(F)c(nc12)N3CCNCC3
Blood-Brain Barrier Penetration:
| <boolean>No</boolean> | CCN1C=C(C(O)=O)C(=O)c2cc(F)c(nc12)N3CCNCC3 | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C(C(C(NC(NC(C)=O)=O)=O)(CC)Br)C
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C(C(C(NC(NC(C)=O)=O)=O)(CC)Br)C | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): CN[C@@H]1[C@@H](O)[C@H](OC[C@]1(C)O)O[C@H]2[C@H](N)C[C@H](N)[C@@H](O[C@H]3OC(=CC[C@H]3N)CN)[C@@H]2O
Blood-Brain Barrier Penetration:
| <boolean>No</boolean> | CN[C@@H]1[C@@H](O)[C@H](OC[C@]1(C)O)O[C@H]2[C@H](N)C[C@H](N)[C@@H](O[C@H]3OC(=CC[C@H]3N)CN)[C@@H]2O | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): C2=C(CC(C(NCC(OCC1=CC=CC=C1)=O)=O)CSC(C)=O)C=CC=C2
Blood-Brain Barrier Penetration:
| <boolean>Yes</boolean> | C2=C(CC(C(NCC(OCC1=CC=CC=C1)=O)=O)CSC(C)=O)C=CC=C2 | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): c1cn(CCO)c(CC)c(O)c1=O
Blood-Brain Barrier Penetration:
| <boolean>No</boolean> | c1cn(CCO)c(CC)c(O)c1=O | random | 0 | smiles | |
You are an expert chemist, your task is to predict the property of molecule using your experienced chemical property prediction knowledge.
Task Description:
Given the Smiles string and molecular properties above, predict whether this molecule can penetrate the blood-brain barrier (Yes) or cannot penetrate (No). Consider all molecular properties provided, especially molecular weight, LogP, and the number of hydrogen bond donors and acceptors, as these are crucial for blood-brain barrier penetration.
Examples:
Target Molecule (Smiles): CO/N=C(C(=O)N[C@H]1[C@H]2SCC(=C(N2C1=O)C(O)=O)\C=C\SC3=NNC(=O)C(=O)N3CC=O)/c4csc(N)n4
Blood-Brain Barrier Penetration:
| <boolean>No</boolean> | CO/N=C(C(=O)N[C@H]1[C@H]2SCC(=C(N2C1=O)C(O)=O)\C=C\SC3=NNC(=O)C(=O)N3CC=O)/c4csc(N)n4 | random | 0 | smiles |
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