Browsing Toxins By Category
Displaying toxin 1301 - 1325 of 3678 in total
| T3DB ID | Name CAS Number | Formula Weight | Structure | Type | Mechanism of Toxicity |
|---|---|---|---|---|---|
| T3D1577 | Palladium(II) nitrate 10102-05-3 | N2O6Pd 230.430 g/mol |  |
| Due to their ability to form strong complexes with both inorganic and organic ligands, palladium ions can disturb cellular equilibria, replace other essential ions, an...more Number of Targets: 15 |
| T3D1578 | Palladium(II) oxide 1314-08-5 | OPd 122.420 g/mol |  |
| Due to their ability to form strong complexes with both inorganic and organic ligands, palladium ions can disturb cellular equilibria, replace other essential ions, an...more Number of Targets: 6 |
| T3D1579 | Tetrakis(triphenylphosphine)palladium(0) 14221-01-3 | C72H64P4Pd 1159.590 g/mol |  |
| Due to their ability to form strong complexes with both inorganic and organic ligands, palladium ions can disturb cellular equilibria, replace other essential ions, an...more Number of Targets: 6 |
| T3D1581 | Ammonium hexachloro-palladate(IV) 7440-05-3 | Cl6H8N2Pd 355.210 g/mol |  |
| Due to their ability to form strong complexes with both inorganic and organic ligands, palladium ions can disturb cellular equilibria, replace other essential ions, an...more Number of Targets: 6 |
| T3D1582 | Ammonium tetrachloro-palladate(II) 19168-23-1 | Cl4H8N2Pd 284.310 g/mol |  |
| Due to their ability to form strong complexes with both inorganic and organic ligands, palladium ions can disturb cellular equilibria, replace other essential ions, an...more Number of Targets: 6 |
| T3D1583 | Bis(1,5-diphenyl-1,4-pentadien-3-one) palladium(0) 32005-36-0 | C34H30O2Pd 577.020 g/mol |  |
| Due to their ability to form strong complexes with both inorganic and organic ligands, palladium ions can disturb cellular equilibria, replace other essential ions, an...more Number of Targets: 6 |
| T3D1584 | Bis(2,4-pentanedionato) palladium(II) 14024-61-4 | C10H14O4Pd 304.640 g/mol |  |
| Due to their ability to form strong complexes with both inorganic and organic ligands, palladium ions can disturb cellular equilibria, replace other essential ions, an...more Number of Targets: 6 |
| T3D1585 | cis-Diamminedichloro-palladium(II) 14323-43-4 | Cl2H6N2Pd 211.390 g/mol |  |
| Due to their ability to form strong complexes with both inorganic and organic ligands, palladium ions can disturb cellular equilibria, replace other essential ions, an...more Number of Targets: 6 |
| T3D1586 | trans-Diamminedichloro-palladium(II) 13782-33-7 | Cl2H4N2Pd 209.370 g/mol |  |
| Due to their ability to form strong complexes with both inorganic and organic ligands, palladium ions can disturb cellular equilibria, replace other essential ions, an...more Number of Targets: 6 |
| T3D1587 | trans-Dichlorobis-(triphenylphosphine) palladium(II) 965-03-2 | C36H32Cl2P2Pd 703.910 g/mol |  |
| Due to their ability to form strong complexes with both inorganic and organic ligands, palladium ions can disturb cellular equilibria, replace other essential ions, an...more Number of Targets: 6 |
| T3D1588 | trans-Diamminedinitro-palladium(II) 28068-05-5 | H8N4O4Pd 234.510 g/mol |  |
| Due to their ability to form strong complexes with both inorganic and organic ligands, palladium ions can disturb cellular equilibria, replace other essential ions, an...more Number of Targets: 6 |
| T3D1589 | Dichloro(1,5-cyclooctadiene) palladium(II) 12107-56-1 | C8H8Cl2Pd 281.480 g/mol |  |
| Due to their ability to form strong complexes with both inorganic and organic ligands, palladium ions can disturb cellular equilibria, replace other essential ions, an...more Number of Targets: 6 |
| T3D1590 | Hydrogen tetrachloro-palladate(II) 16970-55-1 | Cl4H2Pd 250.250 g/mol |  |
| Due to their ability to form strong complexes with both inorganic and organic ligands, palladium ions can disturb cellular equilibria, replace other essential ions, an...more Number of Targets: 6 |
| T3D1591 | Palladium(II) iodide 90-38-7 | I2Pd 360.230 g/mol |  |
| Due to their ability to form strong complexes with both inorganic and organic ligands, palladium ions can disturb cellular equilibria, replace other essential ions, an...more Number of Targets: 6 |
| T3D1592 | Palladium(II) sulfate 566-03-5 | O4PdS 202.480 g/mol |  |
| Due to their ability to form strong complexes with both inorganic and organic ligands, palladium ions can disturb cellular equilibria, replace other essential ions, an...more Number of Targets: 6 |
| T3D1593 | Potassium hexachloro-palladate(IV) 10025-98-6 | Cl6K2Pd 397.330 g/mol |  |
| Due to their ability to form strong complexes with both inorganic and organic ligands, palladium ions can disturb cellular equilibria, replace other essential ions, an...more Number of Targets: 6 |
| T3D1594 | Sodium tetrachloro-palladate(II) 13820-53-6 | Cl4Na2Pd 294.210 g/mol |  |
| Due to their ability to form strong complexes with both inorganic and organic ligands, palladium ions can disturb cellular equilibria, replace other essential ions, an...more Number of Targets: 6 |
| T3D1595 | Tetraammine palladium(II) chloride 13815-17-3 | Cl2H12N4Pd 245.450 g/mol |  |
| Due to their ability to form strong complexes with both inorganic and organic ligands, palladium ions can disturb cellular equilibria, replace other essential ions, an...more Number of Targets: 6 |
| T3D1596 | Tetraammine palladium hydrogen carbonate 134620-00-1 | C2H14N4O6Pd 296.580 g/mol |  |
| Due to their ability to form strong complexes with both inorganic and organic ligands, palladium ions can disturb cellular equilibria, replace other essential ions, an...more Number of Targets: 6 |
| T3D1599 | Silver acetate 563-63-3 | C2H3AgO2 166.912 g/mol |  |
| Metallic silver is oxidized and may deposit in the tissues, causing arygria. The silver ion is known to inhibit glutathione peroxidase and NA+,K+-ATPase activity, disr...more Number of Targets: 17 |
| T3D1600 | Silver acetylide 7659-31-6 | C2HAg 132.898 g/mol |  |
| Metallic silver is oxidized and may deposit in the tissues, causing arygria. The silver ion is known to inhibit glutathione peroxidase and NA+,K+-ATPase activity, disr...more Number of Targets: 17 |
| T3D1601 | Silver azide 13863-88-2 | AgN3 149.888 g/mol |  |
| Metallic silver is oxidized and may deposit in the tissues, causing arygria. The silver ion is known to inhibit glutathione peroxidase and NA+,K+-ATPase activity, disr...more Number of Targets: 17 |
| T3D1602 | Silver carbonate 534-16-7 | CAg2O3 275.745 g/mol |  |
| Metallic silver is oxidized and may deposit in the tissues, causing arygria. The silver ion is known to inhibit glutathione peroxidase and NA+,K+-ATPase activity, disr...more Number of Targets: 17 |
| T3D1603 | Silver chlorate 7783-92-8 | AgClO3 191.319 g/mol |  |
| Metallic silver is oxidized and may deposit in the tissues, causing arygria. The silver ion is known to inhibit glutathione peroxidase and NA+,K+-ATPase activity, disr...more Number of Targets: 17 |
| T3D1604 | Silver chloride 7783-90-6 | AgCl 143.321 g/mol |  |
| Metallic silver is oxidized and may deposit in the tissues, causing arygria. The silver ion is known to inhibit glutathione peroxidase and NA+,K+-ATPase activity, disr...more Number of Targets: 17 |